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More Isn’t Better With Acute Low Back Pain Treatment
PRACTICE CHANGER
Consider treating patients with acute low back pain with naproxen only, as adding cyclobenzaprine or oxycodone/acetaminophen to scheduled naproxen increases adverse effects and does not improve functional assessment at seven days or three months.
Strength of Recommendation
B: Based on a high-quality, randomized controlled trial (RCT).1
A 46-year-old man presents to the emergency department (ED) with low back pain (LBP) after helping a friend move a couch three days ago. He denies any direct trauma to his back and describes the pain as a “spasm” in his lumbar spinal region with no radicular symptoms. The pain worsens with prolonged standing and position changes. He has tried acetaminophen with no benefit. You diagnose a lumbar muscular strain. What medications should you prescribe to help relieve his LBP and improve his overall function?
Acute LBP prompts nearly 2.7 million ED visits in the United States each year.2 It leads to persistent subjective impairment and continued analgesic use at seven days (impairment, 70%; analgesic use, 69%) and three months (48% and 46%, respectively) after ED discharge.3 Systematic reviews show that monotherapy with NSAIDs or muscle relaxants is more effective than placebo for pain relief.4,5 A secondary analysis of patients (N = 715) from a prospective cohort study showed worse functioning at six months in those who were prescribed opiates for LBP than in those who were not.6
Monotherapy or combination therapy for LBP?
Because medications used for LBP have different mechanisms of action, clinicians frequently combine them in an attempt to improve symptoms and function.2 Current evidence on combination therapy shows mixed results. A large RCT (N = 867) showed that the combination of cyclobenzaprine and ibuprofen led to lower subjective pain intensity, but it did not result in self-reported pain improvement, compared to cyclobenzaprine alone. However, a small RCT (N = 40) demonstrated improved LBP and spasm with naprozen plus cyclobenzaprine, compared to naproxen alone.7,8
This study sought to determine the benefit of treating acute LBP with cyclobenzaprine or oxycodone/acetaminophen in combination with an NSAID, compared to treatment with an NSAID alone.
Continue for the study summary >>
STUDY SUMMARY
Adding second pain reliever provided no significant benefit
This double-blinded RCT enrolled 323 adults presenting to an ED with two weeks or less of nontraumatic, nonradicular LBP.1 Subjects had a score of > 5 on the Roland-Morris Disability Questionnaire (RMDQ), which measures functional impairment due to LBP (range, 0-24). Patients were excluded if they had radicular pain radiating below the gluteal folds, direct trauma to the back within the previous month, pain lasting > 2 wk, a recent history of multiple LBP episodes per month, or a history of opioid use.
All subjects received 10 days’ worth of naproxen (500 mg bid). They were then randomized to receive either oxycodone/acetaminophen (5 mg/325 mg), cyclobenzaprine (5 mg), or placebo, with instructions to take one to two tablets as needed every eight hours for 10 days. All patients also received a 10-minute educational session emphasizing the role of nonpharmacologic interventions.
The primary outcome was change in the RMDQ between ED discharge and a phone call seven days later; a 5-point improvement in the RMDQ was considered clinically significant. Secondary outcomes included subjective description of worst pain, frequency of LBP, frequency of analgesic use, satisfaction with treatment, median number of days to return to work and usual activities, need for follow-up health care visits, and opioid use. Investigators also asked about any adverse effects.
At seven days, reported RMDQ scores had improved by 9.8 points in patients taking naproxen plus placebo, 10.1 points in those receiving naproxen plus cyclobenzaprine, and 11.1 points in those using naproxen plus oxycodone/acetaminophen. There were no statistically significant between-group differences for placebo vs cyclobenzaprine or oxycodone/acetaminophen (0.3 points and 1.3 points, respectively) or cyclobenzaprine vs oxycodone/acetaminophen (0.9 points).
Secondary outcomes. At seven days, there was no significant difference between study groups in subjective pain assessment, frequency of LBP, or use of as-needed medications in the prior 24 hours. There was also no difference in the median number of days to return to work or need for follow-up health care visits.
Among patients who took more than one dose of the study medication, those who took oxycodone/acetaminophen were more likely to describe their worst pain in the last 24 hours as mild/none, compared to patients taking placebo (number needed to treat, 6). About 72% of all subjects reported that they would choose the same treatment option again, with no difference between groups. At three months, there was no difference between groups in subjective pain assessment, frequency of LBP, use of as-needed medications, or opioid use during the previous 72 hours.
Adverse effects, including drowsiness, dizziness, stomach irritation, and nausea or vomiting, were more common in the oxycodone/acetaminophen and the cyclobenzaprine treatment groups, with a number needed to harm of 5.3 and 7.8, respectively.
Continue for what's new >>
WHAT’S NEW
Second med adds nothing
This RCT found that adding cyclobenzaprine or oxycodone/acetaminophen to naproxen for the treatment of nontraumatic, nonradicular acute LBP did not significantly improve functional assessment at seven days or three months after the initial ED visit. But it did increase adverse effects.
CAVEATS
Specific subset studied
This study was performed in a single urban ED and included a very specific subset of LBP patients, which limits the generalizability of the results. However, patients often present to primary care with similar LBP complaints, and the results of the study should reasonably apply to other settings.
The findings may not generalize to all NSAIDs, but there is no evidence to suggest that other NSAIDs would behave differently when combined with cyclobenzaprine or oxycodone/acetaminophen. In this analysis, only about one-third of patients used the as-needed medication more than once daily; another third used it intermittently or never.
CHALLENGES TO IMPLEMENTATION
Patients may expect more
Patients expect to receive prescriptions, and clinicians are inclined to write them if they believe doing so will help their patients. The evidence, however, does not demonstrate a benefit to these prescription-only medications for LBP.
REFERENCES
1. Friedman BW, Dym AA, Davitt M, et al. Naproxen with cyclobenzaprine, oxycodone/acetaminophen, or placebo for treating acute low back pain: a randomized clinical trial. JAMA. 2015;314:1572-1580.
2. Friedman BW, Chilstrom M, Bijur PE, et al. Diagnostic testing and treatment of low back pain in United States emergency departments: a national perspective. Spine (Phila Pa 1976). 2010;35:E1406-E1411.
3. Friedman BW, O’Mahony S, Mulvey L, et al. One-week and 3-month outcomes after an emergency department visit for undifferentiated musculoskeletal low back pain. Ann Emerg Med. 2012;59:128-133.
4. Roelofs PD, Deyo RA, Koes BW, et al. Nonsteroidal anti-inflammatory drugs for low back pain: an updated Cochrane review. Spine (Phila Pa 1976). 2008;33:1766-1774.
5. van Tulder MW, Touray T, Furlan AD, et al. Muscle relaxants for nonspecific low back pain: a systematic review within the framework of the Cochrane collaboration. Spine (Phila Pa 1976). 2003;28:1978-1992.
6. Ashworth J, Green DJ, Dunn KM, et al. Opioid use among low back pain patients in primary care: is opioid prescription associated with disability at 6-month follow-up? Pain. 2013; 154:1038-1044.
7. Childers MK, Borenstein D, Brown RL, et al. Low-dose cyclobenzaprine versus combination therapy with ibuprofen for acute neck or back pain with muscle spasm: a randomized trial. Curr Med Res Opin. 2005;21:1485-1493.
8. Borenstein DG, Lacks S, Wiesel SW. Cyclobenzaprine and naproxen versus naproxen alone in the treatment of acute low back pain and muscle spasm. Clin Ther. 1990;12:125-131.
ACKNOWLEDGEMENT
The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.
Copyright © 2016. The Family Physicians Inquiries Network. All rights reserved.
Reprinted with permission from the Family Physicians Inquiries Network and The Journal of Family Practice. 2016;65(6):404-406.
PRACTICE CHANGER
Consider treating patients with acute low back pain with naproxen only, as adding cyclobenzaprine or oxycodone/acetaminophen to scheduled naproxen increases adverse effects and does not improve functional assessment at seven days or three months.
Strength of Recommendation
B: Based on a high-quality, randomized controlled trial (RCT).1
A 46-year-old man presents to the emergency department (ED) with low back pain (LBP) after helping a friend move a couch three days ago. He denies any direct trauma to his back and describes the pain as a “spasm” in his lumbar spinal region with no radicular symptoms. The pain worsens with prolonged standing and position changes. He has tried acetaminophen with no benefit. You diagnose a lumbar muscular strain. What medications should you prescribe to help relieve his LBP and improve his overall function?
Acute LBP prompts nearly 2.7 million ED visits in the United States each year.2 It leads to persistent subjective impairment and continued analgesic use at seven days (impairment, 70%; analgesic use, 69%) and three months (48% and 46%, respectively) after ED discharge.3 Systematic reviews show that monotherapy with NSAIDs or muscle relaxants is more effective than placebo for pain relief.4,5 A secondary analysis of patients (N = 715) from a prospective cohort study showed worse functioning at six months in those who were prescribed opiates for LBP than in those who were not.6
Monotherapy or combination therapy for LBP?
Because medications used for LBP have different mechanisms of action, clinicians frequently combine them in an attempt to improve symptoms and function.2 Current evidence on combination therapy shows mixed results. A large RCT (N = 867) showed that the combination of cyclobenzaprine and ibuprofen led to lower subjective pain intensity, but it did not result in self-reported pain improvement, compared to cyclobenzaprine alone. However, a small RCT (N = 40) demonstrated improved LBP and spasm with naprozen plus cyclobenzaprine, compared to naproxen alone.7,8
This study sought to determine the benefit of treating acute LBP with cyclobenzaprine or oxycodone/acetaminophen in combination with an NSAID, compared to treatment with an NSAID alone.
