Neurology

An investigational drug that targets abnormal clumps of alpha-synuclein protein in the gut safely reduced constipation in patients with Parkinson’s disease (PD) in a new study.

The findings are based on 135 patients who completed 7-25 days of treatment with a daily oral dose of the drug, ENT-01, or a placebo. Complete spontaneous bowel movements (CSBMs), the primary efficacy endpoint, increased from a mean of 0.7 per week to 3.2 in individuals who took ENT-01 versus 1.2 in the placebo group.

The phase 2, multicenter, randomized trial showed that the drug “is safe and that it rapidly normalized bowel function in a dose-dependent fashion, with an effect that seems to persist for several weeks beyond the treatment period,” the researchers wrote in their paper on the research, which was published in Annals of Internal Medicine.

The researchers hypothesized that displacing aggregated alpha-synuclein from nerve cells in the gastrointestinal tract may also “slow progression of neurologic symptoms” in patients with PD by arresting the abnormal development of alpha-nucleic aggregates in the brain.

Denise Barbut, MD, cofounder, president and chief medical officer of Enterin, the company developing ENT-01, said the next step is another phase 2 trial to determine whether the drug reverses dementia or psychosis in patients with PD, before conducting a phase 3 study.

“We want to treat all nonmotor symptoms of Parkinson’s disease, not just constipation,” she said.
 

Constipation is an early PD symptom

Constipation is a common and persistent symptom of PD that often emerges years earlier than other symptoms such as motor deficits. Recent research has linked it to aggregates of alpha-synuclein that bind to cells in the enteric nervous system and may spread to the brain via the vagus nerve.

According to the researchers, ENT-01, a synthetic derivative of the antimicrobial compound squalamine, improves neural signaling in the gut by displacing alpha-synuclein aggregates.

In their double-blinded study, patients were randomized 3:1 to receive ENT-01 or a placebo and stratified by constipation severity to one of two starting doses: 75 mg or three placebo pills or 150 mg or six placebo pills. Doses increased until a patient reached a “prokinetic” dose, a maximum of 250 mg or 10 placebo pills, or the individual’s tolerability limit.

Dosing was fixed for the remainder of the 25 days, after which all patients took a placebo for 2 weeks followed by a 4-week washout.

In addition to more CSBMs, the treatment group had greater improvements in secondary endpoints of weekly spontaneous bowel movements (P = .002), better stool consistency (P < .001), improved ease of passage (P = .006), and less laxative use (P = .041).

There were no significant differences between the groups in scores on the Patient Assessment of Constipation Symptoms or the Patient Assessment of Constipation Quality of Life.

No deaths occurred, and there were no serious adverse events attributed to ENT-01. However, adverse events occurred in 61 (65.6%) of patients who took the drug versus 27 (47.4%) of those who took a placebo.

The most common problems were nausea, experienced by 32 (34%) in the ENT-01 group and 3 (5.3%) in the placebo group, and diarrhea, which occurred in 18 (9.4%) of those in the ENT-01 group and three (5.3%) who took the placebo.

Of 93 patients randomized to the drug (25.8%), 24 discontinued treatment before therapy ended, mostly because of nausea or diarrhea. That compared with 8 of 57 (14.1%) patients in the placebo group who stopped taking their pills before the end of the therapy period.

The researchers suggested that nausea and diarrhea might be alleviated by more gradual dosing escalation and the use of antinausea medication.

Dr. Barbut noted that a previous open-label trial of 50 patients with PD showed that ENT-01 acts locally in the gastrointestinal tract, which means it would not be absorbed into the bloodstream or interfere with other medications.
 

Targeting the underlying disease

Researchers noted that, in small subsets of patients with dementia or psychosis, greater improvements in those symptoms occurred among those who took ENT-01 versus those who took a placebo.

According to the study, among 11 patients with psychosis, average scores on the Scale for the Assessment of Positive Symptoms adapted for PD dropped from 6.5 to 1.8 on a 45-point scale at the end of treatment in the ENT-01 group (n = 5) and from 6.3 to 3.4 in the placebo group (n = 6).

In 28 patients with dementia, scores on the Mini-Mental State Examination improved by 2.4 points on a 30-point scale, from 24.1 to 26.5, during the treatment period for the ENT-01 group (n = 14) versus an improvement of 0.9 points, from 24.8 to 25.7, in the placebo group (n = 14).

The researchers said the findings must be evaluated in future trials dedicated to studying ENT-01’s effects on PD-related psychosis and dementia.

An investigational drug that targets abnormal clumps of alpha-synuclein protein in the gut safely reduced constipation in patients with Parkinson’s disease (PD) in a new study.

The findings are based on 135 patients who completed 7-25 days of treatment with a daily oral dose of the drug, ENT-01, or a placebo. Complete spontaneous bowel movements (CSBMs), the primary efficacy endpoint, increased from a mean of 0.7 per week to 3.2 in individuals who took ENT-01 versus 1.2 in the placebo group.

The phase 2, multicenter, randomized trial showed that the drug “is safe and that it rapidly normalized bowel function in a dose-dependent fashion, with an effect that seems to persist for several weeks beyond the treatment period,” the researchers wrote in their paper on the research, which was published in Annals of Internal Medicine.

The researchers hypothesized that displacing aggregated alpha-synuclein from nerve cells in the gastrointestinal tract may also “slow progression of neurologic symptoms” in patients with PD by arresting the abnormal development of alpha-nucleic aggregates in the brain.

Denise Barbut, MD, cofounder, president and chief medical officer of Enterin, the company developing ENT-01, said the next step is another phase 2 trial to determine whether the drug reverses dementia or psychosis in patients with PD, before conducting a phase 3 study.

“We want to treat all nonmotor symptoms of Parkinson’s disease, not just constipation,” she said.
 

Constipation is an early PD symptom

Constipation is a common and persistent symptom of PD that often emerges years earlier than other symptoms such as motor deficits. Recent research has linked it to aggregates of alpha-synuclein that bind to cells in the enteric nervous system and may spread to the brain via the vagus nerve.

According to the researchers, ENT-01, a synthetic derivative of the antimicrobial compound squalamine, improves neural signaling in the gut by displacing alpha-synuclein aggregates.

In their double-blinded study, patients were randomized 3:1 to receive ENT-01 or a placebo and stratified by constipation severity to one of two starting doses: 75 mg or three placebo pills or 150 mg or six placebo pills. Doses increased until a patient reached a “prokinetic” dose, a maximum of 250 mg or 10 placebo pills, or the individual’s tolerability limit.

Dosing was fixed for the remainder of the 25 days, after which all patients took a placebo for 2 weeks followed by a 4-week washout.

In addition to more CSBMs, the treatment group had greater improvements in secondary endpoints of weekly spontaneous bowel movements (P = .002), better stool consistency (P < .001), improved ease of passage (P = .006), and less laxative use (P = .041).

There were no significant differences between the groups in scores on the Patient Assessment of Constipation Symptoms or the Patient Assessment of Constipation Quality of Life.

No deaths occurred, and there were no serious adverse events attributed to ENT-01. However, adverse events occurred in 61 (65.6%) of patients who took the drug versus 27 (47.4%) of those who took a placebo.

The most common problems were nausea, experienced by 32 (34%) in the ENT-01 group and 3 (5.3%) in the placebo group, and diarrhea, which occurred in 18 (9.4%) of those in the ENT-01 group and three (5.3%) who took the placebo.

Of 93 patients randomized to the drug (25.8%), 24 discontinued treatment before therapy ended, mostly because of nausea or diarrhea. That compared with 8 of 57 (14.1%) patients in the placebo group who stopped taking their pills before the end of the therapy period.

The researchers suggested that nausea and diarrhea might be alleviated by more gradual dosing escalation and the use of antinausea medication.

Dr. Barbut noted that a previous open-label trial of 50 patients with PD showed that ENT-01 acts locally in the gastrointestinal tract, which means it would not be absorbed into the bloodstream or interfere with other medications.
 

Targeting the underlying disease

Researchers noted that, in small subsets of patients with dementia or psychosis, greater improvements in those symptoms occurred among those who took ENT-01 versus those who took a placebo.

According to the study, among 11 patients with psychosis, average scores on the Scale for the Assessment of Positive Symptoms adapted for PD dropped from 6.5 to 1.8 on a 45-point scale at the end of treatment in the ENT-01 group (n = 5) and from 6.3 to 3.4 in the placebo group (n = 6).

In 28 patients with dementia, scores on the Mini-Mental State Examination improved by 2.4 points on a 30-point scale, from 24.1 to 26.5, during the treatment period for the ENT-01 group (n = 14) versus an improvement of 0.9 points, from 24.8 to 25.7, in the placebo group (n = 14).

The researchers said the findings must be evaluated in future trials dedicated to studying ENT-01’s effects on PD-related psychosis and dementia.

An investigational drug that targets abnormal clumps of alpha-synuclein protein in the gut safely reduced constipation in patients with Parkinson’s disease (PD) in a new study.

The findings are based on 135 patients who completed 7-25 days of treatment with a daily oral dose of the drug, ENT-01, or a placebo. Complete spontaneous bowel movements (CSBMs), the primary efficacy endpoint, increased from a mean of 0.7 per week to 3.2 in individuals who took ENT-01 versus 1.2 in the placebo group.

The phase 2, multicenter, randomized trial showed that the drug “is safe and that it rapidly normalized bowel function in a dose-dependent fashion, with an effect that seems to persist for several weeks beyond the treatment period,” the researchers wrote in their paper on the research, which was published in Annals of Internal Medicine.

The researchers hypothesized that displacing aggregated alpha-synuclein from nerve cells in the gastrointestinal tract may also “slow progression of neurologic symptoms” in patients with PD by arresting the abnormal development of alpha-nucleic aggregates in the brain.

Denise Barbut, MD, cofounder, president and chief medical officer of Enterin, the company developing ENT-01, said the next step is another phase 2 trial to determine whether the drug reverses dementia or psychosis in patients with PD, before conducting a phase 3 study.

“We want to treat all nonmotor symptoms of Parkinson’s disease, not just constipation,” she said.
 

Constipation is an early PD symptom

Constipation is a common and persistent symptom of PD that often emerges years earlier than other symptoms such as motor deficits. Recent research has linked it to aggregates of alpha-synuclein that bind to cells in the enteric nervous system and may spread to the brain via the vagus nerve.

According to the researchers, ENT-01, a synthetic derivative of the antimicrobial compound squalamine, improves neural signaling in the gut by displacing alpha-synuclein aggregates.

In their double-blinded study, patients were randomized 3:1 to receive ENT-01 or a placebo and stratified by constipation severity to one of two starting doses: 75 mg or three placebo pills or 150 mg or six placebo pills. Doses increased until a patient reached a “prokinetic” dose, a maximum of 250 mg or 10 placebo pills, or the individual’s tolerability limit.

Dosing was fixed for the remainder of the 25 days, after which all patients took a placebo for 2 weeks followed by a 4-week washout.

In addition to more CSBMs, the treatment group had greater improvements in secondary endpoints of weekly spontaneous bowel movements (P = .002), better stool consistency (P < .001), improved ease of passage (P = .006), and less laxative use (P = .041).

There were no significant differences between the groups in scores on the Patient Assessment of Constipation Symptoms or the Patient Assessment of Constipation Quality of Life.

No deaths occurred, and there were no serious adverse events attributed to ENT-01. However, adverse events occurred in 61 (65.6%) of patients who took the drug versus 27 (47.4%) of those who took a placebo.

The most common problems were nausea, experienced by 32 (34%) in the ENT-01 group and 3 (5.3%) in the placebo group, and diarrhea, which occurred in 18 (9.4%) of those in the ENT-01 group and three (5.3%) who took the placebo.

Of 93 patients randomized to the drug (25.8%), 24 discontinued treatment before therapy ended, mostly because of nausea or diarrhea. That compared with 8 of 57 (14.1%) patients in the placebo group who stopped taking their pills before the end of the therapy period.

The researchers suggested that nausea and diarrhea might be alleviated by more gradual dosing escalation and the use of antinausea medication.

Dr. Barbut noted that a previous open-label trial of 50 patients with PD showed that ENT-01 acts locally in the gastrointestinal tract, which means it would not be absorbed into the bloodstream or interfere with other medications.
 

Targeting the underlying disease

Researchers noted that, in small subsets of patients with dementia or psychosis, greater improvements in those symptoms occurred among those who took ENT-01 versus those who took a placebo.

According to the study, among 11 patients with psychosis, average scores on the Scale for the Assessment of Positive Symptoms adapted for PD dropped from 6.5 to 1.8 on a 45-point scale at the end of treatment in the ENT-01 group (n = 5) and from 6.3 to 3.4 in the placebo group (n = 6).

In 28 patients with dementia, scores on the Mini-Mental State Examination improved by 2.4 points on a 30-point scale, from 24.1 to 26.5, during the treatment period for the ENT-01 group (n = 14) versus an improvement of 0.9 points, from 24.8 to 25.7, in the placebo group (n = 14).

The researchers said the findings must be evaluated in future trials dedicated to studying ENT-01’s effects on PD-related psychosis and dementia.

A study evaluating a new approach using a combination of two thrombolytics designed to reduce bleeding risk in patients with acute ischemic stroke has not shown any benefit on the primary outcome of all intracranial hemorrhage (ICH).

However, there were some encouraging findings including a trend towards a reduction in symptomatic ICH, researchers report, and the combination approach did not show any depletion of fibrinogen levels, which suggests a potential lower bleeding risk.

“Although the main results of this study are neutral, we are encouraged that the combination approach with a low dose of alteplase followed by the new mutant pro-urokinase product looked as effective as full-dose alteplase alone, and there were some promising signs signaling a potential lower bleeding risk,” senior investigator, Diederik Dippel, MD, Erasmus University Medical Center, Rotterdam, the Netherlands, told this news organization.  

The DUMAS study (Dual Thrombolytic Therapy With Mutant Pro-Urokinase and Low Dose Alteplase for Ischemic Stroke) was presented at the World Stroke Congress in Singapore by study coauthor Nadinda van der Ende, MD, also from Erasmus University Medical Center. 

She pointed out that thrombolysis with intravenous alteplase increases the likelihood of a good outcome in acute ischemic stroke but can cause symptomatic intracranial hemorrhage, which can be associated with death and major disability.

Mutant pro-urokinase is a new thrombolytic agent, in development by Thrombolytic Science, Cambridge, Mass., formed by changing one amino acid in pro-urokinase to make it more stable. It is more fibrin specific than alteplase and therefore believed to have a lower risk of intracranial hemorrhage.

Fibrin is formed as the last step in the clotting process, and the precursor of fibrin in the blood is fibrinogen, Dr. van der Ende noted. Alteplase depletes fibrinogen, contributing to its increased bleeding risk, but mutant pro-urokinase is not believed to affect fibrinogen.

“Mutant pro-urokinase does not bind to intact fibrin. It only binds to fibrin that has already been primed by alteplase,” she explained.

The hypothesis behind the current study is that giving a small dose of alteplase will break down fibrin in the clot enough to expose the binding sites for mutant pro-urokinase, which can then be given to continue to lyse the clot.  

As alteplase has a short half-life, it disappears quickly, and new fibrin is not affected. As mutant pro-urokinase can only lyse fibrin that is primed with alteplase, new hemostatic clots should stay intact. Animal studies have shown less bleeding from distant sites with this approach, Dr. van der Ende said.

The primary analysis of the phase 2 DUMAS study included 238 patients with mild ischemic stroke (median National Institutes of Health Stroke Scale [NIHSS] score 3) who met the standard criteria for IV alteplase.

They were randomized to alteplase alone at the regular dose of 0.9 mg/kg (max 90 mg) with a 10% bolus and the remaining given over 60 minutes; or to a combination of a 5-mg bolus of IV alteplase followed by mutant pro-urokinase at a dose of 40 mg given over 60 minutes.

The primary outcome was the rate of all intracranial hemorrhage (symptomatic and asymptomatic) detected by neuroimaging.  

This occurred in 14% of patients in the full-dose alteplase group vs. 13% of patients in the combined alteplase/mutant pro-urokinase group, a nonsignificant difference: adjusted odds ratio, 0.99 (95% confidence interval, 0.46-2.14).

Secondary outcomes showed no significant differences in NIHSS scores at 24 hours or 5-7 days; functional outcome as measured by a shift analysis of the Modified Rankin Scale (mRS); final infarct volume; or perfusion deficit.

However, blood fibrinogen levels were not depleted and significantly higher in the alteplase/mutant pro-urokinase group than in the full-dose alteplase alone group.

In terms of safety, symptomatic ICH occurred in three patients in the alteplase group (3%) and in none (0%) in the combined alteplase/mutant pro-urokinase group; death occurred in 4% vs. 2% patients respectively; and major extracranial hemorrhage occurred in 1% in both groups.

Dr. Van der Ende concluded that the study showed an overall low rate of ICH; a combination of alteplase and mutant pro-urokinase was not superior to alteplase alone in reducing ICH rates in this population of patients with minor stroke; and mutant pro-urokinase appeared to be safe and, unlike alteplase, did not show any reduction in fibrinogen levels.

“We think the lack of an effect on fibrinogen with this new combination of a small alteplase bolus followed by mutant pro-urokinase infusion is promising,” Dr. Dippel commented. “The fact that there was no symptomatic ICH with the combination treatment is also encouraging. Although the primary endpoint of this trial was neutral, we still believe this is a very interesting approach, with the potential for reduced bleeding, compared with alteplase alone, but we need larger numbers to see an effect on outcomes.”

Dr. Dippel also pointed out that the study included only patients with minor stroke who were not eligible for endovascular therapy, and these patients have a low risk of a poor outcome and a low bleeding risk. 

They are hoping to do another study in patients with more severe stroke, who have a higher bleeding risk and would have more to gain from this combination approach.

Because many patients with severe stroke now have immediate thrombectomy if they present to a comprehensive stroke center, a trial in severe stroke patients would have to be done in primary stroke centers, so if the patents are referred to thrombectomy, the thrombolytic would have a chance to work, Dr. Dippel added.

Commenting on the study for this news organization, Stefan Kiechl, MD, Medical University of Innsbruck (Austria), who is cochair of the World Stroke Congress scientific committee, said, “Alteplase is not fibrin specific, and also causes a degeneration of fibrinogen, which results in ‘fibrinogen depletion coagulopathy.’ It is assumed that 20%-40% of intracerebral bleeding after thrombolysis with alteplase is caused by this problem. DUMAS tests the combination of a substantially reduced alteplase [5 mg] dose plus mutant pro-urokinase to avoid this problem.”

The new thrombolysis protocol, however, did not result in a lower bleeding risk, compared to the comparator alteplase,” he added. “The main limitation of this study is that mainly patients with minor strokes were included. Patients with moderate and severe strokes, who have a substantial risk of bleeding, were not adequately addressed.”

The DUMAS trial was funded by an unrestricted grant from Thrombolytic Science, paid to the institution. Dr. Van der Ende and Dr. Dippel report no relevant disclosures.
 

A version of this article first appeared on Medscape.com.

A study evaluating a new approach using a combination of two thrombolytics designed to reduce bleeding risk in patients with acute ischemic stroke has not shown any benefit on the primary outcome of all intracranial hemorrhage (ICH).

However, there were some encouraging findings including a trend towards a reduction in symptomatic ICH, researchers report, and the combination approach did not show any depletion of fibrinogen levels, which suggests a potential lower bleeding risk.

“Although the main results of this study are neutral, we are encouraged that the combination approach with a low dose of alteplase followed by the new mutant pro-urokinase product looked as effective as full-dose alteplase alone, and there were some promising signs signaling a potential lower bleeding risk,” senior investigator, Diederik Dippel, MD, Erasmus University Medical Center, Rotterdam, the Netherlands, told this news organization.  

The DUMAS study (Dual Thrombolytic Therapy With Mutant Pro-Urokinase and Low Dose Alteplase for Ischemic Stroke) was presented at the World Stroke Congress in Singapore by study coauthor Nadinda van der Ende, MD, also from Erasmus University Medical Center. 

She pointed out that thrombolysis with intravenous alteplase increases the likelihood of a good outcome in acute ischemic stroke but can cause symptomatic intracranial hemorrhage, which can be associated with death and major disability.

Mutant pro-urokinase is a new thrombolytic agent, in development by Thrombolytic Science, Cambridge, Mass., formed by changing one amino acid in pro-urokinase to make it more stable. It is more fibrin specific than alteplase and therefore believed to have a lower risk of intracranial hemorrhage.

Fibrin is formed as the last step in the clotting process, and the precursor of fibrin in the blood is fibrinogen, Dr. van der Ende noted. Alteplase depletes fibrinogen, contributing to its increased bleeding risk, but mutant pro-urokinase is not believed to affect fibrinogen.

“Mutant pro-urokinase does not bind to intact fibrin. It only binds to fibrin that has already been primed by alteplase,” she explained.

The hypothesis behind the current study is that giving a small dose of alteplase will break down fibrin in the clot enough to expose the binding sites for mutant pro-urokinase, which can then be given to continue to lyse the clot.  

As alteplase has a short half-life, it disappears quickly, and new fibrin is not affected. As mutant pro-urokinase can only lyse fibrin that is primed with alteplase, new hemostatic clots should stay intact. Animal studies have shown less bleeding from distant sites with this approach, Dr. van der Ende said.

The primary analysis of the phase 2 DUMAS study included 238 patients with mild ischemic stroke (median National Institutes of Health Stroke Scale [NIHSS] score 3) who met the standard criteria for IV alteplase.

They were randomized to alteplase alone at the regular dose of 0.9 mg/kg (max 90 mg) with a 10% bolus and the remaining given over 60 minutes; or to a combination of a 5-mg bolus of IV alteplase followed by mutant pro-urokinase at a dose of 40 mg given over 60 minutes.

The primary outcome was the rate of all intracranial hemorrhage (symptomatic and asymptomatic) detected by neuroimaging.  

This occurred in 14% of patients in the full-dose alteplase group vs. 13% of patients in the combined alteplase/mutant pro-urokinase group, a nonsignificant difference: adjusted odds ratio, 0.99 (95% confidence interval, 0.46-2.14).

Secondary outcomes showed no significant differences in NIHSS scores at 24 hours or 5-7 days; functional outcome as measured by a shift analysis of the Modified Rankin Scale (mRS); final infarct volume; or perfusion deficit.

However, blood fibrinogen levels were not depleted and significantly higher in the alteplase/mutant pro-urokinase group than in the full-dose alteplase alone group.

In terms of safety, symptomatic ICH occurred in three patients in the alteplase group (3%) and in none (0%) in the combined alteplase/mutant pro-urokinase group; death occurred in 4% vs. 2% patients respectively; and major extracranial hemorrhage occurred in 1% in both groups.

Dr. Van der Ende concluded that the study showed an overall low rate of ICH; a combination of alteplase and mutant pro-urokinase was not superior to alteplase alone in reducing ICH rates in this population of patients with minor stroke; and mutant pro-urokinase appeared to be safe and, unlike alteplase, did not show any reduction in fibrinogen levels.

“We think the lack of an effect on fibrinogen with this new combination of a small alteplase bolus followed by mutant pro-urokinase infusion is promising,” Dr. Dippel commented. “The fact that there was no symptomatic ICH with the combination treatment is also encouraging. Although the primary endpoint of this trial was neutral, we still believe this is a very interesting approach, with the potential for reduced bleeding, compared with alteplase alone, but we need larger numbers to see an effect on outcomes.”

Dr. Dippel also pointed out that the study included only patients with minor stroke who were not eligible for endovascular therapy, and these patients have a low risk of a poor outcome and a low bleeding risk. 

They are hoping to do another study in patients with more severe stroke, who have a higher bleeding risk and would have more to gain from this combination approach.

Because many patients with severe stroke now have immediate thrombectomy if they present to a comprehensive stroke center, a trial in severe stroke patients would have to be done in primary stroke centers, so if the patents are referred to thrombectomy, the thrombolytic would have a chance to work, Dr. Dippel added.

Commenting on the study for this news organization, Stefan Kiechl, MD, Medical University of Innsbruck (Austria), who is cochair of the World Stroke Congress scientific committee, said, “Alteplase is not fibrin specific, and also causes a degeneration of fibrinogen, which results in ‘fibrinogen depletion coagulopathy.’ It is assumed that 20%-40% of intracerebral bleeding after thrombolysis with alteplase is caused by this problem. DUMAS tests the combination of a substantially reduced alteplase [5 mg] dose plus mutant pro-urokinase to avoid this problem.”

The new thrombolysis protocol, however, did not result in a lower bleeding risk, compared to the comparator alteplase,” he added. “The main limitation of this study is that mainly patients with minor strokes were included. Patients with moderate and severe strokes, who have a substantial risk of bleeding, were not adequately addressed.”

The DUMAS trial was funded by an unrestricted grant from Thrombolytic Science, paid to the institution. Dr. Van der Ende and Dr. Dippel report no relevant disclosures.
 

A version of this article first appeared on Medscape.com.

A study evaluating a new approach using a combination of two thrombolytics designed to reduce bleeding risk in patients with acute ischemic stroke has not shown any benefit on the primary outcome of all intracranial hemorrhage (ICH).

However, there were some encouraging findings including a trend towards a reduction in symptomatic ICH, researchers report, and the combination approach did not show any depletion of fibrinogen levels, which suggests a potential lower bleeding risk.

“Although the main results of this study are neutral, we are encouraged that the combination approach with a low dose of alteplase followed by the new mutant pro-urokinase product looked as effective as full-dose alteplase alone, and there were some promising signs signaling a potential lower bleeding risk,” senior investigator, Diederik Dippel, MD, Erasmus University Medical Center, Rotterdam, the Netherlands, told this news organization.  

The DUMAS study (Dual Thrombolytic Therapy With Mutant Pro-Urokinase and Low Dose Alteplase for Ischemic Stroke) was presented at the World Stroke Congress in Singapore by study coauthor Nadinda van der Ende, MD, also from Erasmus University Medical Center. 

She pointed out that thrombolysis with intravenous alteplase increases the likelihood of a good outcome in acute ischemic stroke but can cause symptomatic intracranial hemorrhage, which can be associated with death and major disability.

Mutant pro-urokinase is a new thrombolytic agent, in development by Thrombolytic Science, Cambridge, Mass., formed by changing one amino acid in pro-urokinase to make it more stable. It is more fibrin specific than alteplase and therefore believed to have a lower risk of intracranial hemorrhage.

Fibrin is formed as the last step in the clotting process, and the precursor of fibrin in the blood is fibrinogen, Dr. van der Ende noted. Alteplase depletes fibrinogen, contributing to its increased bleeding risk, but mutant pro-urokinase is not believed to affect fibrinogen.

“Mutant pro-urokinase does not bind to intact fibrin. It only binds to fibrin that has already been primed by alteplase,” she explained.

The hypothesis behind the current study is that giving a small dose of alteplase will break down fibrin in the clot enough to expose the binding sites for mutant pro-urokinase, which can then be given to continue to lyse the clot.  

As alteplase has a short half-life, it disappears quickly, and new fibrin is not affected. As mutant pro-urokinase can only lyse fibrin that is primed with alteplase, new hemostatic clots should stay intact. Animal studies have shown less bleeding from distant sites with this approach, Dr. van der Ende said.

The primary analysis of the phase 2 DUMAS study included 238 patients with mild ischemic stroke (median National Institutes of Health Stroke Scale [NIHSS] score 3) who met the standard criteria for IV alteplase.

They were randomized to alteplase alone at the regular dose of 0.9 mg/kg (max 90 mg) with a 10% bolus and the remaining given over 60 minutes; or to a combination of a 5-mg bolus of IV alteplase followed by mutant pro-urokinase at a dose of 40 mg given over 60 minutes.

The primary outcome was the rate of all intracranial hemorrhage (symptomatic and asymptomatic) detected by neuroimaging.  

This occurred in 14% of patients in the full-dose alteplase group vs. 13% of patients in the combined alteplase/mutant pro-urokinase group, a nonsignificant difference: adjusted odds ratio, 0.99 (95% confidence interval, 0.46-2.14).

Secondary outcomes showed no significant differences in NIHSS scores at 24 hours or 5-7 days; functional outcome as measured by a shift analysis of the Modified Rankin Scale (mRS); final infarct volume; or perfusion deficit.

However, blood fibrinogen levels were not depleted and significantly higher in the alteplase/mutant pro-urokinase group than in the full-dose alteplase alone group.

In terms of safety, symptomatic ICH occurred in three patients in the alteplase group (3%) and in none (0%) in the combined alteplase/mutant pro-urokinase group; death occurred in 4% vs. 2% patients respectively; and major extracranial hemorrhage occurred in 1% in both groups.

Dr. Van der Ende concluded that the study showed an overall low rate of ICH; a combination of alteplase and mutant pro-urokinase was not superior to alteplase alone in reducing ICH rates in this population of patients with minor stroke; and mutant pro-urokinase appeared to be safe and, unlike alteplase, did not show any reduction in fibrinogen levels.

“We think the lack of an effect on fibrinogen with this new combination of a small alteplase bolus followed by mutant pro-urokinase infusion is promising,” Dr. Dippel commented. “The fact that there was no symptomatic ICH with the combination treatment is also encouraging. Although the primary endpoint of this trial was neutral, we still believe this is a very interesting approach, with the potential for reduced bleeding, compared with alteplase alone, but we need larger numbers to see an effect on outcomes.”

Dr. Dippel also pointed out that the study included only patients with minor stroke who were not eligible for endovascular therapy, and these patients have a low risk of a poor outcome and a low bleeding risk. 

They are hoping to do another study in patients with more severe stroke, who have a higher bleeding risk and would have more to gain from this combination approach.

Because many patients with severe stroke now have immediate thrombectomy if they present to a comprehensive stroke center, a trial in severe stroke patients would have to be done in primary stroke centers, so if the patents are referred to thrombectomy, the thrombolytic would have a chance to work, Dr. Dippel added.

Commenting on the study for this news organization, Stefan Kiechl, MD, Medical University of Innsbruck (Austria), who is cochair of the World Stroke Congress scientific committee, said, “Alteplase is not fibrin specific, and also causes a degeneration of fibrinogen, which results in ‘fibrinogen depletion coagulopathy.’ It is assumed that 20%-40% of intracerebral bleeding after thrombolysis with alteplase is caused by this problem. DUMAS tests the combination of a substantially reduced alteplase [5 mg] dose plus mutant pro-urokinase to avoid this problem.”

The new thrombolysis protocol, however, did not result in a lower bleeding risk, compared to the comparator alteplase,” he added. “The main limitation of this study is that mainly patients with minor strokes were included. Patients with moderate and severe strokes, who have a substantial risk of bleeding, were not adequately addressed.”

The DUMAS trial was funded by an unrestricted grant from Thrombolytic Science, paid to the institution. Dr. Van der Ende and Dr. Dippel report no relevant disclosures.
 

A version of this article first appeared on Medscape.com.

VIENNA – Inpatient treatment for major depressive disorder (MDD) can lead to brain connectivity increases that are associated with degree of symptom improvement, new research suggests.

In a “repeat” MRI study, adult participants with MDD had significantly lower brain connectivity compared with their healthy peers at baseline – but showed significant improvement at the 6-week follow-up. These improvements were associated with decreases in symptom severity, independent of whether they received electroconvulsive therapy (ECT) or other treatment modalities.

“This means that the brain structure of patients with serious clinical depression is not as fixed as we thought, and we can improve brain structure within a short time frame [of] around 6 weeks,” lead author Jonathan Repple, MD, now professor of predictive psychiatry at the University of Frankfurt, Germany, said in a release.

“This gives hope to patients who believe nothing can change and they have to live with a disease forever because it is ‘set in stone’ in their brain,” he added.

The findings were presented at the 35th European College of Neuropsychopharmacology (ECNP) Congress.
 

‘Easily understandable picture’

Dr. Repple said in an interview that the investigators “were surprised to see how plastic” the brain could be.

“I’ve done a lot of imaging studies in the past where we looked at differences in depression vs. healthy controls, and then maybe had tiny effects. But we’ve never seen such a clear and easily understandable picture, where we see a deficit at the beginning and then a significant increase in whatever biomarker we were looking at, that even correlated with how successful the treatment was,” he said.

Dr. Repple noted that “this is the thing everyone is looking for when we’re talking about a biomarker: That we see this exact pattern” – and it is why they are so excited about the results.

However, he cautioned that the study included a “small sample” and the results need to be independently replicated.

“If this can be replicated, this might be a very good target for future intervention studies,” Dr. Repple said.

The investigators noted that altered brain structural connectivity has been implicated before in the pathophysiology of MDD.

However, it is not clear whether these changes are stable over time and indicate a biological predisposition, or are markers of current disease severity and can be altered by effective treatment.

To investigate further, the researchers used gray matter T1-weighted MRI to define nodes in the brain and diffusion-weighted imaging (DWI)-based tractography to determine connections between the nodes, to create a structural connectome or white matter network.

They performed assessments at baseline and at 6 weeks’ follow-up in 123 participants diagnosed with current MDD and receiving inpatient treatment, and 55 participants who acted as the healthy controls group.

Among the patients with MDD, 56 were treated with ECT and 67 received other antidepressant care, including psychological therapy or medications. Some patients had received all three treatment modalities.
 

Significant interactions

Results showed a significant interaction by group and time between the baseline and 6-week follow-up assessments (P < .05).

This was partly driven by the MDD group having a significantly lower connectivity strength at baseline than the healthy controls group (P < .05).

It was also partly driven by patients showing a significant improvement in connectivity strength between the baseline and follow-up assessments (P < .05), a pattern that was not seen in the nonpatients.

This increase in connectivity strength was associated with a significant decrease in depression symptom severity (P < .05). This was independent of the treatment modality, indicating that it was not linked to the use of ECT.

Dr. Repple acknowledged the relatively short follow-up period of the study, and added that he is not aware of longitudinal studies of the structural connectome with a longer follow-up.

He pointed out that the structural connectivity of the brain decreases with age, but there have been no studies that have assessed patients with depression and “measured the same person again after 2, 4, 6, or 8 years.”

Dr. Repple reported that the investigators will be following up with their participants, “so hopefully in a few years we’ll have more information on that.

“One thing I also need to stress is that, when we’re looking at the MRI brain scans, we see an increase in connectivity strength, but we really can’t say what the molecular mechanisms behind it are,” he said. “This is a black box for us.”
 

Several unanswered questions

Commenting in the release, Eric Ruhe, MD, PhD, Radboud University Medical Center, Nijmegen, the Netherlands, said this was a “very interesting and difficult study to perform.”

However, Dr. Ruhe, who was not involved in the research, told this news organization that it is “very difficult to connect the lack of brain connectivity to the patient symptomatology because there is a huge gap between them.”

The problem is that, despite “lots of evidence” that they are effective, “we currently don’t know how antidepressant therapies work” in terms of their underlying mechanisms of action, he said.

“We think that these types of therapies all modulate the plasticity of the brain,” said Dr. Ruhe. “What this study showed is there are changes that you can detect even in 6 weeks,” although they may have been observed even sooner with a shorter follow-up.

He noted that big questions are whether the change is specific to the treatment given, and “can you modulate different brain network dysfunctions with different treatments?”

Moreover, he wondered if a brain scan could indicate which type of treatment should be used. “This is, of course, very new and very challenging, and we don’t know yet, but we should be pursuing this,” Dr. Ruhe said.

Another question is whether or not the brain connectivity changes shown in the study represent a persistent change – “and whether this is a persistent change that is associated with a consistent and persistent relief of depression.

“Again, this is something that needs to be followed up,” said Dr. Ruhe.

No funding was declared. The study authors and Dr. Ruhe report no relevant financial relationships.

A version of this article first appeared on Medscape.com.

VIENNA – Inpatient treatment for major depressive disorder (MDD) can lead to brain connectivity increases that are associated with degree of symptom improvement, new research suggests.

In a “repeat” MRI study, adult participants with MDD had significantly lower brain connectivity compared with their healthy peers at baseline – but showed significant improvement at the 6-week follow-up. These improvements were associated with decreases in symptom severity, independent of whether they received electroconvulsive therapy (ECT) or other treatment modalities.

“This means that the brain structure of patients with serious clinical depression is not as fixed as we thought, and we can improve brain structure within a short time frame [of] around 6 weeks,” lead author Jonathan Repple, MD, now professor of predictive psychiatry at the University of Frankfurt, Germany, said in a release.

“This gives hope to patients who believe nothing can change and they have to live with a disease forever because it is ‘set in stone’ in their brain,” he added.

The findings were presented at the 35th European College of Neuropsychopharmacology (ECNP) Congress.
 

‘Easily understandable picture’

Dr. Repple said in an interview that the investigators “were surprised to see how plastic” the brain could be.

“I’ve done a lot of imaging studies in the past where we looked at differences in depression vs. healthy controls, and then maybe had tiny effects. But we’ve never seen such a clear and easily understandable picture, where we see a deficit at the beginning and then a significant increase in whatever biomarker we were looking at, that even correlated with how successful the treatment was,” he said.

Dr. Repple noted that “this is the thing everyone is looking for when we’re talking about a biomarker: That we see this exact pattern” – and it is why they are so excited about the results.

However, he cautioned that the study included a “small sample” and the results need to be independently replicated.

“If this can be replicated, this might be a very good target for future intervention studies,” Dr. Repple said.

The investigators noted that altered brain structural connectivity has been implicated before in the pathophysiology of MDD.

However, it is not clear whether these changes are stable over time and indicate a biological predisposition, or are markers of current disease severity and can be altered by effective treatment.

To investigate further, the researchers used gray matter T1-weighted MRI to define nodes in the brain and diffusion-weighted imaging (DWI)-based tractography to determine connections between the nodes, to create a structural connectome or white matter network.

They performed assessments at baseline and at 6 weeks’ follow-up in 123 participants diagnosed with current MDD and receiving inpatient treatment, and 55 participants who acted as the healthy controls group.

Among the patients with MDD, 56 were treated with ECT and 67 received other antidepressant care, including psychological therapy or medications. Some patients had received all three treatment modalities.
 

Significant interactions

Results showed a significant interaction by group and time between the baseline and 6-week follow-up assessments (P < .05).

This was partly driven by the MDD group having a significantly lower connectivity strength at baseline than the healthy controls group (P < .05).

It was also partly driven by patients showing a significant improvement in connectivity strength between the baseline and follow-up assessments (P < .05), a pattern that was not seen in the nonpatients.

This increase in connectivity strength was associated with a significant decrease in depression symptom severity (P < .05). This was independent of the treatment modality, indicating that it was not linked to the use of ECT.

Dr. Repple acknowledged the relatively short follow-up period of the study, and added that he is not aware of longitudinal studies of the structural connectome with a longer follow-up.

He pointed out that the structural connectivity of the brain decreases with age, but there have been no studies that have assessed patients with depression and “measured the same person again after 2, 4, 6, or 8 years.”

Dr. Repple reported that the investigators will be following up with their participants, “so hopefully in a few years we’ll have more information on that.

“One thing I also need to stress is that, when we’re looking at the MRI brain scans, we see an increase in connectivity strength, but we really can’t say what the molecular mechanisms behind it are,” he said. “This is a black box for us.”
 

Several unanswered questions

Commenting in the release, Eric Ruhe, MD, PhD, Radboud University Medical Center, Nijmegen, the Netherlands, said this was a “very interesting and difficult study to perform.”

However, Dr. Ruhe, who was not involved in the research, told this news organization that it is “very difficult to connect the lack of brain connectivity to the patient symptomatology because there is a huge gap between them.”

The problem is that, despite “lots of evidence” that they are effective, “we currently don’t know how antidepressant therapies work” in terms of their underlying mechanisms of action, he said.

“We think that these types of therapies all modulate the plasticity of the brain,” said Dr. Ruhe. “What this study showed is there are changes that you can detect even in 6 weeks,” although they may have been observed even sooner with a shorter follow-up.

He noted that big questions are whether the change is specific to the treatment given, and “can you modulate different brain network dysfunctions with different treatments?”