Continue for the study summary >>
STUDY SUMMARY
Adding second pain reliever provided no significant benefit
This double-blinded RCT enrolled 323 adults presenting to an ED with two weeks or less of nontraumatic, nonradicular LBP.1 Subjects had a score of > 5 on the Roland-Morris Disability Questionnaire (RMDQ), which measures functional impairment due to LBP (range, 0-24). Patients were excluded if they had radicular pain radiating below the gluteal folds, direct trauma to the back within the previous month, pain lasting > 2 wk, a recent history of multiple LBP episodes per month, or a history of opioid use.
All subjects received 10 days’ worth of naproxen (500 mg bid). They were then randomized to receive either oxycodone/acetaminophen (5 mg/325 mg), cyclobenzaprine (5 mg), or placebo, with instructions to take one to two tablets as needed every eight hours for 10 days. All patients also received a 10-minute educational session emphasizing the role of nonpharmacologic interventions.
The primary outcome was change in the RMDQ between ED discharge and a phone call seven days later; a 5-point improvement in the RMDQ was considered clinically significant. Secondary outcomes included subjective description of worst pain, frequency of LBP, frequency of analgesic use, satisfaction with treatment, median number of days to return to work and usual activities, need for follow-up health care visits, and opioid use. Investigators also asked about any adverse effects.
At seven days, reported RMDQ scores had improved by 9.8 points in patients taking naproxen plus placebo, 10.1 points in those receiving naproxen plus cyclobenzaprine, and 11.1 points in those using naproxen plus oxycodone/acetaminophen. There were no statistically significant between-group differences for placebo vs cyclobenzaprine or oxycodone/acetaminophen (0.3 points and 1.3 points, respectively) or cyclobenzaprine vs oxycodone/acetaminophen (0.9 points).
Secondary outcomes. At seven days, there was no significant difference between study groups in subjective pain assessment, frequency of LBP, or use of as-needed medications in the prior 24 hours. There was also no difference in the median number of days to return to work or need for follow-up health care visits.
Among patients who took more than one dose of the study medication, those who took oxycodone/acetaminophen were more likely to describe their worst pain in the last 24 hours as mild/none, compared to patients taking placebo (number needed to treat, 6). About 72% of all subjects reported that they would choose the same treatment option again, with no difference between groups. At three months, there was no difference between groups in subjective pain assessment, frequency of LBP, use of as-needed medications, or opioid use during the previous 72 hours.
Adverse effects, including drowsiness, dizziness, stomach irritation, and nausea or vomiting, were more common in the oxycodone/acetaminophen and the cyclobenzaprine treatment groups, with a number needed to harm of 5.3 and 7.8, respectively.
Continue for what's new >>
WHAT’S NEW
Second med adds nothing
This RCT found that adding cyclobenzaprine or oxycodone/acetaminophen to naproxen for the treatment of nontraumatic, nonradicular acute LBP did not significantly improve functional assessment at seven days or three months after the initial ED visit. But it did increase adverse effects.
CAVEATS
Specific subset studied
This study was performed in a single urban ED and included a very specific subset of LBP patients, which limits the generalizability of the results. However, patients often present to primary care with similar LBP complaints, and the results of the study should reasonably apply to other settings.
The findings may not generalize to all NSAIDs, but there is no evidence to suggest that other NSAIDs would behave differently when combined with cyclobenzaprine or oxycodone/acetaminophen. In this analysis, only about one-third of patients used the as-needed medication more than once daily; another third used it intermittently or never.
CHALLENGES TO IMPLEMENTATION
Patients may expect more
Patients expect to receive prescriptions, and clinicians are inclined to write them if they believe doing so will help their patients. The evidence, however, does not demonstrate a benefit to these prescription-only medications for LBP.
REFERENCES
1. Friedman BW, Dym AA, Davitt M, et al. Naproxen with cyclobenzaprine, oxycodone/acetaminophen, or placebo for treating acute low back pain: a randomized clinical trial. JAMA. 2015;314:1572-1580.
2. Friedman BW, Chilstrom M, Bijur PE, et al. Diagnostic testing and treatment of low back pain in United States emergency departments: a national perspective. Spine (Phila Pa 1976). 2010;35:E1406-E1411.
3. Friedman BW, O’Mahony S, Mulvey L, et al. One-week and 3-month outcomes after an emergency department visit for undifferentiated musculoskeletal low back pain. Ann Emerg Med. 2012;59:128-133.
4. Roelofs PD, Deyo RA, Koes BW, et al. Nonsteroidal anti-inflammatory drugs for low back pain: an updated Cochrane review. Spine (Phila Pa 1976). 2008;33:1766-1774.
5. van Tulder MW, Touray T, Furlan AD, et al. Muscle relaxants for nonspecific low back pain: a systematic review within the framework of the Cochrane collaboration. Spine (Phila Pa 1976). 2003;28:1978-1992.
6. Ashworth J, Green DJ, Dunn KM, et al. Opioid use among low back pain patients in primary care: is opioid prescription associated with disability at 6-month follow-up? Pain. 2013; 154:1038-1044.
7. Childers MK, Borenstein D, Brown RL, et al. Low-dose cyclobenzaprine versus combination therapy with ibuprofen for acute neck or back pain with muscle spasm: a randomized trial. Curr Med Res Opin. 2005;21:1485-1493.
8. Borenstein DG, Lacks S, Wiesel SW. Cyclobenzaprine and naproxen versus naproxen alone in the treatment of acute low back pain and muscle spasm. Clin Ther. 1990;12:125-131.
ACKNOWLEDGEMENT
The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.
Copyright © 2016. The Family Physicians Inquiries Network. All rights reserved.
Reprinted with permission from the Family Physicians Inquiries Network and The Journal of Family Practice. 2016;65(6):404-406.
PRACTICE CHANGER
Consider treating patients with acute low back pain with naproxen only, as adding cyclobenzaprine or oxycodone/acetaminophen to scheduled naproxen increases adverse effects and does not improve functional assessment at seven days or three months.
Strength of Recommendation
B: Based on a high-quality, randomized controlled trial (RCT).1
A 46-year-old man presents to the emergency department (ED) with low back pain (LBP) after helping a friend move a couch three days ago. He denies any direct trauma to his back and describes the pain as a “spasm” in his lumbar spinal region with no radicular symptoms. The pain worsens with prolonged standing and position changes. He has tried acetaminophen with no benefit. You diagnose a lumbar muscular strain. What medications should you prescribe to help relieve his LBP and improve his overall function?
Acute LBP prompts nearly 2.7 million ED visits in the United States each year.2 It leads to persistent subjective impairment and continued analgesic use at seven days (impairment, 70%; analgesic use, 69%) and three months (48% and 46%, respectively) after ED discharge.3 Systematic reviews show that monotherapy with NSAIDs or muscle relaxants is more effective than placebo for pain relief.4,5 A secondary analysis of patients (N = 715) from a prospective cohort study showed worse functioning at six months in those who were prescribed opiates for LBP than in those who were not.6
Monotherapy or combination therapy for LBP?
Because medications used for LBP have different mechanisms of action, clinicians frequently combine them in an attempt to improve symptoms and function.2 Current evidence on combination therapy shows mixed results. A large RCT (N = 867) showed that the combination of cyclobenzaprine and ibuprofen led to lower subjective pain intensity, but it did not result in self-reported pain improvement, compared to cyclobenzaprine alone. However, a small RCT (N = 40) demonstrated improved LBP and spasm with naprozen plus cyclobenzaprine, compared to naproxen alone.7,8
This study sought to determine the benefit of treating acute LBP with cyclobenzaprine or oxycodone/acetaminophen in combination with an NSAID, compared to treatment with an NSAID alone.
Continue for the study summary >>
STUDY SUMMARY
Adding second pain reliever provided no significant benefit
This double-blinded RCT enrolled 323 adults presenting to an ED with two weeks or less of nontraumatic, nonradicular LBP.1 Subjects had a score of > 5 on the Roland-Morris Disability Questionnaire (RMDQ), which measures functional impairment due to LBP (range, 0-24). Patients were excluded if they had radicular pain radiating below the gluteal folds, direct trauma to the back within the previous month, pain lasting > 2 wk, a recent history of multiple LBP episodes per month, or a history of opioid use.
All subjects received 10 days’ worth of naproxen (500 mg bid). They were then randomized to receive either oxycodone/acetaminophen (5 mg/325 mg), cyclobenzaprine (5 mg), or placebo, with instructions to take one to two tablets as needed every eight hours for 10 days. All patients also received a 10-minute educational session emphasizing the role of nonpharmacologic interventions.
The primary outcome was change in the RMDQ between ED discharge and a phone call seven days later; a 5-point improvement in the RMDQ was considered clinically significant. Secondary outcomes included subjective description of worst pain, frequency of LBP, frequency of analgesic use, satisfaction with treatment, median number of days to return to work and usual activities, need for follow-up health care visits, and opioid use. Investigators also asked about any adverse effects.