Moreover, he wondered if a brain scan could indicate which type of treatment should be used. “This is, of course, very new and very challenging, and we don’t know yet, but we should be pursuing this,” Dr. Ruhe said.

Another question is whether or not the brain connectivity changes shown in the study represent a persistent change – “and whether this is a persistent change that is associated with a consistent and persistent relief of depression.

“Again, this is something that needs to be followed up,” said Dr. Ruhe.

No funding was declared. The study authors and Dr. Ruhe report no relevant financial relationships.

A version of this article first appeared on Medscape.com.

VIENNA – Inpatient treatment for major depressive disorder (MDD) can lead to brain connectivity increases that are associated with degree of symptom improvement, new research suggests.

In a “repeat” MRI study, adult participants with MDD had significantly lower brain connectivity compared with their healthy peers at baseline – but showed significant improvement at the 6-week follow-up. These improvements were associated with decreases in symptom severity, independent of whether they received electroconvulsive therapy (ECT) or other treatment modalities.

“This means that the brain structure of patients with serious clinical depression is not as fixed as we thought, and we can improve brain structure within a short time frame [of] around 6 weeks,” lead author Jonathan Repple, MD, now professor of predictive psychiatry at the University of Frankfurt, Germany, said in a release.

“This gives hope to patients who believe nothing can change and they have to live with a disease forever because it is ‘set in stone’ in their brain,” he added.

The findings were presented at the 35th European College of Neuropsychopharmacology (ECNP) Congress.
 

‘Easily understandable picture’

Dr. Repple said in an interview that the investigators “were surprised to see how plastic” the brain could be.

“I’ve done a lot of imaging studies in the past where we looked at differences in depression vs. healthy controls, and then maybe had tiny effects. But we’ve never seen such a clear and easily understandable picture, where we see a deficit at the beginning and then a significant increase in whatever biomarker we were looking at, that even correlated with how successful the treatment was,” he said.

Dr. Repple noted that “this is the thing everyone is looking for when we’re talking about a biomarker: That we see this exact pattern” – and it is why they are so excited about the results.

However, he cautioned that the study included a “small sample” and the results need to be independently replicated.

“If this can be replicated, this might be a very good target for future intervention studies,” Dr. Repple said.

The investigators noted that altered brain structural connectivity has been implicated before in the pathophysiology of MDD.

However, it is not clear whether these changes are stable over time and indicate a biological predisposition, or are markers of current disease severity and can be altered by effective treatment.

To investigate further, the researchers used gray matter T1-weighted MRI to define nodes in the brain and diffusion-weighted imaging (DWI)-based tractography to determine connections between the nodes, to create a structural connectome or white matter network.

They performed assessments at baseline and at 6 weeks’ follow-up in 123 participants diagnosed with current MDD and receiving inpatient treatment, and 55 participants who acted as the healthy controls group.

Among the patients with MDD, 56 were treated with ECT and 67 received other antidepressant care, including psychological therapy or medications. Some patients had received all three treatment modalities.
 

Significant interactions

Results showed a significant interaction by group and time between the baseline and 6-week follow-up assessments (P < .05).

This was partly driven by the MDD group having a significantly lower connectivity strength at baseline than the healthy controls group (P < .05).

It was also partly driven by patients showing a significant improvement in connectivity strength between the baseline and follow-up assessments (P < .05), a pattern that was not seen in the nonpatients.

This increase in connectivity strength was associated with a significant decrease in depression symptom severity (P < .05). This was independent of the treatment modality, indicating that it was not linked to the use of ECT.

Dr. Repple acknowledged the relatively short follow-up period of the study, and added that he is not aware of longitudinal studies of the structural connectome with a longer follow-up.

He pointed out that the structural connectivity of the brain decreases with age, but there have been no studies that have assessed patients with depression and “measured the same person again after 2, 4, 6, or 8 years.”

Dr. Repple reported that the investigators will be following up with their participants, “so hopefully in a few years we’ll have more information on that.

“One thing I also need to stress is that, when we’re looking at the MRI brain scans, we see an increase in connectivity strength, but we really can’t say what the molecular mechanisms behind it are,” he said. “This is a black box for us.”
 

Several unanswered questions

Commenting in the release, Eric Ruhe, MD, PhD, Radboud University Medical Center, Nijmegen, the Netherlands, said this was a “very interesting and difficult study to perform.”

However, Dr. Ruhe, who was not involved in the research, told this news organization that it is “very difficult to connect the lack of brain connectivity to the patient symptomatology because there is a huge gap between them.”

The problem is that, despite “lots of evidence” that they are effective, “we currently don’t know how antidepressant therapies work” in terms of their underlying mechanisms of action, he said.

“We think that these types of therapies all modulate the plasticity of the brain,” said Dr. Ruhe. “What this study showed is there are changes that you can detect even in 6 weeks,” although they may have been observed even sooner with a shorter follow-up.

He noted that big questions are whether the change is specific to the treatment given, and “can you modulate different brain network dysfunctions with different treatments?”

Moreover, he wondered if a brain scan could indicate which type of treatment should be used. “This is, of course, very new and very challenging, and we don’t know yet, but we should be pursuing this,” Dr. Ruhe said.

Another question is whether or not the brain connectivity changes shown in the study represent a persistent change – “and whether this is a persistent change that is associated with a consistent and persistent relief of depression.

“Again, this is something that needs to be followed up,” said Dr. Ruhe.

No funding was declared. The study authors and Dr. Ruhe report no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Researchers have identified a set of 42 genes that are associated with dyslexia, based on data from approximately 50,000 dyslexic individuals and 1 million controls.

Dyslexia occurs in 5%-17% of the general population, depending on the diagnostic criteria, and has been linked with speech and language disorders, as well as ADHD, Catherine Doust, PhD, of the University of Edinburgh and colleagues wrote.

However, previous studies of the genetics of dyslexia are limited, corresponding author Michelle Luciano, PhD, said in an interview. “So much progress has been made in understanding the genetics of behavior and health, but only a small genomewide study of dyslexia existed before ours.”

Currently, genetic testing for dyslexia alone is not done.

“You couldn’t order a genetic test for dyslexia unless it were part of another genetic panel,” according to Herschel Lessin, MD, of Children’s Medical Group, Poughkeepsie, N.Y.

There are also known associations with some genes and autism, but none are definitive, and testing requires a workup of which a genetic panel may be a part. Such tests are expensive, and rarely covered by insurance, the pediatrician explained. 

Experts recommend genetic screening for every child with developmental delay, but most insurance won’t cover it, Dr. Lessin continued.

In the new genomewide association study published in Nature Genetics, the researchers reviewed data from 51,800 adults aged 18 years and older with a self-reported dyslexia diagnosis and 1,087,070 controls. All study participants are enrolled in ongoing research with 23andMe, the personal genetics company.

The researchers investigated the genetic correlations with reading and related skills and evaluated evidence for genes previously associated with dyslexia. The mean ages of the dyslexia cases and controls were 49.6 years and 51.7 years, respectively.

The researchers identified 42 independent genetic variants (genomewide significant loci) associated with dyslexia; 15 of these loci were in genes previously associated with cognitive ability and educational attainment, and 27 were newly identified as specifically associated with dyslexia. The researchers further determined that 12 of the newly identified genes were associated with proficiency in reading and spelling in English and European languages, and 1 in a Chinese-language population.

A polygenic risk score is a way to characterize an individual’s risk of developing a disease, based on the total number of genetic changes related to the disease; the researchers used this score to validate their results. Dyslexia polygenic scores were used to predict reading and spelling in additional population-based and reading disorder–enriched samples outside of the study population; these genetic measures explained up to 6% of variance in reading traits, the researchers noted. Ultimately, these scores may be a tool to help identify children with a predisposition for dyslexia so reading skills support can begin early.

The researchers also found that many of the genes associated with dyslexia are also associated with ADHD, (24% of dyslexia patients reporting ADHD vs. 9% of controls), and with a moderate correlation, which suggests possible shared genetic components for deficits in working memory and attention.

The study findings were limited by the inability to prove causality, and by the potential bias in the study sample, but were strengthened by the large study population, the researchers noted.
 

Potential implications for reading and spelling

“We were surprised that none of the previous dyslexia candidate genes were genomewide significant in our study; all of our discoveries were in new genes that had not been previously implicated in dyslexia,” Dr. Luciano said in an interview. “Some of these genes have been found to be associated with general cognitive ability, but most were novel and may represent genes specifically related to cognitive processes dominant in reading and spelling.

“We were also surprised that there was little genetic correlation (or overlap) with brain MRI variables, given that brain regions have been linked to reading skill. This suggests that the link is environmental in origin,” she added.

“Our results do not directly feed into clinical practice,” said Dr. Luciano. However, “the moderate genetic overlap with ADHD suggests that broader assessments of behavior are important when a child presents with dyslexia, as co-occurrence with other conditions might influence the intervention chosen. Asking about family history of dyslexia might also help in identification.

With more research, genetic studies may find a place in the clinical setting, said Dr. Luciano.  

“As genomewide association studies become larger and the findings more stable, genetic information might be used as an adjunct to what is known about the child’s environment and their performance on standardized tests of reading. The key advantage of genetic information is that it could allow much earlier identification of children who would benefit from extra learning support,” she said.

More research is needed to understand the interaction between genes and the environment, Dr. Luciano said. “It is essential that we understand what environmental learning support can minimize genetic predisposition to dyslexia.”
 

Too soon for clinical utility

The study findings are an important foundation for additional research, but not yet clinically useful, Dr. Lessin said in an interview.

“Dyslexia is a tough diagnosis,” that requires assessment by a developmental pediatrician or a pediatric neurologist and these specialists are often not accessible to many parents, Dr. Lessin noted.

In the current study, the researchers found a number of genes potentially associated with dyslexia, but the study does not prove causality, he emphasized. The findings simply mean that some of these genes may have something to do with dyslexia, and further research might identify a genetic cause.

“No one is going to make a diagnosis of dyslexia based on genes just yet,” said Dr. Lessin. In the meantime, clinicians should be aware that good research is being conducted, and that the genetic foundations for dyslexia are being explored.

Lead author Dr. Doust and corresponding author Dr. Luciano had no financial conflicts to disclose. Several coauthors disclosed support from the Max Planck Society (Germany), the National Natural Science Foundation of China, Funds for Humanities and Social Sciences Research of the Ministry of Education, and General Project of Shaanxi Natural Science Basic Research Program. Two coauthors are employed by and hold stock or stock options in 23andMe. Dr. Lessin had no financial conflicts to disclose, but serves on the editorial advisory board of Pediatric News.

Researchers have identified a set of 42 genes that are associated with dyslexia, based on data from approximately 50,000 dyslexic individuals and 1 million controls.

Dyslexia occurs in 5%-17% of the general population, depending on the diagnostic criteria, and has been linked with speech and language disorders, as well as ADHD, Catherine Doust, PhD, of the University of Edinburgh and colleagues wrote.

However, previous studies of the genetics of dyslexia are limited, corresponding author Michelle Luciano, PhD, said in an interview. “So much progress has been made in understanding the genetics of behavior and health, but only a small genomewide study of dyslexia existed before ours.”

Currently, genetic testing for dyslexia alone is not done.

“You couldn’t order a genetic test for dyslexia unless it were part of another genetic panel,” according to Herschel Lessin, MD, of Children’s Medical Group, Poughkeepsie, N.Y.

There are also known associations with some genes and autism, but none are definitive, and testing requires a workup of which a genetic panel may be a part. Such tests are expensive, and rarely covered by insurance, the pediatrician explained. 

Experts recommend genetic screening for every child with developmental delay, but most insurance won’t cover it, Dr. Lessin continued.

In the new genomewide association study published in Nature Genetics, the researchers reviewed data from 51,800 adults aged 18 years and older with a self-reported dyslexia diagnosis and 1,087,070 controls. All study participants are enrolled in ongoing research with 23andMe, the personal genetics company.

The researchers investigated the genetic correlations with reading and related skills and evaluated evidence for genes previously associated with dyslexia. The mean ages of the dyslexia cases and controls were 49.6 years and 51.7 years, respectively.

The researchers identified 42 independent genetic variants (genomewide significant loci) associated with dyslexia; 15 of these loci were in genes previously associated with cognitive ability and educational attainment, and 27 were newly identified as specifically associated with dyslexia. The researchers further determined that 12 of the newly identified genes were associated with proficiency in reading and spelling in English and European languages, and 1 in a Chinese-language population.

A polygenic risk score is a way to characterize an individual’s risk of developing a disease, based on the total number of genetic changes related to the disease; the researchers used this score to validate their results. Dyslexia polygenic scores were used to predict reading and spelling in additional population-based and reading disorder–enriched samples outside of the study population; these genetic measures explained up to 6% of variance in reading traits, the researchers noted. Ultimately, these scores may be a tool to help identify children with a predisposition for dyslexia so reading skills support can begin early.

The researchers also found that many of the genes associated with dyslexia are also associated with ADHD, (24% of dyslexia patients reporting ADHD vs. 9% of controls), and with a moderate correlation, which suggests possible shared genetic components for deficits in working memory and attention.

The study findings were limited by the inability to prove causality, and by the potential bias in the study sample, but were strengthened by the large study population, the researchers noted.
 

Potential implications for reading and spelling

“We were surprised that none of the previous dyslexia candidate genes were genomewide significant in our study; all of our discoveries were in new genes that had not been previously implicated in dyslexia,” Dr. Luciano said in an interview. “Some of these genes have been found to be associated with general cognitive ability, but most were novel and may represent genes specifically related to cognitive processes dominant in reading and spelling.

“We were also surprised that there was little genetic correlation (or overlap) with brain MRI variables, given that brain regions have been linked to reading skill. This suggests that the link is environmental in origin,” she added.

“Our results do not directly feed into clinical practice,” said Dr. Luciano. However, “the moderate genetic overlap with ADHD suggests that broader assessments of behavior are important when a child presents with dyslexia, as co-occurrence with other conditions might influence the intervention chosen. Asking about family history of dyslexia might also help in identification.

With more research, genetic studies may find a place in the clinical setting, said Dr. Luciano.  

“As genomewide association studies become larger and the findings more stable, genetic information might be used as an adjunct to what is known about the child’s environment and their performance on standardized tests of reading. The key advantage of genetic information is that it could allow much earlier identification of children who would benefit from extra learning support,” she said.

More research is needed to understand the interaction between genes and the environment, Dr. Luciano said. “It is essential that we understand what environmental learning support can minimize genetic predisposition to dyslexia.”
 

Too soon for clinical utility

The study findings are an important foundation for additional research, but not yet clinically useful, Dr. Lessin said in an interview.

“Dyslexia is a tough diagnosis,” that requires assessment by a developmental pediatrician or a pediatric neurologist and these specialists are often not accessible to many parents, Dr. Lessin noted.

In the current study, the researchers found a number of genes potentially associated with dyslexia, but the study does not prove causality, he emphasized. The findings simply mean that some of these genes may have something to do with dyslexia, and further research might identify a genetic cause.

“No one is going to make a diagnosis of dyslexia based on genes just yet,” said Dr. Lessin. In the meantime, clinicians should be aware that good research is being conducted, and that the genetic foundations for dyslexia are being explored.

Lead author Dr. Doust and corresponding author Dr. Luciano had no financial conflicts to disclose. Several coauthors disclosed support from the Max Planck Society (Germany), the National Natural Science Foundation of China, Funds for Humanities and Social Sciences Research of the Ministry of Education, and General Project of Shaanxi Natural Science Basic Research Program. Two coauthors are employed by and hold stock or stock options in 23andMe. Dr. Lessin had no financial conflicts to disclose, but serves on the editorial advisory board of Pediatric News.

Researchers have identified a set of 42 genes that are associated with dyslexia, based on data from approximately 50,000 dyslexic individuals and 1 million controls.

Dyslexia occurs in 5%-17% of the general population, depending on the diagnostic criteria, and has been linked with speech and language disorders, as well as ADHD, Catherine Doust, PhD, of the University of Edinburgh and colleagues wrote.

However, previous studies of the genetics of dyslexia are limited, corresponding author Michelle Luciano, PhD, said in an interview. “So much progress has been made in understanding the genetics of behavior and health, but only a small genomewide study of dyslexia existed before ours.”

Currently, genetic testing for dyslexia alone is not done.

“You couldn’t order a genetic test for dyslexia unless it were part of another genetic panel,” according to Herschel Lessin, MD, of Children’s Medical Group, Poughkeepsie, N.Y.

There are also known associations with some genes and autism, but none are definitive, and testing requires a workup of which a genetic panel may be a part. Such tests are expensive, and rarely covered by insurance, the pediatrician explained. 

Experts recommend genetic screening for every child with developmental delay, but most insurance won’t cover it, Dr. Lessin continued.

In the new genomewide association study published in Nature Genetics, the researchers reviewed data from 51,800 adults aged 18 years and older with a self-reported dyslexia diagnosis and 1,087,070 controls. All study participants are enrolled in ongoing research with 23andMe, the personal genetics company.

The researchers investigated the genetic correlations with reading and related skills and evaluated evidence for genes previously associated with dyslexia. The mean ages of the dyslexia cases and controls were 49.6 years and 51.7 years, respectively.

The researchers identified 42 independent genetic variants (genomewide significant loci) associated with dyslexia; 15 of these loci were in genes previously associated with cognitive ability and educational attainment, and 27 were newly identified as specifically associated with dyslexia. The researchers further determined that 12 of the newly identified genes were associated with proficiency in reading and spelling in English and European languages, and 1 in a Chinese-language population.

A polygenic risk score is a way to characterize an individual’s risk of developing a disease, based on the total number of genetic changes related to the disease; the researchers used this score to validate their results. Dyslexia polygenic scores were used to predict reading and spelling in additional population-based and reading disorder–enriched samples outside of the study population; these genetic measures explained up to 6% of variance in reading traits, the researchers noted. Ultimately, these scores may be a tool to help identify children with a predisposition for dyslexia so reading skills support can begin early.

The researchers also found that many of the genes associated with dyslexia are also associated with ADHD, (24% of dyslexia patients reporting ADHD vs. 9% of controls), and with a moderate correlation, which suggests possible shared genetic components for deficits in working memory and attention.

The study findings were limited by the inability to prove causality, and by the potential bias in the study sample, but were strengthened by the large study population, the researchers noted.
 

Potential implications for reading and spelling

“We were surprised that none of the previous dyslexia candidate genes were genomewide significant in our study; all of our discoveries were in new genes that had not been previously implicated in dyslexia,” Dr. Luciano said in an interview. “Some of these genes have been found to be associated with general cognitive ability, but most were novel and may represent genes specifically related to cognitive processes dominant in reading and spelling.

“We were also surprised that there was little genetic correlation (or overlap) with brain MRI variables, given that brain regions have been linked to reading skill. This suggests that the link is environmental in origin,” she added.

“Our results do not directly feed into clinical practice,” said Dr. Luciano. However, “the moderate genetic overlap with ADHD suggests that broader assessments of behavior are important when a child presents with dyslexia, as co-occurrence with other conditions might influence the intervention chosen. Asking about family history of dyslexia might also help in identification.

With more research, genetic studies may find a place in the clinical setting, said Dr. Luciano.  

“As genomewide association studies become larger and the findings more stable, genetic information might be used as an adjunct to what is known about the child’s environment and their performance on standardized tests of reading. The key advantage of genetic information is that it could allow much earlier identification of children who would benefit from extra learning support,” she said.

More research is needed to understand the interaction between genes and the environment, Dr. Luciano said. “It is essential that we understand what environmental learning support can minimize genetic predisposition to dyslexia.”
 

Too soon for clinical utility

The study findings are an important foundation for additional research, but not yet clinically useful, Dr. Lessin said in an interview.

“Dyslexia is a tough diagnosis,” that requires assessment by a developmental pediatrician or a pediatric neurologist and these specialists are often not accessible to many parents, Dr. Lessin noted.

In the current study, the researchers found a number of genes potentially associated with dyslexia, but the study does not prove causality, he emphasized. The findings simply mean that some of these genes may have something to do with dyslexia, and further research might identify a genetic cause.

“No one is going to make a diagnosis of dyslexia based on genes just yet,” said Dr. Lessin. In the meantime, clinicians should be aware that good research is being conducted, and that the genetic foundations for dyslexia are being explored.

Lead author Dr. Doust and corresponding author Dr. Luciano had no financial conflicts to disclose. Several coauthors disclosed support from the Max Planck Society (Germany), the National Natural Science Foundation of China, Funds for Humanities and Social Sciences Research of the Ministry of Education, and General Project of Shaanxi Natural Science Basic Research Program. Two coauthors are employed by and hold stock or stock options in 23andMe. Dr. Lessin had no financial conflicts to disclose, but serves on the editorial advisory board of Pediatric News.

Dementia and mild cognitive impairment (MCI) disproportionately affect Black and Hispanic individuals, as well as people with less education, based on new U.S. data from The Health and Retirement Study (HRS).

These inequities likely stem from structural racism and income inequality, necessitating a multifaceted response at an institutional level, according to lead author Jennifer J. Manly, PhD, a professor of neuropsychology in neurology at the Gertrude H. Sergievsky Center and the Taub Institute for Research in Aging and Alzheimer’s Disease at Columbia University, New York.
 

A more representative dataset

Between 2001 and 2003, a subset of HRS participants underwent extensive neuropsychological assessment in the Aging, Demographics, and Memory Study (ADAMS), providing data which have since been cited by hundreds of published studies, the investigators wrote in JAMA Neurology. Those data, however, failed to accurately represent the U.S. population at the time, and have not been updated since.

“The ADAMS substudy was small, and the limited inclusion of Black, Hispanic, and American Indian or Alaska Native participants contributed to lack of precision of estimates among minoritized racial and ethnic groups that have been shown to experience a higher burden of cognitive impairment and dementia,” Dr. Manly and colleagues wrote.

The present analysis used a more representative dataset from HRS participants who were 65 years or older in 2016. From June 2016 to October 2017, 3,496 of these individuals underwent comprehensive neuropsychological test battery and informant interview, with dementia and MCI classified based on standard diagnostic criteria.

In total, 393 people were classified with dementia (10%), while 804 had MCI (22%), both of which approximate estimates reported by previous studies, according to the investigators. In further alignment with past research, age was a clear risk factor; each 5-year increment added 17% and 95% increased risk of MCI and dementia, respectively.

Compared with college-educated participants, individuals who did not graduate from high school had a 60% increased risk for both dementia (odds ratio, 1.6; 95% confidence interval, 1.1-2.3) and MCI (OR, 1.6; 95% CI, 1.2-2.2). Other educational strata were not associated with significant differences in risk.

Compared with White participants, Black individuals had an 80% increased risk of dementia (OR, 1.8; 95% CI, 1.2-2.7), but no increased risk of MCI. Conversely, non-White Hispanic individuals had a 40% increased risk of MCI (OR, 1.4; 95% CI, 1.0-2.0), but no increased risk of dementia, compared with White participants.

“Older adults racialized as Black and Hispanic are more likely to develop cognitive impairment and dementia because of historical and current structural racism and income inequality that restrict access to brain-health benefits and increase exposure to harm,” Dr. Manly said in a written comment.

These inequities deserve a comprehensive response, she added.

“Actions and policies that decrease discriminatory and aggressive policing policies, invest in schools that serve children that are racialized as Black and Hispanic, repair housing and economic inequalities, and provide equitable access to mental and physical health, can help to narrow disparities in later life cognitive impairment,” Dr. Manly said. “Two other areas of focus for policy makers are the shortage in the workforce of dementia care specialists, and paid family leave for caregiving.”
 

Acknowledging the needs of the historically underrepresented

Lealani Mae Acosta, MD, MPH, associate professor of neurology at Vanderbilt University Medical Center, Nashville, Tenn., applauded the investigators for their “conscious effort to expand representation of historically underrepresented minorities.”

The findings themselves support what has been previously reported, Dr. Acosta said in an interview, including the disproportionate burden of cognitive disorders among people of color and those with less education.

Clinicians need to recognize that certain patient groups face increased risks of cognitive disorders, and should be screened accordingly, Dr. Acosta said, noting that all aging patients should undergo such screening. The push for screening should also occur on a community level, along with efforts to build trust between at-risk populations and health care providers.

While Dr. Acosta reiterated the importance of these new data from Black and Hispanic individuals, she noted that gaps in representation remain, and methods of characterizing populations deserve refinement.

“I’m a little bit biased because I’m an Asian physician,” Dr. Acosta said. “As much as I’m glad that they’re highlighting these different disparities, there weren’t enough [participants in] specific subgroups like American Indian or Alaska Native, Asian, Native Hawaiian or Pacific Islander, to be able to identify specific trends within [those groups] that are, again, historically underrepresented patient populations.”

Grouping all people of Asian descent may also be an oversimplification, she added, as differences may exist between individuals originating from different countries.

“We always have to be careful about lumping certain groups together in analyses,” Dr. Acosta said. “That’s just another reminder to us – as clinicians, as researchers – that we need to do better by our patients by expanding research opportunities, and really studying these historically underrepresented populations.”

The study was supported by the National Institute on Aging. The investigators disclosed additional relationships with the Alzheimer’s Association and the National Institutes of Health. Dr. Acosta reported no relevant competing interests.

Dementia and mild cognitive impairment (MCI) disproportionately affect Black and Hispanic individuals, as well as people with less education, based on new U.S. data from The Health and Retirement Study (HRS).

These inequities likely stem from structural racism and income inequality, necessitating a multifaceted response at an institutional level, according to lead author Jennifer J. Manly, PhD, a professor of neuropsychology in neurology at the Gertrude H. Sergievsky Center and the Taub Institute for Research in Aging and Alzheimer’s Disease at Columbia University, New York.
 

A more representative dataset

Between 2001 and 2003, a subset of HRS participants underwent extensive neuropsychological assessment in the Aging, Demographics, and Memory Study (ADAMS), providing data which have since been cited by hundreds of published studies, the investigators wrote in JAMA Neurology. Those data, however, failed to accurately represent the U.S. population at the time, and have not been updated since.

“The ADAMS substudy was small, and the limited inclusion of Black, Hispanic, and American Indian or Alaska Native participants contributed to lack of precision of estimates among minoritized racial and ethnic groups that have been shown to experience a higher burden of cognitive impairment and dementia,” Dr. Manly and colleagues wrote.

The present analysis used a more representative dataset from HRS participants who were 65 years or older in 2016. From June 2016 to October 2017, 3,496 of these individuals underwent comprehensive neuropsychological test battery and informant interview, with dementia and MCI classified based on standard diagnostic criteria.

In total, 393 people were classified with dementia (10%), while 804 had MCI (22%), both of which approximate estimates reported by previous studies, according to the investigators. In further alignment with past research, age was a clear risk factor; each 5-year increment added 17% and 95% increased risk of MCI and dementia, respectively.

Compared with college-educated participants, individuals who did not graduate from high school had a 60% increased risk for both dementia (odds ratio, 1.6; 95% confidence interval, 1.1-2.3) and MCI (OR, 1.6; 95% CI, 1.2-2.2). Other educational strata were not associated with significant differences in risk.

Compared with White participants, Black individuals had an 80% increased risk of dementia (OR, 1.8; 95% CI, 1.2-2.7), but no increased risk of MCI. Conversely, non-White Hispanic individuals had a 40% increased risk of MCI (OR, 1.4; 95% CI, 1.0-2.0), but no increased risk of dementia, compared with White participants.

“Older adults racialized as Black and Hispanic are more likely to develop cognitive impairment and dementia because of historical and current structural racism and income inequality that restrict access to brain-health benefits and increase exposure to harm,” Dr. Manly said in a written comment.

These inequities deserve a comprehensive response, she added.

“Actions and policies that decrease discriminatory and aggressive policing policies, invest in schools that serve children that are racialized as Black and Hispanic, repair housing and economic inequalities, and provide equitable access to mental and physical health, can help to narrow disparities in later life cognitive impairment,” Dr. Manly said. “Two other areas of focus for policy makers are the shortage in the workforce of dementia care specialists, and paid family leave for caregiving.”
 

Acknowledging the needs of the historically underrepresented

Lealani Mae Acosta, MD, MPH, associate professor of neurology at Vanderbilt University Medical Center, Nashville, Tenn., applauded the investigators for their “conscious effort to expand representation of historically underrepresented minorities.”

The findings themselves support what has been previously reported, Dr. Acosta said in an interview, including the disproportionate burden of cognitive disorders among people of color and those with less education.

Clinicians need to recognize that certain patient groups face increased risks of cognitive disorders, and should be screened accordingly, Dr. Acosta said, noting that all aging patients should undergo such screening. The push for screening should also occur on a community level, along with efforts to build trust between at-risk populations and health care providers.

While Dr. Acosta reiterated the importance of these new data from Black and Hispanic individuals, she noted that gaps in representation remain, and methods of characterizing populations deserve refinement.

“I’m a little bit biased because I’m an Asian physician,” Dr. Acosta said. “As much as I’m glad that they’re highlighting these different disparities, there weren’t enough [participants in] specific subgroups like American Indian or Alaska Native, Asian, Native Hawaiian or Pacific Islander, to be able to identify specific trends within [those groups] that are, again, historically underrepresented patient populations.”

Grouping all people of Asian descent may also be an oversimplification, she added, as differences may exist between individuals originating from different countries.

“We always have to be careful about lumping certain groups together in analyses,” Dr. Acosta said. “That’s just another reminder to us – as clinicians, as researchers – that we need to do better by our patients by expanding research opportunities, and really studying these historically underrepresented populations.”

The study was supported by the National Institute on Aging. The investigators disclosed additional relationships with the Alzheimer’s Association and the National Institutes of Health. Dr. Acosta reported no relevant competing interests.

Dementia and mild cognitive impairment (MCI) disproportionately affect Black and Hispanic individuals, as well as people with less education, based on new U.S. data from The Health and Retirement Study (HRS).

These inequities likely stem from structural racism and income inequality, necessitating a multifaceted response at an institutional level, according to lead author Jennifer J. Manly, PhD, a professor of neuropsychology in neurology at the Gertrude H. Sergievsky Center and the Taub Institute for Research in Aging and Alzheimer’s Disease at Columbia University, New York.
 

A more representative dataset

Between 2001 and 2003, a subset of HRS participants underwent extensive neuropsychological assessment in the Aging, Demographics, and Memory Study (ADAMS), providing data which have since been cited by hundreds of published studies, the investigators wrote in JAMA Neurology. Those data, however, failed to accurately represent the U.S. population at the time, and have not been updated since.

“The ADAMS substudy was small, and the limited inclusion of Black, Hispanic, and American Indian or Alaska Native participants contributed to lack of precision of estimates among minoritized racial and ethnic groups that have been shown to experience a higher burden of cognitive impairment and dementia,” Dr. Manly and colleagues wrote.

The present analysis used a more representative dataset from HRS participants who were 65 years or older in 2016. From June 2016 to October 2017, 3,496 of these individuals underwent comprehensive neuropsychological test battery and informant interview, with dementia and MCI classified based on standard diagnostic criteria.

In total, 393 people were classified with dementia (10%), while 804 had MCI (22%), both of which approximate estimates reported by previous studies, according to the investigators. In further alignment with past research, age was a clear risk factor; each 5-year increment added 17% and 95% increased risk of MCI and dementia, respectively.

Compared with college-educated participants, individuals who did not graduate from high school had a 60% increased risk for both dementia (odds ratio, 1.6; 95% confidence interval, 1.1-2.3) and MCI (OR, 1.6; 95% CI, 1.2-2.2). Other educational strata were not associated with significant differences in risk.

Compared with White participants, Black individuals had an 80% increased risk of dementia (OR, 1.8; 95% CI, 1.2-2.7), but no increased risk of MCI. Conversely, non-White Hispanic individuals had a 40% increased risk of MCI (OR, 1.4; 95% CI, 1.0-2.0), but no increased risk of dementia, compared with White participants.

“Older adults racialized as Black and Hispanic are more likely to develop cognitive impairment and dementia because of historical and current structural racism and income inequality that restrict access to brain-health benefits and increase exposure to harm,” Dr. Manly said in a written comment.

These inequities deserve a comprehensive response, she added.

“Actions and policies that decrease discriminatory and aggressive policing policies, invest in schools that serve children that are racialized as Black and Hispanic, repair housing and economic inequalities, and provide equitable access to mental and physical health, can help to narrow disparities in later life cognitive impairment,” Dr. Manly said. “Two other areas of focus for policy makers are the shortage in the workforce of dementia care specialists, and paid family leave for caregiving.”
 

Acknowledging the needs of the historically underrepresented

Lealani Mae Acosta, MD, MPH, associate professor of neurology at Vanderbilt University Medical Center, Nashville, Tenn., applauded the investigators for their “conscious effort to expand representation of historically underrepresented minorities.”

The findings themselves support what has been previously reported, Dr. Acosta said in an interview, including the disproportionate burden of cognitive disorders among people of color and those with less education.

Clinicians need to recognize that certain patient groups face increased risks of cognitive disorders, and should be screened accordingly, Dr. Acosta said, noting that all aging patients should undergo such screening. The push for screening should also occur on a community level, along with efforts to build trust between at-risk populations and health care providers.

While Dr. Acosta reiterated the importance of these new data from Black and Hispanic individuals, she noted that gaps in representation remain, and methods of characterizing populations deserve refinement.

“I’m a little bit biased because I’m an Asian physician,” Dr. Acosta said. “As much as I’m glad that they’re highlighting these different disparities, there weren’t enough [participants in] specific subgroups like American Indian or Alaska Native, Asian, Native Hawaiian or Pacific Islander, to be able to identify specific trends within [those groups] that are, again, historically underrepresented patient populations.”

Grouping all people of Asian descent may also be an oversimplification, she added, as differences may exist between individuals originating from different countries.

“We always have to be careful about lumping certain groups together in analyses,” Dr. Acosta said. “That’s just another reminder to us – as clinicians, as researchers – that we need to do better by our patients by expanding research opportunities, and really studying these historically underrepresented populations.”

The study was supported by the National Institute on Aging. The investigators disclosed additional relationships with the Alzheimer’s Association and the National Institutes of Health. Dr. Acosta reported no relevant competing interests.

Renal function should be considered when determining whether to pick ticagrelor-aspirin or clopidogrel-aspirin as the antiplatelet therapy for patients with minor stroke, according to new research.

The study, which was conducted in 202 centers in China and published in Annals of Internal Medicine, indicates that when patients had normal kidney function, ticagrelor-aspirin, compared with clopidogrel-aspirin, substantially reduced the risk for recurrent stroke within 90 days of follow-up.

However, this effect was not seen in patients with mildly, moderately or severely decreased kidney function.

Rates of severe or moderate bleeding did not differ substantially between the two treatments.
 

Results gleaned from CHANCE-2 data

The researchers, led by Anxin Wang, PhD, from Capital Medical University in Beijing, conducted a post hoc analysis of the CHANCE-2 (Clopidogrel in High-Risk Patients with Acute Nondisabling Cerebrovascular Events-II) trial.

The trial included 6,378 patients who carried cytochrome P450 2C19 (CYP2C19) loss-of-function (LOF) alleles who had experienced a minor stroke or transient ischemic attack.

Patients received either ticagrelor-aspirin or clopidogrel-aspirin, and their renal function was measured by estimated glomerular filtration rate. The authors listed as a limitation that no data were available on the presence of albuminuria or proteinuria.

The researchers investigated what effect renal function had on the efficacy and safety of the therapies.
 

Differences in the therapies

Clopidogrel-aspirin is often recommended for preventing stroke. It can reduce thrombotic risk in patients with impaired kidney function, the authors noted. Ticagrelor can provide greater, faster, and more consistent P2Y12 inhibition than clopidogrel, and evidence shows it is effective in preventing stroke recurrence, particularly in people carrying CYP2C19 LOF alleles.

When people have reduced kidney function, clopidogrel may be harder to clear than ticagrelor and there may be increased plasma concentrations, so function is important to consider when choosing an antiplatelet therapy, the authors wrote.
 

Choice may come down to cost

Geoffrey Barnes, MD, MSc, associate professor of vascular and cardiovascular medicine at University of Michigan Medicine in Ann Arbor, said in an interview that there has been momentum toward ticagrelor as a more potent choice than clopidogrel not just in populations with minor stroke but for people with MI and coronary stents.

He said he found the results surprising and was intrigued that this paper suggests looking more skeptically at ticagrelor when kidney function is impaired.

Still, the choice may also come down to what the patient can afford at the pharmacy, he said.

“The reality is many patients still get clopidogrel either because that’s what their physicians have been prescribing for well over a decade or because of cost issues, and clopidogrel, for many patients, can be less expensive,” Dr. Barnes noted.

He said he would like to see more study in different populations as the prevalence of people carrying CYP2C19 allele differs by race and results might be different in a non-Asian population. That allele is thought to affect how clopidogrel is metabolized.
 

Study should spur more research

Nada El Husseini, MD, associate professor of neurology and Duke Telestroke Medical Director at Duke University Medical Center, Durham, N.C., said the study is hypothesis generating, but shouldn’t be thought of as the last word on the subject.

She pointed out some additional limitations of the study, including that it was a post hoc analysis. She explained that the question researchers asked in this study – about effect of kidney function on the safety and efficacy of the therapies – was not the focus of the original CHANCE-2 study, and, as such, the post hoc study may have been underpowered to answer the renal function question.

The authors acknowledged that limitation, noting that “the proportion of patients with severely decreased renal function was low.”

Among 6,378 patients, 4,050 (63.5%) had normal kidney function, 2,010 (31.5%) had mildly decreased function, and 318 (5.0%) had moderately to severely decreased function.

The study was funded by the Ministry of Science and Technology of the People’s Republic of China, the Beijing Municipal Science and Technology Commission, the Chinese Stroke Association, the National Science and Technology Major Project and the Beijing Municipal Administration of Hospitals Incubating Program). Salubris Pharmaceuticals contributed ticagrelor and, clopidogrel at no cost and with no restrictions. Dr. Wang reported no relevant financial relationships. Dr. Barnes and Dr. El Husseini reported no relevant financial relationships.

Renal function should be considered when determining whether to pick ticagrelor-aspirin or clopidogrel-aspirin as the antiplatelet therapy for patients with minor stroke, according to new research.

The study, which was conducted in 202 centers in China and published in Annals of Internal Medicine, indicates that when patients had normal kidney function, ticagrelor-aspirin, compared with clopidogrel-aspirin, substantially reduced the risk for recurrent stroke within 90 days of follow-up.

However, this effect was not seen in patients with mildly, moderately or severely decreased kidney function.

Rates of severe or moderate bleeding did not differ substantially between the two treatments.
 

Results gleaned from CHANCE-2 data

The researchers, led by Anxin Wang, PhD, from Capital Medical University in Beijing, conducted a post hoc analysis of the CHANCE-2 (Clopidogrel in High-Risk Patients with Acute Nondisabling Cerebrovascular Events-II) trial.

The trial included 6,378 patients who carried cytochrome P450 2C19 (CYP2C19) loss-of-function (LOF) alleles who had experienced a minor stroke or transient ischemic attack.

Patients received either ticagrelor-aspirin or clopidogrel-aspirin, and their renal function was measured by estimated glomerular filtration rate. The authors listed as a limitation that no data were available on the presence of albuminuria or proteinuria.

The researchers investigated what effect renal function had on the efficacy and safety of the therapies.
 

Differences in the therapies

Clopidogrel-aspirin is often recommended for preventing stroke. It can reduce thrombotic risk in patients with impaired kidney function, the authors noted. Ticagrelor can provide greater, faster, and more consistent P2Y12 inhibition than clopidogrel, and evidence shows it is effective in preventing stroke recurrence, particularly in people carrying CYP2C19 LOF alleles.

When people have reduced kidney function, clopidogrel may be harder to clear than ticagrelor and there may be increased plasma concentrations, so function is important to consider when choosing an antiplatelet therapy, the authors wrote.
 

Choice may come down to cost

Geoffrey Barnes, MD, MSc, associate professor of vascular and cardiovascular medicine at University of Michigan Medicine in Ann Arbor, said in an interview that there has been momentum toward ticagrelor as a more potent choice than clopidogrel not just in populations with minor stroke but for people with MI and coronary stents.