At seven days, reported RMDQ scores had improved by 9.8 points in patients taking naproxen plus placebo, 10.1 points in those receiving naproxen plus cyclobenzaprine, and 11.1 points in those using naproxen plus oxycodone/acetaminophen. There were no statistically significant between-group differences for placebo vs cyclobenzaprine or oxycodone/acetaminophen (0.3 points and 1.3 points, respectively) or cyclobenzaprine vs oxycodone/acetaminophen (0.9 points).
Secondary outcomes. At seven days, there was no significant difference between study groups in subjective pain assessment, frequency of LBP, or use of as-needed medications in the prior 24 hours. There was also no difference in the median number of days to return to work or need for follow-up health care visits.
Among patients who took more than one dose of the study medication, those who took oxycodone/acetaminophen were more likely to describe their worst pain in the last 24 hours as mild/none, compared to patients taking placebo (number needed to treat, 6). About 72% of all subjects reported that they would choose the same treatment option again, with no difference between groups. At three months, there was no difference between groups in subjective pain assessment, frequency of LBP, use of as-needed medications, or opioid use during the previous 72 hours.
Adverse effects, including drowsiness, dizziness, stomach irritation, and nausea or vomiting, were more common in the oxycodone/acetaminophen and the cyclobenzaprine treatment groups, with a number needed to harm of 5.3 and 7.8, respectively.
Continue for what's new >>
WHAT’S NEW
Second med adds nothing
This RCT found that adding cyclobenzaprine or oxycodone/acetaminophen to naproxen for the treatment of nontraumatic, nonradicular acute LBP did not significantly improve functional assessment at seven days or three months after the initial ED visit. But it did increase adverse effects.
CAVEATS
Specific subset studied
This study was performed in a single urban ED and included a very specific subset of LBP patients, which limits the generalizability of the results. However, patients often present to primary care with similar LBP complaints, and the results of the study should reasonably apply to other settings.
The findings may not generalize to all NSAIDs, but there is no evidence to suggest that other NSAIDs would behave differently when combined with cyclobenzaprine or oxycodone/acetaminophen. In this analysis, only about one-third of patients used the as-needed medication more than once daily; another third used it intermittently or never.
CHALLENGES TO IMPLEMENTATION
Patients may expect more
Patients expect to receive prescriptions, and clinicians are inclined to write them if they believe doing so will help their patients. The evidence, however, does not demonstrate a benefit to these prescription-only medications for LBP.
REFERENCES
1. Friedman BW, Dym AA, Davitt M, et al. Naproxen with cyclobenzaprine, oxycodone/acetaminophen, or placebo for treating acute low back pain: a randomized clinical trial. JAMA. 2015;314:1572-1580.
2. Friedman BW, Chilstrom M, Bijur PE, et al. Diagnostic testing and treatment of low back pain in United States emergency departments: a national perspective. Spine (Phila Pa 1976). 2010;35:E1406-E1411.
3. Friedman BW, O’Mahony S, Mulvey L, et al. One-week and 3-month outcomes after an emergency department visit for undifferentiated musculoskeletal low back pain. Ann Emerg Med. 2012;59:128-133.
4. Roelofs PD, Deyo RA, Koes BW, et al. Nonsteroidal anti-inflammatory drugs for low back pain: an updated Cochrane review. Spine (Phila Pa 1976). 2008;33:1766-1774.
5. van Tulder MW, Touray T, Furlan AD, et al. Muscle relaxants for nonspecific low back pain: a systematic review within the framework of the Cochrane collaboration. Spine (Phila Pa 1976). 2003;28:1978-1992.
6. Ashworth J, Green DJ, Dunn KM, et al. Opioid use among low back pain patients in primary care: is opioid prescription associated with disability at 6-month follow-up? Pain. 2013; 154:1038-1044.
7. Childers MK, Borenstein D, Brown RL, et al. Low-dose cyclobenzaprine versus combination therapy with ibuprofen for acute neck or back pain with muscle spasm: a randomized trial. Curr Med Res Opin. 2005;21:1485-1493.
8. Borenstein DG, Lacks S, Wiesel SW. Cyclobenzaprine and naproxen versus naproxen alone in the treatment of acute low back pain and muscle spasm. Clin Ther. 1990;12:125-131.
ACKNOWLEDGEMENT
The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.
Copyright © 2016. The Family Physicians Inquiries Network. All rights reserved.
Reprinted with permission from the Family Physicians Inquiries Network and The Journal of Family Practice. 2016;65(6):404-406.
More isn’t better with acute low back pain treatment
Consider treating patients with acute low back pain with naproxen only, as adding cyclobenzaprine or oxycodone/acetaminophen to scheduled naproxen does not improve functional assessment at 7 days or 3 months and increases adverse effects.
Strength of recommendation
B: Based on a high-quality, randomized controlled trial (RCT).1
Friedman BW, Dym AA, Davitt M, et al. Naproxen with cyclobenzaprine, oxycodone/acetaminophen, or placebo for treating acute low back pain: a randomized clinical trial. JAMA. 2015;314:1572-1580.
Illustrative Case
A 46-year-old man presents to the emergency department (ED) with low back pain (LBP) after helping a friend move a couch 3 days earlier. He denies any direct trauma to his back and describes the pain as a spasm in his lumbar spinal region with no radicular symptoms. The pain worsens with prolonged standing and any position changes. He has tried acetaminophen with no benefit. You diagnose a lumbar muscular strain. What medications should you prescribe to help relieve his LBP and improve his overall function?
Acute LBP prompts close to 2.7 million ED visits annually in the United States.2 It leads to persistent subjective impairment and continued analgesic usage at 7 days (impairment 70%, analgesic use 69%) and at 3 months (48% and 46%, respectively) after ED discharge.3 Systematic reviews show that monotherapy with nonsteroidal anti-inflammatory drugs (NSAIDs) or muscle relaxers is better than placebo for relieving pain.4,5 A secondary analysis of patients (N=715) from a prospective cohort study showed that patients prescribed opiates for LBP had worse functioning at 6 months than those not prescribed opiates.6
Monotherapy or combination therapy for LBP? That is the question
Because medications used for LBP have different mechanisms of action, clinicians frequently combine them in an attempt to improve symptoms and function.2 Current evidence evaluating combination therapy demonstrates mixed results. A large RCT (N=867) showed that the combination of cyclobenzaprine and ibuprofen led to lower subjective pain intensity, but did not result in self-reported pain improvement (based on answers to the Patient Global Impression of Change and the Oswestry Disability Index) than cyclobenzaprine alone. However, a small RCT (N=40) combining naproxen with cyclobenzaprine demonstrated improved LBP and spasm compared to naproxen alone.7,8
This study sought to determine the benefit of treating acute LBP with cyclobenzaprine or oxycodone/acetaminophen in combination with an NSAID compared to treatment with an NSAID alone.
Study Summary
Adding second pain reliever to the NSAID provided no significant benefit
This double-blinded RCT enrolled 323 adult patients presenting to an ED with ≤2 weeks of nontraumatic, nonradicular LBP, which was defined as pain between the lower border of the scapulae and the upper gluteal folds.1 Participants had a score of >5 on the Roland-Morris Disability Questionnaire (RMDQ), which measures functional impairment due to LBP (range: 0-24). Patients were excluded if they had radicular pain radiating below the gluteal folds, direct trauma to the back within the previous month, pain duration >2 weeks, or a recent history of >1 LBP episode per month. Patients with current or past chronic opioid use were also excluded.
All participants received 10 days’ worth of naproxen (500 mg twice daily). They were then randomized to receive either: oxycodone 5 mg/acetaminophen 325 mg; cyclobenzaprine 5 mg; or placebo, with instructions to take one to 2 tablets prn every 8 hours for 10 days. They were told that if one tablet afforded sufficient relief, there was no need to take the second one, but if the first tablet did not provide relief within 30 minutes, they should take the second one. All patients also received a 10-minute educational session emphasizing the role of exercise, stretching, physical/massage therapy, and other non-pharmacologic interventions.
The primary outcome was change in the RMDQ between ED discharge and a phone call 7 days later, with a 5-point improvement in the RMDQ considered clinically significant. Secondary outcomes at 7 days and 3 months after ED discharge included subjective description of worst pain, frequency of LBP pain, frequency of analgesic use, satisfaction with treatment, median number of days to return to work and usual activities, need for follow-up health care visits, and opioid use. Investigators also asked about any adverse effects at 7 days and 3 months.
At 7 days, patients randomized to naproxen plus placebo improved on reported RMDQ scores by a mean of 9.8 points, naproxen plus cyclobenzaprine by 10.1 points, and naproxen plus oxycodone/acetaminophen by 11.1 points. Between group differences in mean RMDQ changes showed no statistically significant differences with placebo vs cyclobenzaprine (0.3 points; P=.77), placebo vs oxycodone/acetaminophen (1.3 points; P=.28), and cyclobenzaprine vs oxycodone/acetaminophen (0.9 points; P=.45).
Secondary outcomes. At 7 days, there was no significant difference between study groups in subjective pain assessment, frequency of LBP, or use of as-needed medications in the prior 24 hours. There was also no difference in the median number of days to return to work or need for follow-up health care visits. In patients who took more than one dose of the study medication, those who took oxycodone/acetaminophen were more likely to describe their worst pain in the last 24 hours as mild/none when compared to those taking placebo (number needed to treat [NNT]=6). About 72% of all subjects reported that they would choose the same treatment option again, with no difference between groups. At 3 months, no difference existed between groups in subjective pain assessment, frequency of LBP, use of as-needed medications, or opioid use during the previous 72 hours.
Adverse effects, including drowsiness, dizziness, stomach irritation, and nausea or vomiting, were more common in the oxycodone/acetaminophen and cyclobenzaprine treatment groups with a number needed to harm (NNH) of 5.3 and 7.8, respectively.
What’s New
A second pain reliever adds nothing—except adverse effects
This RCT found that adding cyclobenzaprine or oxycodone/acetaminophen to naproxen for the treatment of nontraumatic, nonradicular acute LBP did not significantly improve functional assessment based on RMDQ scores or pain measures at 7 days or 3 months after the initial ED visit. It did, however, increase adverse effects.
Caveats
Researchers studied a specific subset of patients
This study was performed in a single-site urban ED and included a very specific subset of LBP patients, which limits the generalizability of the results. However, patients often present to their primary care physician with similar LBP complaints, and the results of the study should reasonably apply to other settings.
The findings may not generalize to all NSAIDs, but there is no evidence to suggest that other NSAIDs would behave differently when combined with cyclobenzaprine or oxycodone/acetaminophen. In this intention-to-treat analysis, only about one-third of patients used the as-needed medication more than once daily; about another third of patients used the as-needed medication intermittently or never.
Challenges to Implementation
Patients may expect more than an NSAID for their back pain
Patients expect to receive prescriptions, and physicians are inclined to write them if they believe they will help their patients. The evidence, however, does not show a benefit to these prescription-only medications for low back pain.
ACKNOWLEDGEMENT
The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.
1. Friedman BW, Dym AA, Davitt M, et al. Naproxen with cyclobenzaprine, oxycodone/acetaminophen, or placebo for treating acute low back pain: a randomized clinical trial. JAMA. 2015;314:1572-1580.
2. Friedman BW, Chilstrom M, Bijur PE, et al. Diagnostic testing and treatment of low back pain in United States emergency departments: a national perspective. Spine (Phila Pa 1976). 2010;35:E1406-E1411.
3. Friedman BW, O’Mahony S, Mulvey L, et al. One-week and 3-month outcomes after an emergency department visit for undifferentiated musculoskeletal low back pain. Ann Emerg Med. 2012;59:128-133.
4. Roelofs PD, Deyo RA, Koes BW, et al. Nonsteroidal anti-inflammatory drugs for low back pain: an updated Cochrane review. Spine (Phila Pa 1976). 2008;33:1766-1774.
5. van Tulder MW, Touray T, Furlan AD, et al. Muscle relaxants for nonspecific low back pain: a systematic review within the framework of the cochrane collaboration. Spine (Phila Pa 1976). 2003;28:1978-1992.
6. Ashworth J, Green DJ, Dunn KM, et al. Opioid use among low back pain patients in primary care: is opioid prescription associated with disability at 6-month follow-up? Pain. 2013;154:1038-1044.
7. Childers MK, Borenstein D, Brown RL, et al. Low-dose cyclobenzaprine versus combination therapy with ibuprofen for acute neck or back pain with muscle spasm: a randomized trial. Curr Med Res Opin. 2005;21:1485-1493.
8. Borenstein DG, Lacks S, Wiesel SW. Cyclobenzaprine and naproxen versus naproxen alone in the treatment of acute low back pain and muscle spasm. Clin Ther. 1990;12:125-131.
Consider treating patients with acute low back pain with naproxen only, as adding cyclobenzaprine or oxycodone/acetaminophen to scheduled naproxen does not improve functional assessment at 7 days or 3 months and increases adverse effects.
Strength of recommendation
B: Based on a high-quality, randomized controlled trial (RCT).1
Friedman BW, Dym AA, Davitt M, et al. Naproxen with cyclobenzaprine, oxycodone/acetaminophen, or placebo for treating acute low back pain: a randomized clinical trial. JAMA. 2015;314:1572-1580.
Illustrative Case
A 46-year-old man presents to the emergency department (ED) with low back pain (LBP) after helping a friend move a couch 3 days earlier. He denies any direct trauma to his back and describes the pain as a spasm in his lumbar spinal region with no radicular symptoms. The pain worsens with prolonged standing and any position changes. He has tried acetaminophen with no benefit. You diagnose a lumbar muscular strain. What medications should you prescribe to help relieve his LBP and improve his overall function?
Acute LBP prompts close to 2.7 million ED visits annually in the United States.2 It leads to persistent subjective impairment and continued analgesic usage at 7 days (impairment 70%, analgesic use 69%) and at 3 months (48% and 46%, respectively) after ED discharge.3 Systematic reviews show that monotherapy with nonsteroidal anti-inflammatory drugs (NSAIDs) or muscle relaxers is better than placebo for relieving pain.4,5 A secondary analysis of patients (N=715) from a prospective cohort study showed that patients prescribed opiates for LBP had worse functioning at 6 months than those not prescribed opiates.6
Monotherapy or combination therapy for LBP? That is the question
Because medications used for LBP have different mechanisms of action, clinicians frequently combine them in an attempt to improve symptoms and function.2 Current evidence evaluating combination therapy demonstrates mixed results. A large RCT (N=867) showed that the combination of cyclobenzaprine and ibuprofen led to lower subjective pain intensity, but did not result in self-reported pain improvement (based on answers to the Patient Global Impression of Change and the Oswestry Disability Index) than cyclobenzaprine alone. However, a small RCT (N=40) combining naproxen with cyclobenzaprine demonstrated improved LBP and spasm compared to naproxen alone.7,8
This study sought to determine the benefit of treating acute LBP with cyclobenzaprine or oxycodone/acetaminophen in combination with an NSAID compared to treatment with an NSAID alone.
Study Summary
Adding second pain reliever to the NSAID provided no significant benefit
This double-blinded RCT enrolled 323 adult patients presenting to an ED with ≤2 weeks of nontraumatic, nonradicular LBP, which was defined as pain between the lower border of the scapulae and the upper gluteal folds.1 Participants had a score of >5 on the Roland-Morris Disability Questionnaire (RMDQ), which measures functional impairment due to LBP (range: 0-24). Patients were excluded if they had radicular pain radiating below the gluteal folds, direct trauma to the back within the previous month, pain duration >2 weeks, or a recent history of >1 LBP episode per month. Patients with current or past chronic opioid use were also excluded.
All participants received 10 days’ worth of naproxen (500 mg twice daily). They were then randomized to receive either: oxycodone 5 mg/acetaminophen 325 mg; cyclobenzaprine 5 mg; or placebo, with instructions to take one to 2 tablets prn every 8 hours for 10 days. They were told that if one tablet afforded sufficient relief, there was no need to take the second one, but if the first tablet did not provide relief within 30 minutes, they should take the second one. All patients also received a 10-minute educational session emphasizing the role of exercise, stretching, physical/massage therapy, and other non-pharmacologic interventions.
The primary outcome was change in the RMDQ between ED discharge and a phone call 7 days later, with a 5-point improvement in the RMDQ considered clinically significant. Secondary outcomes at 7 days and 3 months after ED discharge included subjective description of worst pain, frequency of LBP pain, frequency of analgesic use, satisfaction with treatment, median number of days to return to work and usual activities, need for follow-up health care visits, and opioid use. Investigators also asked about any adverse effects at 7 days and 3 months.
At 7 days, patients randomized to naproxen plus placebo improved on reported RMDQ scores by a mean of 9.8 points, naproxen plus cyclobenzaprine by 10.1 points, and naproxen plus oxycodone/acetaminophen by 11.1 points. Between group differences in mean RMDQ changes showed no statistically significant differences with placebo vs cyclobenzaprine (0.3 points; P=.77), placebo vs oxycodone/acetaminophen (1.3 points; P=.28), and cyclobenzaprine vs oxycodone/acetaminophen (0.9 points; P=.45).
Secondary outcomes. At 7 days, there was no significant difference between study groups in subjective pain assessment, frequency of LBP, or use of as-needed medications in the prior 24 hours. There was also no difference in the median number of days to return to work or need for follow-up health care visits. In patients who took more than one dose of the study medication, those who took oxycodone/acetaminophen were more likely to describe their worst pain in the last 24 hours as mild/none when compared to those taking placebo (number needed to treat [NNT]=6). About 72% of all subjects reported that they would choose the same treatment option again, with no difference between groups. At 3 months, no difference existed between groups in subjective pain assessment, frequency of LBP, use of as-needed medications, or opioid use during the previous 72 hours.
Adverse effects, including drowsiness, dizziness, stomach irritation, and nausea or vomiting, were more common in the oxycodone/acetaminophen and cyclobenzaprine treatment groups with a number needed to harm (NNH) of 5.3 and 7.8, respectively.
What’s New
A second pain reliever adds nothing—except adverse effects
This RCT found that adding cyclobenzaprine or oxycodone/acetaminophen to naproxen for the treatment of nontraumatic, nonradicular acute LBP did not significantly improve functional assessment based on RMDQ scores or pain measures at 7 days or 3 months after the initial ED visit. It did, however, increase adverse effects.
Caveats
Researchers studied a specific subset of patients
This study was performed in a single-site urban ED and included a very specific subset of LBP patients, which limits the generalizability of the results. However, patients often present to their primary care physician with similar LBP complaints, and the results of the study should reasonably apply to other settings.
The findings may not generalize to all NSAIDs, but there is no evidence to suggest that other NSAIDs would behave differently when combined with cyclobenzaprine or oxycodone/acetaminophen. In this intention-to-treat analysis, only about one-third of patients used the as-needed medication more than once daily; about another third of patients used the as-needed medication intermittently or never.