He said he found the results surprising and was intrigued that this paper suggests looking more skeptically at ticagrelor when kidney function is impaired.

Still, the choice may also come down to what the patient can afford at the pharmacy, he said.

“The reality is many patients still get clopidogrel either because that’s what their physicians have been prescribing for well over a decade or because of cost issues, and clopidogrel, for many patients, can be less expensive,” Dr. Barnes noted.

He said he would like to see more study in different populations as the prevalence of people carrying CYP2C19 allele differs by race and results might be different in a non-Asian population. That allele is thought to affect how clopidogrel is metabolized.
 

Study should spur more research

Nada El Husseini, MD, associate professor of neurology and Duke Telestroke Medical Director at Duke University Medical Center, Durham, N.C., said the study is hypothesis generating, but shouldn’t be thought of as the last word on the subject.

She pointed out some additional limitations of the study, including that it was a post hoc analysis. She explained that the question researchers asked in this study – about effect of kidney function on the safety and efficacy of the therapies – was not the focus of the original CHANCE-2 study, and, as such, the post hoc study may have been underpowered to answer the renal function question.

The authors acknowledged that limitation, noting that “the proportion of patients with severely decreased renal function was low.”

Among 6,378 patients, 4,050 (63.5%) had normal kidney function, 2,010 (31.5%) had mildly decreased function, and 318 (5.0%) had moderately to severely decreased function.

The study was funded by the Ministry of Science and Technology of the People’s Republic of China, the Beijing Municipal Science and Technology Commission, the Chinese Stroke Association, the National Science and Technology Major Project and the Beijing Municipal Administration of Hospitals Incubating Program). Salubris Pharmaceuticals contributed ticagrelor and, clopidogrel at no cost and with no restrictions. Dr. Wang reported no relevant financial relationships. Dr. Barnes and Dr. El Husseini reported no relevant financial relationships.

Renal function should be considered when determining whether to pick ticagrelor-aspirin or clopidogrel-aspirin as the antiplatelet therapy for patients with minor stroke, according to new research.

The study, which was conducted in 202 centers in China and published in Annals of Internal Medicine, indicates that when patients had normal kidney function, ticagrelor-aspirin, compared with clopidogrel-aspirin, substantially reduced the risk for recurrent stroke within 90 days of follow-up.

However, this effect was not seen in patients with mildly, moderately or severely decreased kidney function.

Rates of severe or moderate bleeding did not differ substantially between the two treatments.
 

Results gleaned from CHANCE-2 data

The researchers, led by Anxin Wang, PhD, from Capital Medical University in Beijing, conducted a post hoc analysis of the CHANCE-2 (Clopidogrel in High-Risk Patients with Acute Nondisabling Cerebrovascular Events-II) trial.

The trial included 6,378 patients who carried cytochrome P450 2C19 (CYP2C19) loss-of-function (LOF) alleles who had experienced a minor stroke or transient ischemic attack.

Patients received either ticagrelor-aspirin or clopidogrel-aspirin, and their renal function was measured by estimated glomerular filtration rate. The authors listed as a limitation that no data were available on the presence of albuminuria or proteinuria.

The researchers investigated what effect renal function had on the efficacy and safety of the therapies.
 

Differences in the therapies

Clopidogrel-aspirin is often recommended for preventing stroke. It can reduce thrombotic risk in patients with impaired kidney function, the authors noted. Ticagrelor can provide greater, faster, and more consistent P2Y12 inhibition than clopidogrel, and evidence shows it is effective in preventing stroke recurrence, particularly in people carrying CYP2C19 LOF alleles.

When people have reduced kidney function, clopidogrel may be harder to clear than ticagrelor and there may be increased plasma concentrations, so function is important to consider when choosing an antiplatelet therapy, the authors wrote.
 

Choice may come down to cost

Geoffrey Barnes, MD, MSc, associate professor of vascular and cardiovascular medicine at University of Michigan Medicine in Ann Arbor, said in an interview that there has been momentum toward ticagrelor as a more potent choice than clopidogrel not just in populations with minor stroke but for people with MI and coronary stents.

He said he found the results surprising and was intrigued that this paper suggests looking more skeptically at ticagrelor when kidney function is impaired.

Still, the choice may also come down to what the patient can afford at the pharmacy, he said.

“The reality is many patients still get clopidogrel either because that’s what their physicians have been prescribing for well over a decade or because of cost issues, and clopidogrel, for many patients, can be less expensive,” Dr. Barnes noted.

He said he would like to see more study in different populations as the prevalence of people carrying CYP2C19 allele differs by race and results might be different in a non-Asian population. That allele is thought to affect how clopidogrel is metabolized.
 

Study should spur more research

Nada El Husseini, MD, associate professor of neurology and Duke Telestroke Medical Director at Duke University Medical Center, Durham, N.C., said the study is hypothesis generating, but shouldn’t be thought of as the last word on the subject.

She pointed out some additional limitations of the study, including that it was a post hoc analysis. She explained that the question researchers asked in this study – about effect of kidney function on the safety and efficacy of the therapies – was not the focus of the original CHANCE-2 study, and, as such, the post hoc study may have been underpowered to answer the renal function question.

The authors acknowledged that limitation, noting that “the proportion of patients with severely decreased renal function was low.”

Among 6,378 patients, 4,050 (63.5%) had normal kidney function, 2,010 (31.5%) had mildly decreased function, and 318 (5.0%) had moderately to severely decreased function.

The study was funded by the Ministry of Science and Technology of the People’s Republic of China, the Beijing Municipal Science and Technology Commission, the Chinese Stroke Association, the National Science and Technology Major Project and the Beijing Municipal Administration of Hospitals Incubating Program). Salubris Pharmaceuticals contributed ticagrelor and, clopidogrel at no cost and with no restrictions. Dr. Wang reported no relevant financial relationships. Dr. Barnes and Dr. El Husseini reported no relevant financial relationships.

A large randomized trial that was investigating intensive lowering of blood pressure in acute ischemic stroke patients who had undergone mechanical thrombectomy has been stopped early because of safety concerns.

“Intensive control of systolic blood pressure to lower than 120 mm Hg should be avoided to prevent compromising the functional recovery of patients who have received endovascular thrombectomy for acute ischemic stroke due to intracranial large-vessel occlusion,” the investigators conclude.

Results from the ENCHANTED2/MT trial were presented by Craig Anderson, MD, professor of neurology and epidemiology, University of New South Wales, Sydney, during the 14th World Stroke Congress (WSC) in Singapore.

The study was simultaneously published online in The Lancet.

“What our results have pretty convincingly shown is that in acute stroke patients who have undergone mechanical thrombectomy, lowering blood pressure down to a systolic of 120 mm Hg for 3 days is too low for too long. We shouldn’t go that far down,” Dr. Anderson said in an interview.

Dr. Anderson said the trial has provided an important message for clinical practice.

“This result is not what we expected, but it is a definitive result and gives us a lower safety margin for blood pressure in acute ischemic stroke patients. This, in itself, is a big step forward.”

He noted that the optimum blood pressure for these patients is not known.

“We need to do further trials to determine optimum blood pressure in these acute patients, but perhaps we should be aiming more towards 140 mm Hg,” he suggested.

“But this trial shows us that in patients who have had successful clot retrieval with endovascular treatment for acute ischemic stroke, careful blood pressure management is important to avoid levels becoming too low. We have to make sure we don’t overshoot down to 120 mm Hg or below.”

The chair of the WSC session at which the trial was presented, Jeyaraj Pandian, MD, head of neurology at Christian Medical College, Ludhiana, India, who is the current vice-president of the World Stroke Organization, said: “This is a very important result. It has major practical implications.”

As background, Dr. Anderson explained that elevated blood pressure is very common in patients who have an acute ischemic stroke, and the higher the blood pressure, the higher the chances of having a worse outcome.

“Theoretically, if we can control the blood pressure, we may be able to improve outcomes,” he said.

In 2019, the first ENCHANTED trial reported that controlling blood pressure by a moderate amount – to around 140 mm Hg, which is lower than currently recommended in the guidelines – was linked to a reduction in bleeding complications of thrombolysis and appeared safe, but it did not improve recovery, Dr. Anderson noted.

“This trial was done before mechanical thrombectomy became routinely adopted, and this procedure has now become the standard of care for large-vessel occlusion strokes, but we don’t know what we should do about blood pressure in these patients,” he added.

A smaller French trial has suggested lowering blood pressure to 130 mm Hg, rather than a more liberal 130-180 mm Hg, was safe after successful mechanical thrombectomy, but there was no effect on functional outcome.

“In stroke patients with a large-vessel occlusion, blood pressure is often elevated to very high levels. There are wide ranges of opinions on what to do about this – whether it should be lowered, and by how much,” Dr. Anderson said. “We conducted the current ENCHANTED2/MT trial to look at this issue.”

The trial randomly assigned patients who had undergone successful mechanical clot retrieval and reperfusion but whose blood pressure was still elevated to two groups. In one group, blood pressure was aggressively lowered to less than 120 mm Hg within 1 hour of reperfusion, and blood pressure was kept at this level for 3 days. In the other group, a more liberal approach was used: Blood pressure was kept at 140-180 mm Hg.

The primary endpoint was disability, as measured by the Modified Rankin Scale (mRS) score at 90 days.

The study was started in China with the intention of expanding recruitment internationally. The planned enrollment was more than 2,000 patients.

However, in March of 2022, after 821 patients had been enrolled, the data safety monitoring board (DSMB) recommended that recruitment into the trial be suspended because of a safety signal. All of the patients who had been recruited were from China.

These patients were followed to obtain the 3-month outcome results, after which the DSMB recommended that the trial be stopped because safety was still a problem.

Mean systolic blood pressure was 125 mm Hg at 1 hour and 121 mm Hg at 24 hours in the more intensive-treatment group; it was 143 mm Hg at 1 hour and 139 mm Hg at 24 hours in the less intensive-treatment group, giving an adjusted mean difference over 24 hours of 18 mm Hg.
 

Worse disability scores

Results showed that the patients who underwent the more intensive blood pressure lowering had more disability at 3-month follow-up, with worse scores on a shift analysis of the mRS than those in the less intensive group (common odds ratio, 1.37; 95% confidence interval, 1.07-1.76).

The unfavorable shift in mRS scores in the more intensive group was consistent in adjusted sensitivity analysis, and there was no significant heterogeneity in the treatment effect on the primary outcome across all prespecified subgroups.

The incidence of death or neurologic deterioration at 7 days was higher in the more intensive-treatment group than the less intensive-treatment group (common OR, 1.53), and a between-group difference emerged at 24 hours.

The incidence of death or disability (mRS scores, 3-6) at 90 days was higher among patients in the more intensive-treatment group than the less intensive-treatment group (53% vs. 39%; OR, 1.85; P = .0001).

Among those who survived, more patients in the more intensive-treatment group had major disability (mRS scores, 3-5) at 90 days than did patients in the less intensive-treatment group (43% vs. 28%; OR, 2.07; P = .0001).
 

No difference in ICH or severe hypotension episodes

The incidence of symptomatic intracranial hemorrhage, mortality, and serious adverse events did not significantly differ between the two groups. There were no significant differences in recurrent ischemic stroke events at 90 days, and no episodes of severe hypotension were reported as a serious adverse event.

“Our results show that intensive lowering of blood pressure appears to be associated with worsening physical disability. While there was no difference in mortality rates between the two groups, the lower blood pressure appeared to compromise the ability to recover from the stroke,” Dr. Anderson said.

On the possible mechanism of harm, he suggested that the intensive blood pressure reduction might be interfering with blood flow through the injured part of the brain and impeding the ability to recover from the clot removal procedure.
 

What levels should be aimed for?

Dr. Anderson stressed that it was important to have conducted this trial.

“Current guidelines recommend very conservative level of blood pressure in acute ischemic stroke patients – to below 180 mm Hg. But no lower limit is recommended.

“Most clinicians aim for about the 140 mm Hg mark, but there is a large variation in opinion on what to do,” he said. “Some doctors treat aggressively, believing that lower pressures could be beneficial in preventing bleeding and swelling, and others prefer to keep levels higher. Our results have helped to give some guidance on this.”

Asked what he thought an optimum target would be, Dr. Anderson replied: “For now, I think a target of around 140 mm Hg systolic would be reasonable, and there is no evidence to move below that.”

Yvo Roos, MD, professor of acute neurology at University Medical Center, Amsterdam, a co-author of the ENCHANTED2/MT trial, also commented: “The real importance of these study results is that they show that lowering blood pressure too much is detrimental on outcome. My personal interpretation, looking at the results of this study but also on the previous studies, is that we should aim for a target of 140-150 mm Hg. This is true for patients with recanalization therapy. For patients without any therapy, I would even be more careful in lowering blood pressure and recommend just staying below 180 mm Hg.”

As to whether these results are generalizable to other populations, given that the patients were Chinese, Dr. Anderson noted that Asian people have higher rates of intracranial atherosclerosis and more blood pressure complications in the heart and kidney than White patients. Stroke management patterns also differ.

“These points raise questions about generalizability, and while I think this is an issue for consideration, I do not think it should detract from the clarity of these results,” he commented.

The study is supported by grants from the Shanghai Hospital Development Center, the National Health and Medical Research Council of Australia, the China Stroke Prevention Project, Shanghai Changhai Hospital, the Science and Technology Commission of Shanghai Municipality, Takeda China, Genesis Medtech, and Penumbra. Dr. Anderson has received grants from the National Health and Medical Research Council and Medical Research Futures Fund of Australia, the UK Medical Research Council, Penumbra, and Takeda China.

A version of this article first appeared on Medscape.com.

A large randomized trial that was investigating intensive lowering of blood pressure in acute ischemic stroke patients who had undergone mechanical thrombectomy has been stopped early because of safety concerns.

“Intensive control of systolic blood pressure to lower than 120 mm Hg should be avoided to prevent compromising the functional recovery of patients who have received endovascular thrombectomy for acute ischemic stroke due to intracranial large-vessel occlusion,” the investigators conclude.

Results from the ENCHANTED2/MT trial were presented by Craig Anderson, MD, professor of neurology and epidemiology, University of New South Wales, Sydney, during the 14th World Stroke Congress (WSC) in Singapore.

The study was simultaneously published online in The Lancet.

“What our results have pretty convincingly shown is that in acute stroke patients who have undergone mechanical thrombectomy, lowering blood pressure down to a systolic of 120 mm Hg for 3 days is too low for too long. We shouldn’t go that far down,” Dr. Anderson said in an interview.

Dr. Anderson said the trial has provided an important message for clinical practice.

“This result is not what we expected, but it is a definitive result and gives us a lower safety margin for blood pressure in acute ischemic stroke patients. This, in itself, is a big step forward.”

He noted that the optimum blood pressure for these patients is not known.

“We need to do further trials to determine optimum blood pressure in these acute patients, but perhaps we should be aiming more towards 140 mm Hg,” he suggested.

“But this trial shows us that in patients who have had successful clot retrieval with endovascular treatment for acute ischemic stroke, careful blood pressure management is important to avoid levels becoming too low. We have to make sure we don’t overshoot down to 120 mm Hg or below.”

The chair of the WSC session at which the trial was presented, Jeyaraj Pandian, MD, head of neurology at Christian Medical College, Ludhiana, India, who is the current vice-president of the World Stroke Organization, said: “This is a very important result. It has major practical implications.”

As background, Dr. Anderson explained that elevated blood pressure is very common in patients who have an acute ischemic stroke, and the higher the blood pressure, the higher the chances of having a worse outcome.

“Theoretically, if we can control the blood pressure, we may be able to improve outcomes,” he said.

In 2019, the first ENCHANTED trial reported that controlling blood pressure by a moderate amount – to around 140 mm Hg, which is lower than currently recommended in the guidelines – was linked to a reduction in bleeding complications of thrombolysis and appeared safe, but it did not improve recovery, Dr. Anderson noted.

“This trial was done before mechanical thrombectomy became routinely adopted, and this procedure has now become the standard of care for large-vessel occlusion strokes, but we don’t know what we should do about blood pressure in these patients,” he added.

A smaller French trial has suggested lowering blood pressure to 130 mm Hg, rather than a more liberal 130-180 mm Hg, was safe after successful mechanical thrombectomy, but there was no effect on functional outcome.

“In stroke patients with a large-vessel occlusion, blood pressure is often elevated to very high levels. There are wide ranges of opinions on what to do about this – whether it should be lowered, and by how much,” Dr. Anderson said. “We conducted the current ENCHANTED2/MT trial to look at this issue.”

The trial randomly assigned patients who had undergone successful mechanical clot retrieval and reperfusion but whose blood pressure was still elevated to two groups. In one group, blood pressure was aggressively lowered to less than 120 mm Hg within 1 hour of reperfusion, and blood pressure was kept at this level for 3 days. In the other group, a more liberal approach was used: Blood pressure was kept at 140-180 mm Hg.

The primary endpoint was disability, as measured by the Modified Rankin Scale (mRS) score at 90 days.

The study was started in China with the intention of expanding recruitment internationally. The planned enrollment was more than 2,000 patients.

However, in March of 2022, after 821 patients had been enrolled, the data safety monitoring board (DSMB) recommended that recruitment into the trial be suspended because of a safety signal. All of the patients who had been recruited were from China.

These patients were followed to obtain the 3-month outcome results, after which the DSMB recommended that the trial be stopped because safety was still a problem.

Mean systolic blood pressure was 125 mm Hg at 1 hour and 121 mm Hg at 24 hours in the more intensive-treatment group; it was 143 mm Hg at 1 hour and 139 mm Hg at 24 hours in the less intensive-treatment group, giving an adjusted mean difference over 24 hours of 18 mm Hg.
 

Worse disability scores

Results showed that the patients who underwent the more intensive blood pressure lowering had more disability at 3-month follow-up, with worse scores on a shift analysis of the mRS than those in the less intensive group (common odds ratio, 1.37; 95% confidence interval, 1.07-1.76).

The unfavorable shift in mRS scores in the more intensive group was consistent in adjusted sensitivity analysis, and there was no significant heterogeneity in the treatment effect on the primary outcome across all prespecified subgroups.

The incidence of death or neurologic deterioration at 7 days was higher in the more intensive-treatment group than the less intensive-treatment group (common OR, 1.53), and a between-group difference emerged at 24 hours.

The incidence of death or disability (mRS scores, 3-6) at 90 days was higher among patients in the more intensive-treatment group than the less intensive-treatment group (53% vs. 39%; OR, 1.85; P = .0001).

Among those who survived, more patients in the more intensive-treatment group had major disability (mRS scores, 3-5) at 90 days than did patients in the less intensive-treatment group (43% vs. 28%; OR, 2.07; P = .0001).
 

No difference in ICH or severe hypotension episodes

The incidence of symptomatic intracranial hemorrhage, mortality, and serious adverse events did not significantly differ between the two groups. There were no significant differences in recurrent ischemic stroke events at 90 days, and no episodes of severe hypotension were reported as a serious adverse event.

“Our results show that intensive lowering of blood pressure appears to be associated with worsening physical disability. While there was no difference in mortality rates between the two groups, the lower blood pressure appeared to compromise the ability to recover from the stroke,” Dr. Anderson said.

On the possible mechanism of harm, he suggested that the intensive blood pressure reduction might be interfering with blood flow through the injured part of the brain and impeding the ability to recover from the clot removal procedure.
 

What levels should be aimed for?

Dr. Anderson stressed that it was important to have conducted this trial.

“Current guidelines recommend very conservative level of blood pressure in acute ischemic stroke patients – to below 180 mm Hg. But no lower limit is recommended.

“Most clinicians aim for about the 140 mm Hg mark, but there is a large variation in opinion on what to do,” he said. “Some doctors treat aggressively, believing that lower pressures could be beneficial in preventing bleeding and swelling, and others prefer to keep levels higher. Our results have helped to give some guidance on this.”

Asked what he thought an optimum target would be, Dr. Anderson replied: “For now, I think a target of around 140 mm Hg systolic would be reasonable, and there is no evidence to move below that.”