Challenges to Implementation
Patients may expect more than an NSAID for their back pain
Patients expect to receive prescriptions, and physicians are inclined to write them if they believe they will help their patients. The evidence, however, does not show a benefit to these prescription-only medications for low back pain.
ACKNOWLEDGEMENT
The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.
Consider treating patients with acute low back pain with naproxen only, as adding cyclobenzaprine or oxycodone/acetaminophen to scheduled naproxen does not improve functional assessment at 7 days or 3 months and increases adverse effects.
Strength of recommendation
B: Based on a high-quality, randomized controlled trial (RCT).1
Friedman BW, Dym AA, Davitt M, et al. Naproxen with cyclobenzaprine, oxycodone/acetaminophen, or placebo for treating acute low back pain: a randomized clinical trial. JAMA. 2015;314:1572-1580.
Illustrative Case
A 46-year-old man presents to the emergency department (ED) with low back pain (LBP) after helping a friend move a couch 3 days earlier. He denies any direct trauma to his back and describes the pain as a spasm in his lumbar spinal region with no radicular symptoms. The pain worsens with prolonged standing and any position changes. He has tried acetaminophen with no benefit. You diagnose a lumbar muscular strain. What medications should you prescribe to help relieve his LBP and improve his overall function?
Acute LBP prompts close to 2.7 million ED visits annually in the United States.2 It leads to persistent subjective impairment and continued analgesic usage at 7 days (impairment 70%, analgesic use 69%) and at 3 months (48% and 46%, respectively) after ED discharge.3 Systematic reviews show that monotherapy with nonsteroidal anti-inflammatory drugs (NSAIDs) or muscle relaxers is better than placebo for relieving pain.4,5 A secondary analysis of patients (N=715) from a prospective cohort study showed that patients prescribed opiates for LBP had worse functioning at 6 months than those not prescribed opiates.6
Monotherapy or combination therapy for LBP? That is the question
Because medications used for LBP have different mechanisms of action, clinicians frequently combine them in an attempt to improve symptoms and function.2 Current evidence evaluating combination therapy demonstrates mixed results. A large RCT (N=867) showed that the combination of cyclobenzaprine and ibuprofen led to lower subjective pain intensity, but did not result in self-reported pain improvement (based on answers to the Patient Global Impression of Change and the Oswestry Disability Index) than cyclobenzaprine alone. However, a small RCT (N=40) combining naproxen with cyclobenzaprine demonstrated improved LBP and spasm compared to naproxen alone.7,8
This study sought to determine the benefit of treating acute LBP with cyclobenzaprine or oxycodone/acetaminophen in combination with an NSAID compared to treatment with an NSAID alone.
Study Summary
Adding second pain reliever to the NSAID provided no significant benefit
This double-blinded RCT enrolled 323 adult patients presenting to an ED with ≤2 weeks of nontraumatic, nonradicular LBP, which was defined as pain between the lower border of the scapulae and the upper gluteal folds.1 Participants had a score of >5 on the Roland-Morris Disability Questionnaire (RMDQ), which measures functional impairment due to LBP (range: 0-24). Patients were excluded if they had radicular pain radiating below the gluteal folds, direct trauma to the back within the previous month, pain duration >2 weeks, or a recent history of >1 LBP episode per month. Patients with current or past chronic opioid use were also excluded.
All participants received 10 days’ worth of naproxen (500 mg twice daily). They were then randomized to receive either: oxycodone 5 mg/acetaminophen 325 mg; cyclobenzaprine 5 mg; or placebo, with instructions to take one to 2 tablets prn every 8 hours for 10 days. They were told that if one tablet afforded sufficient relief, there was no need to take the second one, but if the first tablet did not provide relief within 30 minutes, they should take the second one. All patients also received a 10-minute educational session emphasizing the role of exercise, stretching, physical/massage therapy, and other non-pharmacologic interventions.
The primary outcome was change in the RMDQ between ED discharge and a phone call 7 days later, with a 5-point improvement in the RMDQ considered clinically significant. Secondary outcomes at 7 days and 3 months after ED discharge included subjective description of worst pain, frequency of LBP pain, frequency of analgesic use, satisfaction with treatment, median number of days to return to work and usual activities, need for follow-up health care visits, and opioid use. Investigators also asked about any adverse effects at 7 days and 3 months.
At 7 days, patients randomized to naproxen plus placebo improved on reported RMDQ scores by a mean of 9.8 points, naproxen plus cyclobenzaprine by 10.1 points, and naproxen plus oxycodone/acetaminophen by 11.1 points. Between group differences in mean RMDQ changes showed no statistically significant differences with placebo vs cyclobenzaprine (0.3 points; P=.77), placebo vs oxycodone/acetaminophen (1.3 points; P=.28), and cyclobenzaprine vs oxycodone/acetaminophen (0.9 points; P=.45).
Secondary outcomes. At 7 days, there was no significant difference between study groups in subjective pain assessment, frequency of LBP, or use of as-needed medications in the prior 24 hours. There was also no difference in the median number of days to return to work or need for follow-up health care visits. In patients who took more than one dose of the study medication, those who took oxycodone/acetaminophen were more likely to describe their worst pain in the last 24 hours as mild/none when compared to those taking placebo (number needed to treat [NNT]=6). About 72% of all subjects reported that they would choose the same treatment option again, with no difference between groups. At 3 months, no difference existed between groups in subjective pain assessment, frequency of LBP, use of as-needed medications, or opioid use during the previous 72 hours.
Adverse effects, including drowsiness, dizziness, stomach irritation, and nausea or vomiting, were more common in the oxycodone/acetaminophen and cyclobenzaprine treatment groups with a number needed to harm (NNH) of 5.3 and 7.8, respectively.
What’s New
A second pain reliever adds nothing—except adverse effects
This RCT found that adding cyclobenzaprine or oxycodone/acetaminophen to naproxen for the treatment of nontraumatic, nonradicular acute LBP did not significantly improve functional assessment based on RMDQ scores or pain measures at 7 days or 3 months after the initial ED visit. It did, however, increase adverse effects.
Caveats
Researchers studied a specific subset of patients
This study was performed in a single-site urban ED and included a very specific subset of LBP patients, which limits the generalizability of the results. However, patients often present to their primary care physician with similar LBP complaints, and the results of the study should reasonably apply to other settings.
The findings may not generalize to all NSAIDs, but there is no evidence to suggest that other NSAIDs would behave differently when combined with cyclobenzaprine or oxycodone/acetaminophen. In this intention-to-treat analysis, only about one-third of patients used the as-needed medication more than once daily; about another third of patients used the as-needed medication intermittently or never.
Challenges to Implementation
Patients may expect more than an NSAID for their back pain
Patients expect to receive prescriptions, and physicians are inclined to write them if they believe they will help their patients. The evidence, however, does not show a benefit to these prescription-only medications for low back pain.
ACKNOWLEDGEMENT
The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.
1. Friedman BW, Dym AA, Davitt M, et al. Naproxen with cyclobenzaprine, oxycodone/acetaminophen, or placebo for treating acute low back pain: a randomized clinical trial. JAMA. 2015;314:1572-1580.
2. Friedman BW, Chilstrom M, Bijur PE, et al. Diagnostic testing and treatment of low back pain in United States emergency departments: a national perspective. Spine (Phila Pa 1976). 2010;35:E1406-E1411.
3. Friedman BW, O’Mahony S, Mulvey L, et al. One-week and 3-month outcomes after an emergency department visit for undifferentiated musculoskeletal low back pain. Ann Emerg Med. 2012;59:128-133.
4. Roelofs PD, Deyo RA, Koes BW, et al. Nonsteroidal anti-inflammatory drugs for low back pain: an updated Cochrane review. Spine (Phila Pa 1976). 2008;33:1766-1774.
5. van Tulder MW, Touray T, Furlan AD, et al. Muscle relaxants for nonspecific low back pain: a systematic review within the framework of the cochrane collaboration. Spine (Phila Pa 1976). 2003;28:1978-1992.
6. Ashworth J, Green DJ, Dunn KM, et al. Opioid use among low back pain patients in primary care: is opioid prescription associated with disability at 6-month follow-up? Pain. 2013;154:1038-1044.
7. Childers MK, Borenstein D, Brown RL, et al. Low-dose cyclobenzaprine versus combination therapy with ibuprofen for acute neck or back pain with muscle spasm: a randomized trial. Curr Med Res Opin. 2005;21:1485-1493.
8. Borenstein DG, Lacks S, Wiesel SW. Cyclobenzaprine and naproxen versus naproxen alone in the treatment of acute low back pain and muscle spasm. Clin Ther. 1990;12:125-131.
1. Friedman BW, Dym AA, Davitt M, et al. Naproxen with cyclobenzaprine, oxycodone/acetaminophen, or placebo for treating acute low back pain: a randomized clinical trial. JAMA. 2015;314:1572-1580.
2. Friedman BW, Chilstrom M, Bijur PE, et al. Diagnostic testing and treatment of low back pain in United States emergency departments: a national perspective. Spine (Phila Pa 1976). 2010;35:E1406-E1411.
3. Friedman BW, O’Mahony S, Mulvey L, et al. One-week and 3-month outcomes after an emergency department visit for undifferentiated musculoskeletal low back pain. Ann Emerg Med. 2012;59:128-133.