Yvo Roos, MD, professor of acute neurology at University Medical Center, Amsterdam, a co-author of the ENCHANTED2/MT trial, also commented: “The real importance of these study results is that they show that lowering blood pressure too much is detrimental on outcome. My personal interpretation, looking at the results of this study but also on the previous studies, is that we should aim for a target of 140-150 mm Hg. This is true for patients with recanalization therapy. For patients without any therapy, I would even be more careful in lowering blood pressure and recommend just staying below 180 mm Hg.”

As to whether these results are generalizable to other populations, given that the patients were Chinese, Dr. Anderson noted that Asian people have higher rates of intracranial atherosclerosis and more blood pressure complications in the heart and kidney than White patients. Stroke management patterns also differ.

“These points raise questions about generalizability, and while I think this is an issue for consideration, I do not think it should detract from the clarity of these results,” he commented.

The study is supported by grants from the Shanghai Hospital Development Center, the National Health and Medical Research Council of Australia, the China Stroke Prevention Project, Shanghai Changhai Hospital, the Science and Technology Commission of Shanghai Municipality, Takeda China, Genesis Medtech, and Penumbra. Dr. Anderson has received grants from the National Health and Medical Research Council and Medical Research Futures Fund of Australia, the UK Medical Research Council, Penumbra, and Takeda China.

A version of this article first appeared on Medscape.com.

A large randomized trial that was investigating intensive lowering of blood pressure in acute ischemic stroke patients who had undergone mechanical thrombectomy has been stopped early because of safety concerns.

“Intensive control of systolic blood pressure to lower than 120 mm Hg should be avoided to prevent compromising the functional recovery of patients who have received endovascular thrombectomy for acute ischemic stroke due to intracranial large-vessel occlusion,” the investigators conclude.

Results from the ENCHANTED2/MT trial were presented by Craig Anderson, MD, professor of neurology and epidemiology, University of New South Wales, Sydney, during the 14th World Stroke Congress (WSC) in Singapore.

The study was simultaneously published online in The Lancet.

“What our results have pretty convincingly shown is that in acute stroke patients who have undergone mechanical thrombectomy, lowering blood pressure down to a systolic of 120 mm Hg for 3 days is too low for too long. We shouldn’t go that far down,” Dr. Anderson said in an interview.

Dr. Anderson said the trial has provided an important message for clinical practice.

“This result is not what we expected, but it is a definitive result and gives us a lower safety margin for blood pressure in acute ischemic stroke patients. This, in itself, is a big step forward.”

He noted that the optimum blood pressure for these patients is not known.

“We need to do further trials to determine optimum blood pressure in these acute patients, but perhaps we should be aiming more towards 140 mm Hg,” he suggested.

“But this trial shows us that in patients who have had successful clot retrieval with endovascular treatment for acute ischemic stroke, careful blood pressure management is important to avoid levels becoming too low. We have to make sure we don’t overshoot down to 120 mm Hg or below.”

The chair of the WSC session at which the trial was presented, Jeyaraj Pandian, MD, head of neurology at Christian Medical College, Ludhiana, India, who is the current vice-president of the World Stroke Organization, said: “This is a very important result. It has major practical implications.”

As background, Dr. Anderson explained that elevated blood pressure is very common in patients who have an acute ischemic stroke, and the higher the blood pressure, the higher the chances of having a worse outcome.

“Theoretically, if we can control the blood pressure, we may be able to improve outcomes,” he said.

In 2019, the first ENCHANTED trial reported that controlling blood pressure by a moderate amount – to around 140 mm Hg, which is lower than currently recommended in the guidelines – was linked to a reduction in bleeding complications of thrombolysis and appeared safe, but it did not improve recovery, Dr. Anderson noted.

“This trial was done before mechanical thrombectomy became routinely adopted, and this procedure has now become the standard of care for large-vessel occlusion strokes, but we don’t know what we should do about blood pressure in these patients,” he added.

A smaller French trial has suggested lowering blood pressure to 130 mm Hg, rather than a more liberal 130-180 mm Hg, was safe after successful mechanical thrombectomy, but there was no effect on functional outcome.

“In stroke patients with a large-vessel occlusion, blood pressure is often elevated to very high levels. There are wide ranges of opinions on what to do about this – whether it should be lowered, and by how much,” Dr. Anderson said. “We conducted the current ENCHANTED2/MT trial to look at this issue.”

The trial randomly assigned patients who had undergone successful mechanical clot retrieval and reperfusion but whose blood pressure was still elevated to two groups. In one group, blood pressure was aggressively lowered to less than 120 mm Hg within 1 hour of reperfusion, and blood pressure was kept at this level for 3 days. In the other group, a more liberal approach was used: Blood pressure was kept at 140-180 mm Hg.

The primary endpoint was disability, as measured by the Modified Rankin Scale (mRS) score at 90 days.

The study was started in China with the intention of expanding recruitment internationally. The planned enrollment was more than 2,000 patients.

However, in March of 2022, after 821 patients had been enrolled, the data safety monitoring board (DSMB) recommended that recruitment into the trial be suspended because of a safety signal. All of the patients who had been recruited were from China.

These patients were followed to obtain the 3-month outcome results, after which the DSMB recommended that the trial be stopped because safety was still a problem.

Mean systolic blood pressure was 125 mm Hg at 1 hour and 121 mm Hg at 24 hours in the more intensive-treatment group; it was 143 mm Hg at 1 hour and 139 mm Hg at 24 hours in the less intensive-treatment group, giving an adjusted mean difference over 24 hours of 18 mm Hg.
 

Worse disability scores

Results showed that the patients who underwent the more intensive blood pressure lowering had more disability at 3-month follow-up, with worse scores on a shift analysis of the mRS than those in the less intensive group (common odds ratio, 1.37; 95% confidence interval, 1.07-1.76).

The unfavorable shift in mRS scores in the more intensive group was consistent in adjusted sensitivity analysis, and there was no significant heterogeneity in the treatment effect on the primary outcome across all prespecified subgroups.

The incidence of death or neurologic deterioration at 7 days was higher in the more intensive-treatment group than the less intensive-treatment group (common OR, 1.53), and a between-group difference emerged at 24 hours.

The incidence of death or disability (mRS scores, 3-6) at 90 days was higher among patients in the more intensive-treatment group than the less intensive-treatment group (53% vs. 39%; OR, 1.85; P = .0001).

Among those who survived, more patients in the more intensive-treatment group had major disability (mRS scores, 3-5) at 90 days than did patients in the less intensive-treatment group (43% vs. 28%; OR, 2.07; P = .0001).
 

No difference in ICH or severe hypotension episodes

The incidence of symptomatic intracranial hemorrhage, mortality, and serious adverse events did not significantly differ between the two groups. There were no significant differences in recurrent ischemic stroke events at 90 days, and no episodes of severe hypotension were reported as a serious adverse event.

“Our results show that intensive lowering of blood pressure appears to be associated with worsening physical disability. While there was no difference in mortality rates between the two groups, the lower blood pressure appeared to compromise the ability to recover from the stroke,” Dr. Anderson said.

On the possible mechanism of harm, he suggested that the intensive blood pressure reduction might be interfering with blood flow through the injured part of the brain and impeding the ability to recover from the clot removal procedure.
 

What levels should be aimed for?

Dr. Anderson stressed that it was important to have conducted this trial.

“Current guidelines recommend very conservative level of blood pressure in acute ischemic stroke patients – to below 180 mm Hg. But no lower limit is recommended.

“Most clinicians aim for about the 140 mm Hg mark, but there is a large variation in opinion on what to do,” he said. “Some doctors treat aggressively, believing that lower pressures could be beneficial in preventing bleeding and swelling, and others prefer to keep levels higher. Our results have helped to give some guidance on this.”

Asked what he thought an optimum target would be, Dr. Anderson replied: “For now, I think a target of around 140 mm Hg systolic would be reasonable, and there is no evidence to move below that.”

Yvo Roos, MD, professor of acute neurology at University Medical Center, Amsterdam, a co-author of the ENCHANTED2/MT trial, also commented: “The real importance of these study results is that they show that lowering blood pressure too much is detrimental on outcome. My personal interpretation, looking at the results of this study but also on the previous studies, is that we should aim for a target of 140-150 mm Hg. This is true for patients with recanalization therapy. For patients without any therapy, I would even be more careful in lowering blood pressure and recommend just staying below 180 mm Hg.”

As to whether these results are generalizable to other populations, given that the patients were Chinese, Dr. Anderson noted that Asian people have higher rates of intracranial atherosclerosis and more blood pressure complications in the heart and kidney than White patients. Stroke management patterns also differ.

“These points raise questions about generalizability, and while I think this is an issue for consideration, I do not think it should detract from the clarity of these results,” he commented.

The study is supported by grants from the Shanghai Hospital Development Center, the National Health and Medical Research Council of Australia, the China Stroke Prevention Project, Shanghai Changhai Hospital, the Science and Technology Commission of Shanghai Municipality, Takeda China, Genesis Medtech, and Penumbra. Dr. Anderson has received grants from the National Health and Medical Research Council and Medical Research Futures Fund of Australia, the UK Medical Research Council, Penumbra, and Takeda China.

A version of this article first appeared on Medscape.com.

Patients with acute ischemic stroke presenting late at the hospital can be selected for endovascular thrombectomy by the presence of collateral flow on CT angiography (CTA), a new study shows.

The MR CLEAN-LATE trial found that patients selected for thrombectomy in this way had a greater chance of a better functional outcome than patients who did not receive endovascular therapy.

The study was presented at the 14th World Stroke Congress in Singapore by study investigator Susanne Olthuis, MD, of Maastricht (the Netherlands) University Medical Center.

Patients in the intervention group were more likely to show a benefit on the primary endpoint of modified Rankin Scale (mRS) score at 90 days with a significant common odds ratio of 1.68, a finding that received applause from attendees of the plenary WSC session at which the study was presented.

“This means that patients treated with endovascular therapy in this trial had about a 1.7 times higher chance of achieving a better functional outcome at 90 days,” Dr. Olthuis said.

“Selection based on collateral flow identifies an additional group of patients eligible for late-window endovascular therapy in addition to those eligible based on perfusion and clinical criteria,” Dr. Olthuis concluded.

“We recommend implementation of collateral selection in routine clinical practice as it is time efficient. The CTA is already available, and it involves a low-complexity assessment. The only distinction that needs to be made is whether or not there are any collaterals visible on CTA. If collaterals are absent or there is any doubt, then CT perfusion [CTP] imaging can still be used,” she added.

Co–principal investigator Wim H. van Zwam, MD, interventional radiologist at Maastricht, said in a comment:“My take-home message is that now in the late window we can select patients based on the presence of collaterals on CT angiography, which makes selection easier and faster and more widely available.

“If any collaterals are seen – and that is easily done just by looking at the CTA scan – then the patient can be selected for endovascular treatment,” Dr. van Zwam added. “We don’t need to wait for calculations of core and penumbra volumes from the CTP scan. There will also be additional patients who can benefit from endovascular therapy who do not fulfill the CTP criteria but do have visible collaterals.”

Explaining the background to the study, Dr. Olthuis noted that endovascular thrombectomy for large vessel occlusion stroke is safe and effective if performed within 6 hours and the effect then diminishes over time. In the original trial of endovascular treatment, MR CLEAN, patients with higher collateral grades had more treatment benefit, leading to the hypothesis that the assessment of collateral blood flow could help identify patients who would still benefit in the late time window.

The current MR CLEAN-LATE trial therefore set out to compare safety and efficacy of endovascular therapy in patients with acute ischemic stroke in the anterior circulation presenting within 6-24 hours from symptom onset with patients selected based on the presence of collateral flow on CTA.

At the time the trial was starting, the DAWN and DEFUSE 3 trials reported showing benefit of endovascular therapy in patients presenting in the late window who had been selected for endovascular treatment based on a combination of perfusion imaging and clinical criteria, so patients who fitted these criteria were also excluded from MR CLEAN-LATE as they would now be eligible for endovascular therapy under the latest clinical guidelines. 

But the study continued, as “we believed collateral selection may still be able to identify an additional group of patients that may benefit from endovascular therapy in the late window,” Dr. Olthuis said.

The trial randomly assigned 502 such patients with a National Institutes of Health Stroke Scale (NIHSS) score of at least 2 and with collateral flow grades of 1-3 to receive endovascular therapy (intervention) or control.

Safety data showed a slightly but nonsignificantly higher mortality rate at 90 days in the control group (30%) versus 24% in the intervention group.

The rate of symptomatic intracranial hemorrhage was higher in the intervention group (6.7%) versus 1.6% in the control group, but Dr. Olthuis pointed out that the rate of sICH in the intervention group was similar to that in the endovascular groups of the DAWN and DEFUSE 3 trials.

The primary endpoint – mRS score at 90 days – showed a shift toward better outcome in the intervention group, with an adjusted common OR of 1.68 (95% confidence interval, 1.21-2.33).

The median mRS score in the intervention group was 3 (95% CI, 2-5) versus 4 (95% CI, 2-6) in the control group.

Secondary outcomes also showed benefits for the intervention group for the endpoints of mRS score 0-1 versus 2-6 (OR, 1.63); mRS 0-2 versus 3-6 (OR 1.54); and mRS 0-3 versus 4-6 (OR, 1.74).

In addition, NIHSS score was reduced by 17% at 24 hours and by 27% by 5-7 days or discharge in the intervention group. Recanalization at 24 hours was also improved in the intervention group (81% vs. 52%) and infarct size was reduced by 32%.

Dr. Olthuis explained that collateral grade was defined as the amount of collateral flow in the affected hemisphere as a percentage of the contralateral site, with grade 0 correlating to an absence of collaterals (and these were the only patients excluded).

Grade 1 included patients with 50% or less collaterals, grade 2 more than 50%, and grade 3 excellent collaterals – around 100%. “We included grade 1, 2 and 3, and subgroup analysis suggested no treatment interactions between different collateral grades in the patients included,” she said.

Dr. van Zwam noted that there has been evidence from other studies suggesting that the presence of collateral flow could be used to select patients for late thrombectomy, but MR CLEAN-LATE is the first randomized trial to show this and provides confirmation that this strategy is valid.

“Our results show that patients can be selected with just standard CT angiography imaging and that CT perfusion is not necessary. This will make it easier and faster to select patients especially for centers in low-resource areas who do not yet have CT perfusion imaging,” he commented.

“But even in centers where CT perfusion imaging is performed, these results should mean that we do not have to wait to analyze these results before going ahead with thrombectomy. It will also give us an additional tool, as some patients do not meet the criteria on perfusion imaging but still have identifiable collaterals and thus would now qualify for endovascular thrombectomy,” he added.
 

Could collateral assessment replace CT perfusion?

Commenting on the MR CLEAN-LATE trial, Stefan Kiechl, MD, Medical University of Innsbruck (Austria), who is cochair of the WSC scientific committee, said it was an “excellent study.”

“This study does not rely on advanced imaging (e.g., mismatch) and criteria can easily be interpreted on CT/CTA. If the study is published and all details are available this study may substantially ease endovascular therapy in the late time window,” Dr. Kiechl told this news organization.

Also commenting, Urs Fischer, MD, chairman of the department of neurology at the University Hospital Basel (Switzerland), who was not involved with MR CLEAN-LATE, said: “This is another study that has nicely shown that endovascular therapy in patients in the later time window is highly effective.”

Dr. Fischer said he was not surprised by the results. 

“I was expecting the trial to be positive,” he said. “What we can say is that endovascular therapy in patients with proximal vessel occlusion is a very effective intervention – probably one of the most important interventions in the history of medicine – and now we have another subgroup to whom we can offer this therapy. So, this is an important study that will improve the outcome of many further patients.”

Yvo Roos, MD, professor of acute neurology at University Medical Center, Amsterdam, who was a MR CLEAN-LATE investigator, agreed that the trial has the potential to increase number of patients who can be treated with endovascular therapy.

But both Dr. Roos and Dr. Fischer were not convinced that collateral assessment would replace CT perfusion as the first-line choice in selecting patients for endovascular treatment.

“We need to see what kind of patients were included in the trial and what kind of perfusion imaging characteristics they had, to see how they compare with patients selected by perfusion imaging,” Dr. Roos noted. “I think CT perfusion is here. But if the data shows that collateral score is better able to identify patients for endovascular treatment than CT perfusion, then this has the potential to change practice. But that needs to be shown.”

All patients screened for the MR CLEAN-LATE trial also received CT perfusion imaging as part of the standard imaging protocol, and many were selected for endovascular therapy directly on this basis, so would not have entered the trial. The researchers plan to analyze these results and to compare how the two approaches differ.

MR CLEAN-LATE is an investigator-driven study, funded by the Dutch Heart Foundation, the Brain Foundation Netherlands, and Medtronic. The study was designed and conducted, analyzed, and interpreted by the investigators independently of all sponsors. Dr. Olthuis reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Patients with acute ischemic stroke presenting late at the hospital can be selected for endovascular thrombectomy by the presence of collateral flow on CT angiography (CTA), a new study shows.

The MR CLEAN-LATE trial found that patients selected for thrombectomy in this way had a greater chance of a better functional outcome than patients who did not receive endovascular therapy.

The study was presented at the 14th World Stroke Congress in Singapore by study investigator Susanne Olthuis, MD, of Maastricht (the Netherlands) University Medical Center.

Patients in the intervention group were more likely to show a benefit on the primary endpoint of modified Rankin Scale (mRS) score at 90 days with a significant common odds ratio of 1.68, a finding that received applause from attendees of the plenary WSC session at which the study was presented.

“This means that patients treated with endovascular therapy in this trial had about a 1.7 times higher chance of achieving a better functional outcome at 90 days,” Dr. Olthuis said.

“Selection based on collateral flow identifies an additional group of patients eligible for late-window endovascular therapy in addition to those eligible based on perfusion and clinical criteria,” Dr. Olthuis concluded.

“We recommend implementation of collateral selection in routine clinical practice as it is time efficient. The CTA is already available, and it involves a low-complexity assessment. The only distinction that needs to be made is whether or not there are any collaterals visible on CTA. If collaterals are absent or there is any doubt, then CT perfusion [CTP] imaging can still be used,” she added.

Co–principal investigator Wim H. van Zwam, MD, interventional radiologist at Maastricht, said in a comment:“My take-home message is that now in the late window we can select patients based on the presence of collaterals on CT angiography, which makes selection easier and faster and more widely available.

“If any collaterals are seen – and that is easily done just by looking at the CTA scan – then the patient can be selected for endovascular treatment,” Dr. van Zwam added. “We don’t need to wait for calculations of core and penumbra volumes from the CTP scan. There will also be additional patients who can benefit from endovascular therapy who do not fulfill the CTP criteria but do have visible collaterals.”

Explaining the background to the study, Dr. Olthuis noted that endovascular thrombectomy for large vessel occlusion stroke is safe and effective if performed within 6 hours and the effect then diminishes over time. In the original trial of endovascular treatment, MR CLEAN, patients with higher collateral grades had more treatment benefit, leading to the hypothesis that the assessment of collateral blood flow could help identify patients who would still benefit in the late time window.

The current MR CLEAN-LATE trial therefore set out to compare safety and efficacy of endovascular therapy in patients with acute ischemic stroke in the anterior circulation presenting within 6-24 hours from symptom onset with patients selected based on the presence of collateral flow on CTA.

At the time the trial was starting, the DAWN and DEFUSE 3 trials reported showing benefit of endovascular therapy in patients presenting in the late window who had been selected for endovascular treatment based on a combination of perfusion imaging and clinical criteria, so patients who fitted these criteria were also excluded from MR CLEAN-LATE as they would now be eligible for endovascular therapy under the latest clinical guidelines. 

But the study continued, as “we believed collateral selection may still be able to identify an additional group of patients that may benefit from endovascular therapy in the late window,” Dr. Olthuis said.

The trial randomly assigned 502 such patients with a National Institutes of Health Stroke Scale (NIHSS) score of at least 2 and with collateral flow grades of 1-3 to receive endovascular therapy (intervention) or control.

Safety data showed a slightly but nonsignificantly higher mortality rate at 90 days in the control group (30%) versus 24% in the intervention group.