4. Roelofs PD, Deyo RA, Koes BW, et al. Nonsteroidal anti-inflammatory drugs for low back pain: an updated Cochrane review. Spine (Phila Pa 1976). 2008;33:1766-1774.
5. van Tulder MW, Touray T, Furlan AD, et al. Muscle relaxants for nonspecific low back pain: a systematic review within the framework of the cochrane collaboration. Spine (Phila Pa 1976). 2003;28:1978-1992.
6. Ashworth J, Green DJ, Dunn KM, et al. Opioid use among low back pain patients in primary care: is opioid prescription associated with disability at 6-month follow-up? Pain. 2013;154:1038-1044.
7. Childers MK, Borenstein D, Brown RL, et al. Low-dose cyclobenzaprine versus combination therapy with ibuprofen for acute neck or back pain with muscle spasm: a randomized trial. Curr Med Res Opin. 2005;21:1485-1493.
8. Borenstein DG, Lacks S, Wiesel SW. Cyclobenzaprine and naproxen versus naproxen alone in the treatment of acute low back pain and muscle spasm. Clin Ther. 1990;12:125-131.
Copyright © 2016. The Family Physicians Inquiries Network. All rights reserved.
It’s Time to Reconsider Early-morning Testosterone Tests
PRACTICE CHANGER
Early-morning testosterone tests are necessary only for men younger than 45. Because the natural diurnal variation in testosterone levels tends to diminish with age, it is acceptable to test men ages 45 and older before 2 pm.1
STRENGTH OF RECOMMENDATION
B: Based on a retrospective cohort study.1
ILLUSTRATIVE CASE
You are finishing up a visit with a 62-year-old man who has erectile dysfunction (ED), and you want to evaluate for androgen deficiency. It’s already noon. Should you ask him to return for an early-morning visit so you can test his testosterone level?
Increasing public awareness of androgen deficiency has led to more men being tested for testosterone levels. Current Endocrine Society guidelines recommend against routine screening for androgen deficiency in men who do not have symptoms.2 However, for men with classic symptoms of androgen deficiency—such as decreased libido, ED, infertility, depression, osteoporosis, loss of secondary sexual characteristics, or reduced muscle bulk or strength—measurement of total testosterone level is recommended.2
Due to the natural diurnal variation in serum testosterone levels, the guidelines recommend collecting the sample in the early morning.2 This recommendation is based on small observational studies that included mostly men younger than 45, which found a significant difference in testosterone levels between samples drawn early in the morning and in the afternoon.3-5
In recent years, several studies have indicated that this variation declines as men age.4-6 Recently, researchers evaluated the effects of age and time of testing on men’s total testosterone levels.
STUDY SUMMARY
Differences in testosterone levels are significant only in younger men
Welliver et al1 performed a retrospective review of charts from a Minneapolis Veterans Affairs hospital. They identified 2,569 men seen for ED who had total testosterone levels measured between 7 AM and 2 PM in a 15-year period. Men whose total testosterone levels were outside the normal range (> 1,000 or < 50 ng/dL) or who had total testosterone drawn after 2 PM were excluded.
The authors analyzed the results based on age, creating one group for men younger than 40 and five-year age-groups for all other men. Using scatterplot techniques, they separated each age-group into two subgroups based on draw times—7 AM to 9 AM, or 9 AM to 2 PM—and compared the mean total testosterone level for each age and time.
Participants’ mean age was 63. Younger men (< 45) had the largest variation in serum total testosterone, with a large and significant decrease after 9 AM. Only the two youngest groups (ages < 40 and 40 to 44) showed a large decrease in total testosterone in specimens collected after 9 am, compared to those drawn earlier (mean difference, 207 and 149 ng/dL, respectively). This variation was not observed in patients older than 45. Although there was a statistically significant difference between early and later testosterone levels in men ages 70 to 74, the absolute difference—34 ng/dL (452 vs 418 ng/dL)—was unlikely to be clinically significant.
WHAT’S NEW
For older men, later testing will not affect results
This study confirms previous research indicating that the diurnal effect on testosterone levels becomes blunted with increasing age, at least in this group of men with ED. Allowing older men to have their total testosterone levels drawn until 2 PM would allow for greater patient flexibility in draw times, with little change in results.
CAVEATS
Study’s methodology cannot account for several potential confounders
This retrospective study analyzed a single random testosterone measurement from each participant, rather than repeat testosterone levels over the course of a day. However, the study was large (2,569 men) and used mean values, which should at least partially mitigate the effect of having only a single measurement from each participant.
The study measured total testosterone and did not account for potential confounding factors—such as obesity or use of testosterone replacement therapy or androgen deprivation therapy—that could affect sex hormone binding globulin, thus potentially altering total testosterone level. However, the authors estimated that less than 2% of the entire cohort was likely to have unrecognized hormonal manipulation with exogenous gonadotropins.
All of the men in the study were seen for ED, and it is possible that men with ED have more flattening of the diurnal variation than men without ED. However, we are unaware of other data that support this.
Up to 30% of men who have a low early-morning testosterone level may have a normal result when testing is repeated.2,5 Therefore, for all men who have low testosterone level test results, draw a repeat total testosterone level before 9 am to confirm the diagnosis. Also, this study did not evaluate the course of testosterone levels throughout the later afternoon and evening, and it remains unclear whether levels can be drawn even later in the day.
CHALLENGES TO IMPLEMENTATION
Your lab’s policies might require early-morning draws
There will probably be few barriers to implementing this change, unless local laboratory policies are inflexible regarding the timing of testosterone draws.
REFERENCES
1. Welliver RC Jr, Wiser HJ, Brannigan RE, et al. Validity of midday total testosterone levels in older men with erectile dysfunction. J Urol. 2014;192:165-169.
2. Bhasin S, Cunningham GR, Hayes FJ, et al. Testosterone therapy in men with androgen deficiency syndromes: an Endocrine Society clinical practice guideline. J Clin Endocrinol Metab. 2010;95:2536-2559.
3. Cooke RR, McIntosh JE, McIntosh RP. Circadian variation in serum free and non-SHBG-bound testosterone in normal men: measurements, and simulation using a mass action model. Clin Endocrinol (Oxf). 1993;39:163-171.
4. Bremner WJ, Vitiello MV, Prinz PN. Loss of circadian rhythmicity in blood testosterone levels with aging in normal men. J Clin Endocrinol Metab. 1983;56:1278-1281.
5. Brambilla DJ, Matsumoto AM, Araujo AB, et al. The effect of diurnal variation on clinical measurement of serum testosterone and other sex hormone levels in men. J Clin Endocrinol Metab. 2009;94:907-913.
6. Crawford ED, Barqawi AB, O’Donnell C, et al. The association of time of day and serum testosterone concentration in a large screening population. BJU Int. 2007;100:509-513.
ACKNOWLEDGEMENT
The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.
Copyright © 2015. The Family Physicians Inquiries Network. All rights reserved.
Reprinted with permission from the Family Physicians Inquiries Network and The Journal of Family Practice. 2015;64(7):418-419.
PRACTICE CHANGER
Early-morning testosterone tests are necessary only for men younger than 45. Because the natural diurnal variation in testosterone levels tends to diminish with age, it is acceptable to test men ages 45 and older before 2 pm.1
STRENGTH OF RECOMMENDATION
B: Based on a retrospective cohort study.1
ILLUSTRATIVE CASE
You are finishing up a visit with a 62-year-old man who has erectile dysfunction (ED), and you want to evaluate for androgen deficiency. It’s already noon. Should you ask him to return for an early-morning visit so you can test his testosterone level?
Increasing public awareness of androgen deficiency has led to more men being tested for testosterone levels. Current Endocrine Society guidelines recommend against routine screening for androgen deficiency in men who do not have symptoms.2 However, for men with classic symptoms of androgen deficiency—such as decreased libido, ED, infertility, depression, osteoporosis, loss of secondary sexual characteristics, or reduced muscle bulk or strength—measurement of total testosterone level is recommended.2
Due to the natural diurnal variation in serum testosterone levels, the guidelines recommend collecting the sample in the early morning.2 This recommendation is based on small observational studies that included mostly men younger than 45, which found a significant difference in testosterone levels between samples drawn early in the morning and in the afternoon.3-5
In recent years, several studies have indicated that this variation declines as men age.4-6 Recently, researchers evaluated the effects of age and time of testing on men’s total testosterone levels.
STUDY SUMMARY
Differences in testosterone levels are significant only in younger men
Welliver et al1 performed a retrospective review of charts from a Minneapolis Veterans Affairs hospital. They identified 2,569 men seen for ED who had total testosterone levels measured between 7 AM and 2 PM in a 15-year period. Men whose total testosterone levels were outside the normal range (> 1,000 or < 50 ng/dL) or who had total testosterone drawn after 2 PM were excluded.
The authors analyzed the results based on age, creating one group for men younger than 40 and five-year age-groups for all other men. Using scatterplot techniques, they separated each age-group into two subgroups based on draw times—7 AM to 9 AM, or 9 AM to 2 PM—and compared the mean total testosterone level for each age and time.
Participants’ mean age was 63. Younger men (< 45) had the largest variation in serum total testosterone, with a large and significant decrease after 9 AM. Only the two youngest groups (ages < 40 and 40 to 44) showed a large decrease in total testosterone in specimens collected after 9 am, compared to those drawn earlier (mean difference, 207 and 149 ng/dL, respectively). This variation was not observed in patients older than 45. Although there was a statistically significant difference between early and later testosterone levels in men ages 70 to 74, the absolute difference—34 ng/dL (452 vs 418 ng/dL)—was unlikely to be clinically significant.