The rate of symptomatic intracranial hemorrhage was higher in the intervention group (6.7%) versus 1.6% in the control group, but Dr. Olthuis pointed out that the rate of sICH in the intervention group was similar to that in the endovascular groups of the DAWN and DEFUSE 3 trials.

The primary endpoint – mRS score at 90 days – showed a shift toward better outcome in the intervention group, with an adjusted common OR of 1.68 (95% confidence interval, 1.21-2.33).

The median mRS score in the intervention group was 3 (95% CI, 2-5) versus 4 (95% CI, 2-6) in the control group.

Secondary outcomes also showed benefits for the intervention group for the endpoints of mRS score 0-1 versus 2-6 (OR, 1.63); mRS 0-2 versus 3-6 (OR 1.54); and mRS 0-3 versus 4-6 (OR, 1.74).

In addition, NIHSS score was reduced by 17% at 24 hours and by 27% by 5-7 days or discharge in the intervention group. Recanalization at 24 hours was also improved in the intervention group (81% vs. 52%) and infarct size was reduced by 32%.

Dr. Olthuis explained that collateral grade was defined as the amount of collateral flow in the affected hemisphere as a percentage of the contralateral site, with grade 0 correlating to an absence of collaterals (and these were the only patients excluded).

Grade 1 included patients with 50% or less collaterals, grade 2 more than 50%, and grade 3 excellent collaterals – around 100%. “We included grade 1, 2 and 3, and subgroup analysis suggested no treatment interactions between different collateral grades in the patients included,” she said.

Dr. van Zwam noted that there has been evidence from other studies suggesting that the presence of collateral flow could be used to select patients for late thrombectomy, but MR CLEAN-LATE is the first randomized trial to show this and provides confirmation that this strategy is valid.

“Our results show that patients can be selected with just standard CT angiography imaging and that CT perfusion is not necessary. This will make it easier and faster to select patients especially for centers in low-resource areas who do not yet have CT perfusion imaging,” he commented.

“But even in centers where CT perfusion imaging is performed, these results should mean that we do not have to wait to analyze these results before going ahead with thrombectomy. It will also give us an additional tool, as some patients do not meet the criteria on perfusion imaging but still have identifiable collaterals and thus would now qualify for endovascular thrombectomy,” he added.
 

Could collateral assessment replace CT perfusion?

Commenting on the MR CLEAN-LATE trial, Stefan Kiechl, MD, Medical University of Innsbruck (Austria), who is cochair of the WSC scientific committee, said it was an “excellent study.”

“This study does not rely on advanced imaging (e.g., mismatch) and criteria can easily be interpreted on CT/CTA. If the study is published and all details are available this study may substantially ease endovascular therapy in the late time window,” Dr. Kiechl told this news organization.

Also commenting, Urs Fischer, MD, chairman of the department of neurology at the University Hospital Basel (Switzerland), who was not involved with MR CLEAN-LATE, said: “This is another study that has nicely shown that endovascular therapy in patients in the later time window is highly effective.”

Dr. Fischer said he was not surprised by the results. 

“I was expecting the trial to be positive,” he said. “What we can say is that endovascular therapy in patients with proximal vessel occlusion is a very effective intervention – probably one of the most important interventions in the history of medicine – and now we have another subgroup to whom we can offer this therapy. So, this is an important study that will improve the outcome of many further patients.”

Yvo Roos, MD, professor of acute neurology at University Medical Center, Amsterdam, who was a MR CLEAN-LATE investigator, agreed that the trial has the potential to increase number of patients who can be treated with endovascular therapy.

But both Dr. Roos and Dr. Fischer were not convinced that collateral assessment would replace CT perfusion as the first-line choice in selecting patients for endovascular treatment.

“We need to see what kind of patients were included in the trial and what kind of perfusion imaging characteristics they had, to see how they compare with patients selected by perfusion imaging,” Dr. Roos noted. “I think CT perfusion is here. But if the data shows that collateral score is better able to identify patients for endovascular treatment than CT perfusion, then this has the potential to change practice. But that needs to be shown.”

All patients screened for the MR CLEAN-LATE trial also received CT perfusion imaging as part of the standard imaging protocol, and many were selected for endovascular therapy directly on this basis, so would not have entered the trial. The researchers plan to analyze these results and to compare how the two approaches differ.

MR CLEAN-LATE is an investigator-driven study, funded by the Dutch Heart Foundation, the Brain Foundation Netherlands, and Medtronic. The study was designed and conducted, analyzed, and interpreted by the investigators independently of all sponsors. Dr. Olthuis reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Patients with acute ischemic stroke presenting late at the hospital can be selected for endovascular thrombectomy by the presence of collateral flow on CT angiography (CTA), a new study shows.

The MR CLEAN-LATE trial found that patients selected for thrombectomy in this way had a greater chance of a better functional outcome than patients who did not receive endovascular therapy.

The study was presented at the 14th World Stroke Congress in Singapore by study investigator Susanne Olthuis, MD, of Maastricht (the Netherlands) University Medical Center.

Patients in the intervention group were more likely to show a benefit on the primary endpoint of modified Rankin Scale (mRS) score at 90 days with a significant common odds ratio of 1.68, a finding that received applause from attendees of the plenary WSC session at which the study was presented.

“This means that patients treated with endovascular therapy in this trial had about a 1.7 times higher chance of achieving a better functional outcome at 90 days,” Dr. Olthuis said.

“Selection based on collateral flow identifies an additional group of patients eligible for late-window endovascular therapy in addition to those eligible based on perfusion and clinical criteria,” Dr. Olthuis concluded.

“We recommend implementation of collateral selection in routine clinical practice as it is time efficient. The CTA is already available, and it involves a low-complexity assessment. The only distinction that needs to be made is whether or not there are any collaterals visible on CTA. If collaterals are absent or there is any doubt, then CT perfusion [CTP] imaging can still be used,” she added.

Co–principal investigator Wim H. van Zwam, MD, interventional radiologist at Maastricht, said in a comment:“My take-home message is that now in the late window we can select patients based on the presence of collaterals on CT angiography, which makes selection easier and faster and more widely available.

“If any collaterals are seen – and that is easily done just by looking at the CTA scan – then the patient can be selected for endovascular treatment,” Dr. van Zwam added. “We don’t need to wait for calculations of core and penumbra volumes from the CTP scan. There will also be additional patients who can benefit from endovascular therapy who do not fulfill the CTP criteria but do have visible collaterals.”

Explaining the background to the study, Dr. Olthuis noted that endovascular thrombectomy for large vessel occlusion stroke is safe and effective if performed within 6 hours and the effect then diminishes over time. In the original trial of endovascular treatment, MR CLEAN, patients with higher collateral grades had more treatment benefit, leading to the hypothesis that the assessment of collateral blood flow could help identify patients who would still benefit in the late time window.

The current MR CLEAN-LATE trial therefore set out to compare safety and efficacy of endovascular therapy in patients with acute ischemic stroke in the anterior circulation presenting within 6-24 hours from symptom onset with patients selected based on the presence of collateral flow on CTA.

At the time the trial was starting, the DAWN and DEFUSE 3 trials reported showing benefit of endovascular therapy in patients presenting in the late window who had been selected for endovascular treatment based on a combination of perfusion imaging and clinical criteria, so patients who fitted these criteria were also excluded from MR CLEAN-LATE as they would now be eligible for endovascular therapy under the latest clinical guidelines. 

But the study continued, as “we believed collateral selection may still be able to identify an additional group of patients that may benefit from endovascular therapy in the late window,” Dr. Olthuis said.

The trial randomly assigned 502 such patients with a National Institutes of Health Stroke Scale (NIHSS) score of at least 2 and with collateral flow grades of 1-3 to receive endovascular therapy (intervention) or control.

Safety data showed a slightly but nonsignificantly higher mortality rate at 90 days in the control group (30%) versus 24% in the intervention group.

The rate of symptomatic intracranial hemorrhage was higher in the intervention group (6.7%) versus 1.6% in the control group, but Dr. Olthuis pointed out that the rate of sICH in the intervention group was similar to that in the endovascular groups of the DAWN and DEFUSE 3 trials.

The primary endpoint – mRS score at 90 days – showed a shift toward better outcome in the intervention group, with an adjusted common OR of 1.68 (95% confidence interval, 1.21-2.33).

The median mRS score in the intervention group was 3 (95% CI, 2-5) versus 4 (95% CI, 2-6) in the control group.

Secondary outcomes also showed benefits for the intervention group for the endpoints of mRS score 0-1 versus 2-6 (OR, 1.63); mRS 0-2 versus 3-6 (OR 1.54); and mRS 0-3 versus 4-6 (OR, 1.74).

In addition, NIHSS score was reduced by 17% at 24 hours and by 27% by 5-7 days or discharge in the intervention group. Recanalization at 24 hours was also improved in the intervention group (81% vs. 52%) and infarct size was reduced by 32%.

Dr. Olthuis explained that collateral grade was defined as the amount of collateral flow in the affected hemisphere as a percentage of the contralateral site, with grade 0 correlating to an absence of collaterals (and these were the only patients excluded).

Grade 1 included patients with 50% or less collaterals, grade 2 more than 50%, and grade 3 excellent collaterals – around 100%. “We included grade 1, 2 and 3, and subgroup analysis suggested no treatment interactions between different collateral grades in the patients included,” she said.

Dr. van Zwam noted that there has been evidence from other studies suggesting that the presence of collateral flow could be used to select patients for late thrombectomy, but MR CLEAN-LATE is the first randomized trial to show this and provides confirmation that this strategy is valid.

“Our results show that patients can be selected with just standard CT angiography imaging and that CT perfusion is not necessary. This will make it easier and faster to select patients especially for centers in low-resource areas who do not yet have CT perfusion imaging,” he commented.

“But even in centers where CT perfusion imaging is performed, these results should mean that we do not have to wait to analyze these results before going ahead with thrombectomy. It will also give us an additional tool, as some patients do not meet the criteria on perfusion imaging but still have identifiable collaterals and thus would now qualify for endovascular thrombectomy,” he added.
 

Could collateral assessment replace CT perfusion?

Commenting on the MR CLEAN-LATE trial, Stefan Kiechl, MD, Medical University of Innsbruck (Austria), who is cochair of the WSC scientific committee, said it was an “excellent study.”

“This study does not rely on advanced imaging (e.g., mismatch) and criteria can easily be interpreted on CT/CTA. If the study is published and all details are available this study may substantially ease endovascular therapy in the late time window,” Dr. Kiechl told this news organization.

Also commenting, Urs Fischer, MD, chairman of the department of neurology at the University Hospital Basel (Switzerland), who was not involved with MR CLEAN-LATE, said: “This is another study that has nicely shown that endovascular therapy in patients in the later time window is highly effective.”

Dr. Fischer said he was not surprised by the results. 

“I was expecting the trial to be positive,” he said. “What we can say is that endovascular therapy in patients with proximal vessel occlusion is a very effective intervention – probably one of the most important interventions in the history of medicine – and now we have another subgroup to whom we can offer this therapy. So, this is an important study that will improve the outcome of many further patients.”

Yvo Roos, MD, professor of acute neurology at University Medical Center, Amsterdam, who was a MR CLEAN-LATE investigator, agreed that the trial has the potential to increase number of patients who can be treated with endovascular therapy.

But both Dr. Roos and Dr. Fischer were not convinced that collateral assessment would replace CT perfusion as the first-line choice in selecting patients for endovascular treatment.

“We need to see what kind of patients were included in the trial and what kind of perfusion imaging characteristics they had, to see how they compare with patients selected by perfusion imaging,” Dr. Roos noted. “I think CT perfusion is here. But if the data shows that collateral score is better able to identify patients for endovascular treatment than CT perfusion, then this has the potential to change practice. But that needs to be shown.”

All patients screened for the MR CLEAN-LATE trial also received CT perfusion imaging as part of the standard imaging protocol, and many were selected for endovascular therapy directly on this basis, so would not have entered the trial. The researchers plan to analyze these results and to compare how the two approaches differ.

MR CLEAN-LATE is an investigator-driven study, funded by the Dutch Heart Foundation, the Brain Foundation Netherlands, and Medtronic. The study was designed and conducted, analyzed, and interpreted by the investigators independently of all sponsors. Dr. Olthuis reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Patients with psychotic disorders such as schizophrenia are more than twice as likely as those without a psychotic disorder to eventually develop dementia, new research suggests.

Results from a review and meta-analysis of almost 13 million total participants from nine countries showed that, across multiple different psychotic disorders, there was a 2.5-fold higher risk of developing dementia later in life compared with individuals who did not have a disorder. This was regardless of the age at which the patients first developed the mental illness.

Moreover, participants with a psychotic disorder tended to be younger than average when diagnosed with dementia. Two studies showed that those with psychotic disorders were more likely to be diagnosed with dementia as early as in their 60s.

“The findings add to a growing body of evidence linking psychiatric disorders with later cognitive decline and dementia,” senior investigator Jean Stafford, PhD, a research fellow at MRC Unit for Lifelong Health and Ageing, University College London, told this news organization.

Dr. Stafford noted that the results highlight the importance of being aware of and watchful for symptoms of cognitive decline in patients with psychotic disorders in mid- and late life.

“In addition, given that people with psychotic disorders are at higher risk of experiencing multiple health conditions, including dementia, managing overall physical and mental health in this group is crucial,” she said.

The findings were published online in Psychological Medicine.
 

Bringing the evidence together

There is increasing evidence that multiple psychiatric symptoms and diagnoses are associated with cognitive decline and dementia, with particularly strong evidence for late-life depression, Dr. Stafford said.

“However, the relationship between psychotic disorders and dementia is less well-established,” she added.

Last year, her team published a study showing a strong association between very late onset psychotic disorders, defined as first diagnosed after age 60 years, and increased risk for dementia in Swedish population register data.

“We also became aware of several other large studies on the topic published in the last few years and realized that an up-to-date systematic review and meta-analysis was needed to bring together the evidence, specifically focusing on longitudinal studies,” Dr. Stafford said.

The researchers searched four databases of prospective and retrospective longitudinal studies published through March 2022. Studies were required to focus on adults aged 18 years or older with a clinical diagnosis of a nonaffective psychotic disorder and a comparison group consisting of adults without a nonaffective psychotic disorder.

Of 9,496 papers, the investigators selected 11 published from 2003 to 2022 that met criteria for inclusion in their meta-analysis (12,997,101 participants), with follow-up periods ranging from 1.57 to 33 years.

The studies hailed from Denmark, Finland, Sweden, the United Kingdom, the United States, Australia, Taiwan, New Zealand, and Israel.

Random-effects meta-analyses were used to pool estimates across studies. The researchers assessed the risk of bias for each study. They also included two additional studies in the review, but not the meta-analysis, that focused specifically on late-onset acute and transient psychosis and late-onset delusional disorder.

The other studies focused on late-onset schizophrenia and/or very late onset schizophrenia-like psychoses, schizophrenia, psychotic disorders, and schizophrenia in older people.

Most studies investigated the incidence of all-cause dementia, although one study focused on the incidence of Alzheimer’s disease.
 

Potential mechanisms

The narrative review showed that most studies (n = 10) were of high methodological quality, although two were rated as fair and one as poor.

Almost all studies accounted for basic sociodemographic confounders. Several also adjusted for comorbidities, alcohol/substance use disorders, medications, smoking status, and income/education level.

Pooled estimates from the meta-analyzed studies showed that only one showed no significant association between psychotic disorders and dementia, whereas 10 reported increased risk (pooled risk ratio, 2.52; 95% confidence interval, 1.67-3.80; I², 99.7%).

Subgroup analyses showed higher risk in participants with typical and late-onset psychotic disorders (pooled RR, 2.10; 95% CI, 2.33-4.14; I², 77.5%; P = .004) vs. those with very late onset schizophrenia-like psychoses (pooled RR, 2.77; 95% CI, 1.74-4.40 I², 98.9%; P < .001).

The effect was larger in studies with a follow-up of less than 10 years vs. those with a follow-up of 10 years or more, and it was also greater in studies conducted in non-European vs. European countries (all P < .001).

Studies with more female participants (≥ 60%) showed higher risk compared with those that had a lower percentage of female participants. Studies published during or after 2020 showed a stronger association than those published before 2020 (all P < .001).

There was also a higher risk for dementia in studies investigating broader nonaffective psychotic disorders compared with studies investigating only schizophrenia, in prospective vs. retrospective studies, and in studies with a minimum age of less than 60 years at baseline vs. a minimum age of 60 or older (all P < .001).

“Several possible mechanisms could underlie these findings, although we were not able to directly test these in our review,” Dr. Stafford said. She noted that psychotic disorders and other psychiatric diagnoses may cause dementia.

“People with psychotic disorders such as schizophrenia are also at higher risk of health conditions including cardiovascular disease and diabetes, which are known risk factors for dementia and could underpin these associations,” said Dr. Stafford.

It is also possible “that psychotic symptoms could be early markers of dementia for some people, rather than causes,” she added.
 

Neuroimaging evidence lacking

Commenting on the study, Dilip V. Jeste, MD, former senior associate dean for healthy aging and senior care and distinguished professor of psychiatry and neurosciences at the University of California, San Diego, complimented the investigators for “an excellent article on an important but difficult topic.”

Limitations “pertain not to the meta-analysis but to the original studies,” said Dr. Jeste, who was not involved with the review. Diagnosing dementia in individuals with psychotic disorders is “challenging because cognitive deficits and behavioral symptoms in psychotic disorders may be misdiagnosed as dementia in some individuals – and vice versa,” he added.

Moreover, the studies did not specify the type of dementia, such as Alzheimer’s disease, vascular, Lewy body, frontotemporal, or mixed. Together, “they account for 90% of the dementias, and most patients with these dementias have brain abnormalities that can clearly be seen on MRI,” Dr. Jeste said.

However, patients with schizophrenia who are diagnosed with dementia “rarely show severe brain atrophy, even in specific regions commonly observed in nonpsychotic people with these dementias,” Dr. Jeste noted.

Thus, objective neuroimaging-based evidence for dementia and its subtype “is lacking in most of the published studies of persons with psychotic disorders diagnosed as having dementia,” he said.

There is a “clear need for comprehensive studies of dementia in people with psychotic disorders to understand the significance of the results,” Dr. Jeste concluded.

The review did not receive any funding. Dr. Stafford was supported by an NIHR-UCLH BRC Postdoctoral Bridging Fellowship and the National Institute for Health Research Biomedical Research Centre at University College London Hospitals NHS Foundation Trust. Dr. Stafford was also the principal investigator in one of the studies meeting the inclusion criteria of the review. The other investigators and Dr. Jeste reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Patients with psychotic disorders such as schizophrenia are more than twice as likely as those without a psychotic disorder to eventually develop dementia, new research suggests.

Results from a review and meta-analysis of almost 13 million total participants from nine countries showed that, across multiple different psychotic disorders, there was a 2.5-fold higher risk of developing dementia later in life compared with individuals who did not have a disorder. This was regardless of the age at which the patients first developed the mental illness.

Moreover, participants with a psychotic disorder tended to be younger than average when diagnosed with dementia. Two studies showed that those with psychotic disorders were more likely to be diagnosed with dementia as early as in their 60s.

“The findings add to a growing body of evidence linking psychiatric disorders with later cognitive decline and dementia,” senior investigator Jean Stafford, PhD, a research fellow at MRC Unit for Lifelong Health and Ageing, University College London, told this news organization.

Dr. Stafford noted that the results highlight the importance of being aware of and watchful for symptoms of cognitive decline in patients with psychotic disorders in mid- and late life.

“In addition, given that people with psychotic disorders are at higher risk of experiencing multiple health conditions, including dementia, managing overall physical and mental health in this group is crucial,” she said.

The findings were published online in Psychological Medicine.
 

Bringing the evidence together

There is increasing evidence that multiple psychiatric symptoms and diagnoses are associated with cognitive decline and dementia, with particularly strong evidence for late-life depression, Dr. Stafford said.

“However, the relationship between psychotic disorders and dementia is less well-established,” she added.

Last year, her team published a study showing a strong association between very late onset psychotic disorders, defined as first diagnosed after age 60 years, and increased risk for dementia in Swedish population register data.