WHAT’S NEW
For older men, later testing will not affect results
This study confirms previous research indicating that the diurnal effect on testosterone levels becomes blunted with increasing age, at least in this group of men with ED. Allowing older men to have their total testosterone levels drawn until 2 PM would allow for greater patient flexibility in draw times, with little change in results.
CAVEATS
Study’s methodology cannot account for several potential confounders
This retrospective study analyzed a single random testosterone measurement from each participant, rather than repeat testosterone levels over the course of a day. However, the study was large (2,569 men) and used mean values, which should at least partially mitigate the effect of having only a single measurement from each participant.
The study measured total testosterone and did not account for potential confounding factors—such as obesity or use of testosterone replacement therapy or androgen deprivation therapy—that could affect sex hormone binding globulin, thus potentially altering total testosterone level. However, the authors estimated that less than 2% of the entire cohort was likely to have unrecognized hormonal manipulation with exogenous gonadotropins.
All of the men in the study were seen for ED, and it is possible that men with ED have more flattening of the diurnal variation than men without ED. However, we are unaware of other data that support this.
Up to 30% of men who have a low early-morning testosterone level may have a normal result when testing is repeated.2,5 Therefore, for all men who have low testosterone level test results, draw a repeat total testosterone level before 9 am to confirm the diagnosis. Also, this study did not evaluate the course of testosterone levels throughout the later afternoon and evening, and it remains unclear whether levels can be drawn even later in the day.
CHALLENGES TO IMPLEMENTATION
Your lab’s policies might require early-morning draws
There will probably be few barriers to implementing this change, unless local laboratory policies are inflexible regarding the timing of testosterone draws.
REFERENCES
1. Welliver RC Jr, Wiser HJ, Brannigan RE, et al. Validity of midday total testosterone levels in older men with erectile dysfunction. J Urol. 2014;192:165-169.
2. Bhasin S, Cunningham GR, Hayes FJ, et al. Testosterone therapy in men with androgen deficiency syndromes: an Endocrine Society clinical practice guideline. J Clin Endocrinol Metab. 2010;95:2536-2559.
3. Cooke RR, McIntosh JE, McIntosh RP. Circadian variation in serum free and non-SHBG-bound testosterone in normal men: measurements, and simulation using a mass action model. Clin Endocrinol (Oxf). 1993;39:163-171.
4. Bremner WJ, Vitiello MV, Prinz PN. Loss of circadian rhythmicity in blood testosterone levels with aging in normal men. J Clin Endocrinol Metab. 1983;56:1278-1281.
5. Brambilla DJ, Matsumoto AM, Araujo AB, et al. The effect of diurnal variation on clinical measurement of serum testosterone and other sex hormone levels in men. J Clin Endocrinol Metab. 2009;94:907-913.
6. Crawford ED, Barqawi AB, O’Donnell C, et al. The association of time of day and serum testosterone concentration in a large screening population. BJU Int. 2007;100:509-513.
ACKNOWLEDGEMENT
The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.
Copyright © 2015. The Family Physicians Inquiries Network. All rights reserved.
Reprinted with permission from the Family Physicians Inquiries Network and The Journal of Family Practice. 2015;64(7):418-419.
PRACTICE CHANGER
Early-morning testosterone tests are necessary only for men younger than 45. Because the natural diurnal variation in testosterone levels tends to diminish with age, it is acceptable to test men ages 45 and older before 2 pm.1
STRENGTH OF RECOMMENDATION
B: Based on a retrospective cohort study.1
ILLUSTRATIVE CASE
You are finishing up a visit with a 62-year-old man who has erectile dysfunction (ED), and you want to evaluate for androgen deficiency. It’s already noon. Should you ask him to return for an early-morning visit so you can test his testosterone level?
Increasing public awareness of androgen deficiency has led to more men being tested for testosterone levels. Current Endocrine Society guidelines recommend against routine screening for androgen deficiency in men who do not have symptoms.2 However, for men with classic symptoms of androgen deficiency—such as decreased libido, ED, infertility, depression, osteoporosis, loss of secondary sexual characteristics, or reduced muscle bulk or strength—measurement of total testosterone level is recommended.2
Due to the natural diurnal variation in serum testosterone levels, the guidelines recommend collecting the sample in the early morning.2 This recommendation is based on small observational studies that included mostly men younger than 45, which found a significant difference in testosterone levels between samples drawn early in the morning and in the afternoon.3-5
In recent years, several studies have indicated that this variation declines as men age.4-6 Recently, researchers evaluated the effects of age and time of testing on men’s total testosterone levels.
STUDY SUMMARY
Differences in testosterone levels are significant only in younger men
Welliver et al1 performed a retrospective review of charts from a Minneapolis Veterans Affairs hospital. They identified 2,569 men seen for ED who had total testosterone levels measured between 7 AM and 2 PM in a 15-year period. Men whose total testosterone levels were outside the normal range (> 1,000 or < 50 ng/dL) or who had total testosterone drawn after 2 PM were excluded.
The authors analyzed the results based on age, creating one group for men younger than 40 and five-year age-groups for all other men. Using scatterplot techniques, they separated each age-group into two subgroups based on draw times—7 AM to 9 AM, or 9 AM to 2 PM—and compared the mean total testosterone level for each age and time.
Participants’ mean age was 63. Younger men (< 45) had the largest variation in serum total testosterone, with a large and significant decrease after 9 AM. Only the two youngest groups (ages < 40 and 40 to 44) showed a large decrease in total testosterone in specimens collected after 9 am, compared to those drawn earlier (mean difference, 207 and 149 ng/dL, respectively). This variation was not observed in patients older than 45. Although there was a statistically significant difference between early and later testosterone levels in men ages 70 to 74, the absolute difference—34 ng/dL (452 vs 418 ng/dL)—was unlikely to be clinically significant.
WHAT’S NEW
For older men, later testing will not affect results
This study confirms previous research indicating that the diurnal effect on testosterone levels becomes blunted with increasing age, at least in this group of men with ED. Allowing older men to have their total testosterone levels drawn until 2 PM would allow for greater patient flexibility in draw times, with little change in results.
CAVEATS
Study’s methodology cannot account for several potential confounders
This retrospective study analyzed a single random testosterone measurement from each participant, rather than repeat testosterone levels over the course of a day. However, the study was large (2,569 men) and used mean values, which should at least partially mitigate the effect of having only a single measurement from each participant.
The study measured total testosterone and did not account for potential confounding factors—such as obesity or use of testosterone replacement therapy or androgen deprivation therapy—that could affect sex hormone binding globulin, thus potentially altering total testosterone level. However, the authors estimated that less than 2% of the entire cohort was likely to have unrecognized hormonal manipulation with exogenous gonadotropins.
All of the men in the study were seen for ED, and it is possible that men with ED have more flattening of the diurnal variation than men without ED. However, we are unaware of other data that support this.
Up to 30% of men who have a low early-morning testosterone level may have a normal result when testing is repeated.2,5 Therefore, for all men who have low testosterone level test results, draw a repeat total testosterone level before 9 am to confirm the diagnosis. Also, this study did not evaluate the course of testosterone levels throughout the later afternoon and evening, and it remains unclear whether levels can be drawn even later in the day.
CHALLENGES TO IMPLEMENTATION
Your lab’s policies might require early-morning draws
There will probably be few barriers to implementing this change, unless local laboratory policies are inflexible regarding the timing of testosterone draws.
REFERENCES
1. Welliver RC Jr, Wiser HJ, Brannigan RE, et al. Validity of midday total testosterone levels in older men with erectile dysfunction. J Urol. 2014;192:165-169.
2. Bhasin S, Cunningham GR, Hayes FJ, et al. Testosterone therapy in men with androgen deficiency syndromes: an Endocrine Society clinical practice guideline. J Clin Endocrinol Metab. 2010;95:2536-2559.
3. Cooke RR, McIntosh JE, McIntosh RP. Circadian variation in serum free and non-SHBG-bound testosterone in normal men: measurements, and simulation using a mass action model. Clin Endocrinol (Oxf). 1993;39:163-171.
4. Bremner WJ, Vitiello MV, Prinz PN. Loss of circadian rhythmicity in blood testosterone levels with aging in normal men. J Clin Endocrinol Metab. 1983;56:1278-1281.
5. Brambilla DJ, Matsumoto AM, Araujo AB, et al. The effect of diurnal variation on clinical measurement of serum testosterone and other sex hormone levels in men. J Clin Endocrinol Metab. 2009;94:907-913.
6. Crawford ED, Barqawi AB, O’Donnell C, et al. The association of time of day and serum testosterone concentration in a large screening population. BJU Int. 2007;100:509-513.
ACKNOWLEDGEMENT
The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.
Copyright © 2015. The Family Physicians Inquiries Network. All rights reserved.
Reprinted with permission from the Family Physicians Inquiries Network and The Journal of Family Practice. 2015;64(7):418-419.
It’s time to reconsider early-morning testosterone tests
Early-morning testosterone tests are necessary only for men younger than age 45. Because the natural diurnal variation in testosterone levels tends to diminish with age, it is acceptable to test men ages 45 and older before 2 pm.1
Strength of recommendation
B: Based on a retrospective cohort study.