“We also became aware of several other large studies on the topic published in the last few years and realized that an up-to-date systematic review and meta-analysis was needed to bring together the evidence, specifically focusing on longitudinal studies,” Dr. Stafford said.

The researchers searched four databases of prospective and retrospective longitudinal studies published through March 2022. Studies were required to focus on adults aged 18 years or older with a clinical diagnosis of a nonaffective psychotic disorder and a comparison group consisting of adults without a nonaffective psychotic disorder.

Of 9,496 papers, the investigators selected 11 published from 2003 to 2022 that met criteria for inclusion in their meta-analysis (12,997,101 participants), with follow-up periods ranging from 1.57 to 33 years.

The studies hailed from Denmark, Finland, Sweden, the United Kingdom, the United States, Australia, Taiwan, New Zealand, and Israel.

Random-effects meta-analyses were used to pool estimates across studies. The researchers assessed the risk of bias for each study. They also included two additional studies in the review, but not the meta-analysis, that focused specifically on late-onset acute and transient psychosis and late-onset delusional disorder.

The other studies focused on late-onset schizophrenia and/or very late onset schizophrenia-like psychoses, schizophrenia, psychotic disorders, and schizophrenia in older people.

Most studies investigated the incidence of all-cause dementia, although one study focused on the incidence of Alzheimer’s disease.
 

Potential mechanisms

The narrative review showed that most studies (n = 10) were of high methodological quality, although two were rated as fair and one as poor.

Almost all studies accounted for basic sociodemographic confounders. Several also adjusted for comorbidities, alcohol/substance use disorders, medications, smoking status, and income/education level.

Pooled estimates from the meta-analyzed studies showed that only one showed no significant association between psychotic disorders and dementia, whereas 10 reported increased risk (pooled risk ratio, 2.52; 95% confidence interval, 1.67-3.80; I², 99.7%).

Subgroup analyses showed higher risk in participants with typical and late-onset psychotic disorders (pooled RR, 2.10; 95% CI, 2.33-4.14; I², 77.5%; P = .004) vs. those with very late onset schizophrenia-like psychoses (pooled RR, 2.77; 95% CI, 1.74-4.40 I², 98.9%; P < .001).

The effect was larger in studies with a follow-up of less than 10 years vs. those with a follow-up of 10 years or more, and it was also greater in studies conducted in non-European vs. European countries (all P < .001).

Studies with more female participants (≥ 60%) showed higher risk compared with those that had a lower percentage of female participants. Studies published during or after 2020 showed a stronger association than those published before 2020 (all P < .001).

There was also a higher risk for dementia in studies investigating broader nonaffective psychotic disorders compared with studies investigating only schizophrenia, in prospective vs. retrospective studies, and in studies with a minimum age of less than 60 years at baseline vs. a minimum age of 60 or older (all P < .001).

“Several possible mechanisms could underlie these findings, although we were not able to directly test these in our review,” Dr. Stafford said. She noted that psychotic disorders and other psychiatric diagnoses may cause dementia.

“People with psychotic disorders such as schizophrenia are also at higher risk of health conditions including cardiovascular disease and diabetes, which are known risk factors for dementia and could underpin these associations,” said Dr. Stafford.

It is also possible “that psychotic symptoms could be early markers of dementia for some people, rather than causes,” she added.
 

Neuroimaging evidence lacking

Commenting on the study, Dilip V. Jeste, MD, former senior associate dean for healthy aging and senior care and distinguished professor of psychiatry and neurosciences at the University of California, San Diego, complimented the investigators for “an excellent article on an important but difficult topic.”

Limitations “pertain not to the meta-analysis but to the original studies,” said Dr. Jeste, who was not involved with the review. Diagnosing dementia in individuals with psychotic disorders is “challenging because cognitive deficits and behavioral symptoms in psychotic disorders may be misdiagnosed as dementia in some individuals – and vice versa,” he added.

Moreover, the studies did not specify the type of dementia, such as Alzheimer’s disease, vascular, Lewy body, frontotemporal, or mixed. Together, “they account for 90% of the dementias, and most patients with these dementias have brain abnormalities that can clearly be seen on MRI,” Dr. Jeste said.

However, patients with schizophrenia who are diagnosed with dementia “rarely show severe brain atrophy, even in specific regions commonly observed in nonpsychotic people with these dementias,” Dr. Jeste noted.

Thus, objective neuroimaging-based evidence for dementia and its subtype “is lacking in most of the published studies of persons with psychotic disorders diagnosed as having dementia,” he said.

There is a “clear need for comprehensive studies of dementia in people with psychotic disorders to understand the significance of the results,” Dr. Jeste concluded.

The review did not receive any funding. Dr. Stafford was supported by an NIHR-UCLH BRC Postdoctoral Bridging Fellowship and the National Institute for Health Research Biomedical Research Centre at University College London Hospitals NHS Foundation Trust. Dr. Stafford was also the principal investigator in one of the studies meeting the inclusion criteria of the review. The other investigators and Dr. Jeste reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Patients with psychotic disorders such as schizophrenia are more than twice as likely as those without a psychotic disorder to eventually develop dementia, new research suggests.

Results from a review and meta-analysis of almost 13 million total participants from nine countries showed that, across multiple different psychotic disorders, there was a 2.5-fold higher risk of developing dementia later in life compared with individuals who did not have a disorder. This was regardless of the age at which the patients first developed the mental illness.

Moreover, participants with a psychotic disorder tended to be younger than average when diagnosed with dementia. Two studies showed that those with psychotic disorders were more likely to be diagnosed with dementia as early as in their 60s.

“The findings add to a growing body of evidence linking psychiatric disorders with later cognitive decline and dementia,” senior investigator Jean Stafford, PhD, a research fellow at MRC Unit for Lifelong Health and Ageing, University College London, told this news organization.

Dr. Stafford noted that the results highlight the importance of being aware of and watchful for symptoms of cognitive decline in patients with psychotic disorders in mid- and late life.

“In addition, given that people with psychotic disorders are at higher risk of experiencing multiple health conditions, including dementia, managing overall physical and mental health in this group is crucial,” she said.

The findings were published online in Psychological Medicine.
 

Bringing the evidence together

There is increasing evidence that multiple psychiatric symptoms and diagnoses are associated with cognitive decline and dementia, with particularly strong evidence for late-life depression, Dr. Stafford said.

“However, the relationship between psychotic disorders and dementia is less well-established,” she added.

Last year, her team published a study showing a strong association between very late onset psychotic disorders, defined as first diagnosed after age 60 years, and increased risk for dementia in Swedish population register data.

“We also became aware of several other large studies on the topic published in the last few years and realized that an up-to-date systematic review and meta-analysis was needed to bring together the evidence, specifically focusing on longitudinal studies,” Dr. Stafford said.

The researchers searched four databases of prospective and retrospective longitudinal studies published through March 2022. Studies were required to focus on adults aged 18 years or older with a clinical diagnosis of a nonaffective psychotic disorder and a comparison group consisting of adults without a nonaffective psychotic disorder.

Of 9,496 papers, the investigators selected 11 published from 2003 to 2022 that met criteria for inclusion in their meta-analysis (12,997,101 participants), with follow-up periods ranging from 1.57 to 33 years.

The studies hailed from Denmark, Finland, Sweden, the United Kingdom, the United States, Australia, Taiwan, New Zealand, and Israel.

Random-effects meta-analyses were used to pool estimates across studies. The researchers assessed the risk of bias for each study. They also included two additional studies in the review, but not the meta-analysis, that focused specifically on late-onset acute and transient psychosis and late-onset delusional disorder.

The other studies focused on late-onset schizophrenia and/or very late onset schizophrenia-like psychoses, schizophrenia, psychotic disorders, and schizophrenia in older people.

Most studies investigated the incidence of all-cause dementia, although one study focused on the incidence of Alzheimer’s disease.
 

Potential mechanisms

The narrative review showed that most studies (n = 10) were of high methodological quality, although two were rated as fair and one as poor.

Almost all studies accounted for basic sociodemographic confounders. Several also adjusted for comorbidities, alcohol/substance use disorders, medications, smoking status, and income/education level.

Pooled estimates from the meta-analyzed studies showed that only one showed no significant association between psychotic disorders and dementia, whereas 10 reported increased risk (pooled risk ratio, 2.52; 95% confidence interval, 1.67-3.80; I², 99.7%).

Subgroup analyses showed higher risk in participants with typical and late-onset psychotic disorders (pooled RR, 2.10; 95% CI, 2.33-4.14; I², 77.5%; P = .004) vs. those with very late onset schizophrenia-like psychoses (pooled RR, 2.77; 95% CI, 1.74-4.40 I², 98.9%; P < .001).

The effect was larger in studies with a follow-up of less than 10 years vs. those with a follow-up of 10 years or more, and it was also greater in studies conducted in non-European vs. European countries (all P < .001).

Studies with more female participants (≥ 60%) showed higher risk compared with those that had a lower percentage of female participants. Studies published during or after 2020 showed a stronger association than those published before 2020 (all P < .001).

There was also a higher risk for dementia in studies investigating broader nonaffective psychotic disorders compared with studies investigating only schizophrenia, in prospective vs. retrospective studies, and in studies with a minimum age of less than 60 years at baseline vs. a minimum age of 60 or older (all P < .001).

“Several possible mechanisms could underlie these findings, although we were not able to directly test these in our review,” Dr. Stafford said. She noted that psychotic disorders and other psychiatric diagnoses may cause dementia.

“People with psychotic disorders such as schizophrenia are also at higher risk of health conditions including cardiovascular disease and diabetes, which are known risk factors for dementia and could underpin these associations,” said Dr. Stafford.

It is also possible “that psychotic symptoms could be early markers of dementia for some people, rather than causes,” she added.
 

Neuroimaging evidence lacking

Commenting on the study, Dilip V. Jeste, MD, former senior associate dean for healthy aging and senior care and distinguished professor of psychiatry and neurosciences at the University of California, San Diego, complimented the investigators for “an excellent article on an important but difficult topic.”

Limitations “pertain not to the meta-analysis but to the original studies,” said Dr. Jeste, who was not involved with the review. Diagnosing dementia in individuals with psychotic disorders is “challenging because cognitive deficits and behavioral symptoms in psychotic disorders may be misdiagnosed as dementia in some individuals – and vice versa,” he added.

Moreover, the studies did not specify the type of dementia, such as Alzheimer’s disease, vascular, Lewy body, frontotemporal, or mixed. Together, “they account for 90% of the dementias, and most patients with these dementias have brain abnormalities that can clearly be seen on MRI,” Dr. Jeste said.

However, patients with schizophrenia who are diagnosed with dementia “rarely show severe brain atrophy, even in specific regions commonly observed in nonpsychotic people with these dementias,” Dr. Jeste noted.

Thus, objective neuroimaging-based evidence for dementia and its subtype “is lacking in most of the published studies of persons with psychotic disorders diagnosed as having dementia,” he said.

There is a “clear need for comprehensive studies of dementia in people with psychotic disorders to understand the significance of the results,” Dr. Jeste concluded.

The review did not receive any funding. Dr. Stafford was supported by an NIHR-UCLH BRC Postdoctoral Bridging Fellowship and the National Institute for Health Research Biomedical Research Centre at University College London Hospitals NHS Foundation Trust. Dr. Stafford was also the principal investigator in one of the studies meeting the inclusion criteria of the review. The other investigators and Dr. Jeste reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Rates of subarachnoid hemorrhage (SAH) are increasing, particularly in Black people, new research suggests.

Results of a new study based on hospital discharge data show Black people have disproportionately high rates of SAH versus other racial groups. Compared with White and Hispanic people, who had an average of 10 cases per 100,000, or Asian people, with 8 per 100,000 people, Black people had an average of 15 cases per 100,000 population.

Whereas case rates held steady for other racial groups in the study over a 10-year period, Black people were the only racial group for whom SAH incidence increased over time, at a rate of 1.8% per year.

“Root causes of the higher SAH incidence in Black [people] are complex and likely extend beyond simple differences in risk factor characteristics to other socioeconomic factors including level of education, poverty level, lack of insurance, access to quality care, and structural racism,” study investigator Fadar Oliver Otite, MD, assistant professor of neurology at SUNY Upstate Medical University, Syracuse, said in an interview.

“Addressing this racial disparity will require multidisciplinary factors targeted not just at subarachnoid hemorrhage risk factors but also at socioeconomic equity,” he added.

The study was published online in Neurology.
 

Uncontrolled hypertension

The average incidence of SAH for all participants was 11 cases per 100,000 people. Men had an average rate of 10 cases and women an average rate of 13 cases per 100,000.

As expected, incidence increased with age: For middle-aged men, the average was four cases per 100,000 people whereas for men 65 and older, the average was 22 cases.

Dr. Otite and his team combined U.S. Census data with two state hospitalization databases in New York and Florida and found that there were nearly 40,000 people hospitalized for SAH between 2007 and 2017. To find annual incidences of SAH per 100,000 population, they calculated the number of SAH cases and the total adult population for the year.

“Smoking and hypertension are two of the strongest risk factors for subarachnoid hemorrhage,” Dr. Otite said. “Hypertension is more prevalent in Black people in the United States, and Black patients with hypertension are more likely to have it uncontrolled.”
 

Racism, toxic stress

Anjail Sharieff, MD, associate professor of neurology at UT Health, Houston, said aside from a high rate of common SAH risk factors such as hypertension, Black Americans also face a barrage of inequities to health education and quality health care that contributes to higher SAH rates.

“The impact of toxic stress related to racism and discrimination experiences, and chronic stress related to poverty, can contribute to hypertension in Black people,” Dr. Sharieff said, adding that these factors contribute to stroke risk and are not usually accounted for in studies.

Dr. Sharieff said many of her first-time patients end up in her office due to a heart attack or stroke because they were previously uninsured and did not have access to primary care. “We need to begin leveraging trust with people in communities – meeting people where they are,” to educate them about hypertension and other health issues, she said.

A shining example of community engagement to reduce hypertension in Black communities was the Cedars-Sinai Barbershop Study, where 52 barbershops in Los Angeles implemented blood pressure checks and interventions among customers. A year later, the project was still working.

“Once we can identify the health problems in Black communities,” said Dr. Sharieff, “we can treat them.”

Dr. Otite and Dr. Sharieff report no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Rates of subarachnoid hemorrhage (SAH) are increasing, particularly in Black people, new research suggests.

Results of a new study based on hospital discharge data show Black people have disproportionately high rates of SAH versus other racial groups. Compared with White and Hispanic people, who had an average of 10 cases per 100,000, or Asian people, with 8 per 100,000 people, Black people had an average of 15 cases per 100,000 population.

Whereas case rates held steady for other racial groups in the study over a 10-year period, Black people were the only racial group for whom SAH incidence increased over time, at a rate of 1.8% per year.

“Root causes of the higher SAH incidence in Black [people] are complex and likely extend beyond simple differences in risk factor characteristics to other socioeconomic factors including level of education, poverty level, lack of insurance, access to quality care, and structural racism,” study investigator Fadar Oliver Otite, MD, assistant professor of neurology at SUNY Upstate Medical University, Syracuse, said in an interview.

“Addressing this racial disparity will require multidisciplinary factors targeted not just at subarachnoid hemorrhage risk factors but also at socioeconomic equity,” he added.

The study was published online in Neurology.
 

Uncontrolled hypertension

The average incidence of SAH for all participants was 11 cases per 100,000 people. Men had an average rate of 10 cases and women an average rate of 13 cases per 100,000.

As expected, incidence increased with age: For middle-aged men, the average was four cases per 100,000 people whereas for men 65 and older, the average was 22 cases.

Dr. Otite and his team combined U.S. Census data with two state hospitalization databases in New York and Florida and found that there were nearly 40,000 people hospitalized for SAH between 2007 and 2017. To find annual incidences of SAH per 100,000 population, they calculated the number of SAH cases and the total adult population for the year.

“Smoking and hypertension are two of the strongest risk factors for subarachnoid hemorrhage,” Dr. Otite said. “Hypertension is more prevalent in Black people in the United States, and Black patients with hypertension are more likely to have it uncontrolled.”
 

Racism, toxic stress

Anjail Sharieff, MD, associate professor of neurology at UT Health, Houston, said aside from a high rate of common SAH risk factors such as hypertension, Black Americans also face a barrage of inequities to health education and quality health care that contributes to higher SAH rates.

“The impact of toxic stress related to racism and discrimination experiences, and chronic stress related to poverty, can contribute to hypertension in Black people,” Dr. Sharieff said, adding that these factors contribute to stroke risk and are not usually accounted for in studies.

Dr. Sharieff said many of her first-time patients end up in her office due to a heart attack or stroke because they were previously uninsured and did not have access to primary care. “We need to begin leveraging trust with people in communities – meeting people where they are,” to educate them about hypertension and other health issues, she said.

A shining example of community engagement to reduce hypertension in Black communities was the Cedars-Sinai Barbershop Study, where 52 barbershops in Los Angeles implemented blood pressure checks and interventions among customers. A year later, the project was still working.

“Once we can identify the health problems in Black communities,” said Dr. Sharieff, “we can treat them.”

Dr. Otite and Dr. Sharieff report no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Rates of subarachnoid hemorrhage (SAH) are increasing, particularly in Black people, new research suggests.

Results of a new study based on hospital discharge data show Black people have disproportionately high rates of SAH versus other racial groups. Compared with White and Hispanic people, who had an average of 10 cases per 100,000, or Asian people, with 8 per 100,000 people, Black people had an average of 15 cases per 100,000 population.

Whereas case rates held steady for other racial groups in the study over a 10-year period, Black people were the only racial group for whom SAH incidence increased over time, at a rate of 1.8% per year.

“Root causes of the higher SAH incidence in Black [people] are complex and likely extend beyond simple differences in risk factor characteristics to other socioeconomic factors including level of education, poverty level, lack of insurance, access to quality care, and structural racism,” study investigator Fadar Oliver Otite, MD, assistant professor of neurology at SUNY Upstate Medical University, Syracuse, said in an interview.

“Addressing this racial disparity will require multidisciplinary factors targeted not just at subarachnoid hemorrhage risk factors but also at socioeconomic equity,” he added.

The study was published online in Neurology.
 

Uncontrolled hypertension

The average incidence of SAH for all participants was 11 cases per 100,000 people. Men had an average rate of 10 cases and women an average rate of 13 cases per 100,000.

As expected, incidence increased with age: For middle-aged men, the average was four cases per 100,000 people whereas for men 65 and older, the average was 22 cases.

Dr. Otite and his team combined U.S. Census data with two state hospitalization databases in New York and Florida and found that there were nearly 40,000 people hospitalized for SAH between 2007 and 2017. To find annual incidences of SAH per 100,000 population, they calculated the number of SAH cases and the total adult population for the year.

“Smoking and hypertension are two of the strongest risk factors for subarachnoid hemorrhage,” Dr. Otite said. “Hypertension is more prevalent in Black people in the United States, and Black patients with hypertension are more likely to have it uncontrolled.”
 

Racism, toxic stress

Anjail Sharieff, MD, associate professor of neurology at UT Health, Houston, said aside from a high rate of common SAH risk factors such as hypertension, Black Americans also face a barrage of inequities to health education and quality health care that contributes to higher SAH rates.

“The impact of toxic stress related to racism and discrimination experiences, and chronic stress related to poverty, can contribute to hypertension in Black people,” Dr. Sharieff said, adding that these factors contribute to stroke risk and are not usually accounted for in studies.

Dr. Sharieff said many of her first-time patients end up in her office due to a heart attack or stroke because they were previously uninsured and did not have access to primary care. “We need to begin leveraging trust with people in communities – meeting people where they are,” to educate them about hypertension and other health issues, she said.

A shining example of community engagement to reduce hypertension in Black communities was the Cedars-Sinai Barbershop Study, where 52 barbershops in Los Angeles implemented blood pressure checks and interventions among customers. A year later, the project was still working.

“Once we can identify the health problems in Black communities,” said Dr. Sharieff, “we can treat them.”

Dr. Otite and Dr. Sharieff report no relevant financial relationships.

A version of this article first appeared on Medscape.com.