Welliver RC Jr, Wiser HJ, Brannigan RE, et al. Validity of midday total testosterone levels in older men with erectile dysfunction. J Urol. 2014;192:165-169.
Illustrative case
It’s noon, you are finishing up a visit with a 62-year-old man with erectile dysfunction (ED), and you want to evaluate for androgen deficiency. Should you ask him to return for an early-morning visit so you can test his testosterone level?
Increasing public awareness of androgen deficiency has led to more men being tested for testosterone levels. Current Endocrine Society guidelines recommend against routine screening for androgen deficiency in men who do not have symptoms.2 However, for men with classic symptoms of androgen deficiency—such as decreased libido, ED, infertility, depression, osteoporosis, loss of secondary sexual characteristics, or reduced muscle bulk or strength—measurement of total testosterone level is recommended.2
Due to the natural diurnal variation in serum testosterone levels, the guidelines recommend collecting the sample in the early morning.2 This recommendation is based on small observational studies that included men mostly younger than 45 years of age that found a significant difference in testosterone levels between samples drawn early in the morning and in the afternoon.3-5
In recent years, several studies have indicated that this variation declines as men age.4-6 Recently, researchers evaluated the effects of age and time of testing on men’s total testosterone levels.
STUDY SUMMARY: Differences in testosterone levels are significant only in younger men
Welliver et al1 performed a retrospective chart review of 2569 men seen at a Minneapolis Veterans Affairs hospital for ED who had total testosterone levels measured between 7 am and 2 pm over a 15-year period. Men whose total testosterone levels were outside the normal range (>1000 or <50 ng/dL) or who had total testosterone drawn after 2 pm were excluded. The authors analyzed the results based on age, creating one group for men ages <40 years and 5-year age groups for all other men. Using scatterplot techniques, they separated each age group into 2 subgroups based on draw times—7 am to 9 am, or 9 am to 2 pm—and compared the mean total testosterone level for each age and time.
The participants’ mean age was 63 years. Younger men (<45 years) had the largest variation in serum total testosterone, with a large and significant decrease after 9 am. Only the youngest 2 groups (ages <40 and 40-44 years) showed a large decrease in total testosterone in specimens collected after 9 am compared to those drawn between 7 am and 9 am (mean difference 207 and 149 ng/dL, respectively). This variation was not observed in patients over age 45. Although there was a statistically significant difference between early and later testosterone levels in men ages 70 to 74 years, the absolute difference—34 ng/dL (452 vs 418 ng/dL)—was unlikely to be clinically significant.
WHAT'S NEW: For older men, later testing will not affect results
This study confirms previous research showing that the diurnal effect on testosterone levels becomes blunted with increasing age, at least in this group of men with ED. Allowing older men to have total testosterone levels drawn until 2 pm would allow for greater patient flexibility in draw times with little change in results.
CAVEATS: Study's methodology cannot account for several potential confounders
This retrospective study analyzed only a single random testosterone level measurement from each participant, rather than repeat testosterone levels over the course of a day. However, the study was large (2569 men) and it used mean values, which should at least partially mitigate the effect of having only a single level from each participant.
The study measured total testosterone and did not account for potential confounding factors—such as obesity or use of testosterone replacement therapy or androgen deprivation therapy—that could affect sexhormone binding globulin, thus potentially altering total testosterone level. However, the authors estimated that less than 2% of the entire cohort were likely to have unrecognized hormonal manipulation with exogenous gonadotropins.
All of the men in the study were seen for ED, and it could be that men with ED have more flattening of the diurnal variation than men without ED; however, we are unaware of other data that support this.
Up to 30% of men who have an early-morning testosterone level that is low may have a normal result when testing is repeated.2,5 Therefore, for all men who have low testosterone level test results, draw a repeat total testosterone level before 9 am to confirm the diagnosis. Also, this study did not evaluate the course of testosterone levels throughout the later afternoon and evening, and it remains unclear whether levels can be drawn even later in the day.
CHALLENGES TO IMPLEMENTATION: Your lab's policies might require early-morning draws
There will probably be few barriers to implementing this change, unless local laboratory policies are inflexible regarding the timing of testosterone draws.
ACKNOWLEDGEMENT
The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.
1. Welliver RC Jr, Wiser HJ, Brannigan RE, et al. Validity of midday total testosterone levels in older men with erectile dysfunction. J Urol. 2014;192:165-169.
2. Bhasin S, Cunningham GR, Hayes FJ, et al. Testosterone therapy in men with androgen deficiency syndromes: an Endocrine Society clinical practice guideline. J Clin Endocrinol Metab. 2010;95:2536-2559.
3. Cooke RR, McIntosh JE, McIntosh RP. Circadian variation in serum free and non-SHBG-bound testosterone in normal men: measurements, and simulation using a mass action model. Clin Endocrinol (Oxf). 1993;39:163-171.
4. Bremner WJ, Vitiello MV, Prinz PN. Loss of circadian rhythmicity in blood testosterone levels with aging in normal men. J Clin Endocrinol Metab. 1983;56:1278-1281.
5. Brambilla DJ, Matsumoto AM, Araujo AB, et al. The effect of diurnal variation on clinical measurement of serum testosterone and other sex hormone levels in men. J Clin Endocrinol Metab. 2009;94:907-913.
6. Crawford ED, Barqawi AB, O’Donnell C, et al. The association of time of day and serum testosterone concentration in a large screening population. BJU Int. 2007;100:509-513.
Early-morning testosterone tests are necessary only for men younger than age 45. Because the natural diurnal variation in testosterone levels tends to diminish with age, it is acceptable to test men ages 45 and older before 2 pm.1
Strength of recommendation
B: Based on a retrospective cohort study.
Welliver RC Jr, Wiser HJ, Brannigan RE, et al. Validity of midday total testosterone levels in older men with erectile dysfunction. J Urol. 2014;192:165-169.
Illustrative case
It’s noon, you are finishing up a visit with a 62-year-old man with erectile dysfunction (ED), and you want to evaluate for androgen deficiency. Should you ask him to return for an early-morning visit so you can test his testosterone level?
Increasing public awareness of androgen deficiency has led to more men being tested for testosterone levels. Current Endocrine Society guidelines recommend against routine screening for androgen deficiency in men who do not have symptoms.2 However, for men with classic symptoms of androgen deficiency—such as decreased libido, ED, infertility, depression, osteoporosis, loss of secondary sexual characteristics, or reduced muscle bulk or strength—measurement of total testosterone level is recommended.2
Due to the natural diurnal variation in serum testosterone levels, the guidelines recommend collecting the sample in the early morning.2 This recommendation is based on small observational studies that included men mostly younger than 45 years of age that found a significant difference in testosterone levels between samples drawn early in the morning and in the afternoon.3-5
In recent years, several studies have indicated that this variation declines as men age.4-6 Recently, researchers evaluated the effects of age and time of testing on men’s total testosterone levels.
STUDY SUMMARY: Differences in testosterone levels are significant only in younger men
Welliver et al1 performed a retrospective chart review of 2569 men seen at a Minneapolis Veterans Affairs hospital for ED who had total testosterone levels measured between 7 am and 2 pm over a 15-year period. Men whose total testosterone levels were outside the normal range (>1000 or <50 ng/dL) or who had total testosterone drawn after 2 pm were excluded. The authors analyzed the results based on age, creating one group for men ages <40 years and 5-year age groups for all other men. Using scatterplot techniques, they separated each age group into 2 subgroups based on draw times—7 am to 9 am, or 9 am to 2 pm—and compared the mean total testosterone level for each age and time.
The participants’ mean age was 63 years. Younger men (<45 years) had the largest variation in serum total testosterone, with a large and significant decrease after 9 am. Only the youngest 2 groups (ages <40 and 40-44 years) showed a large decrease in total testosterone in specimens collected after 9 am compared to those drawn between 7 am and 9 am (mean difference 207 and 149 ng/dL, respectively). This variation was not observed in patients over age 45. Although there was a statistically significant difference between early and later testosterone levels in men ages 70 to 74 years, the absolute difference—34 ng/dL (452 vs 418 ng/dL)—was unlikely to be clinically significant.
WHAT'S NEW: For older men, later testing will not affect results
This study confirms previous research showing that the diurnal effect on testosterone levels becomes blunted with increasing age, at least in this group of men with ED. Allowing older men to have total testosterone levels drawn until 2 pm would allow for greater patient flexibility in draw times with little change in results.
CAVEATS: Study's methodology cannot account for several potential confounders
This retrospective study analyzed only a single random testosterone level measurement from each participant, rather than repeat testosterone levels over the course of a day. However, the study was large (2569 men) and it used mean values, which should at least partially mitigate the effect of having only a single level from each participant.
The study measured total testosterone and did not account for potential confounding factors—such as obesity or use of testosterone replacement therapy or androgen deprivation therapy—that could affect sexhormone binding globulin, thus potentially altering total testosterone level. However, the authors estimated that less than 2% of the entire cohort were likely to have unrecognized hormonal manipulation with exogenous gonadotropins.
All of the men in the study were seen for ED, and it could be that men with ED have more flattening of the diurnal variation than men without ED; however, we are unaware of other data that support this.
Up to 30% of men who have an early-morning testosterone level that is low may have a normal result when testing is repeated.2,5 Therefore, for all men who have low testosterone level test results, draw a repeat total testosterone level before 9 am to confirm the diagnosis. Also, this study did not evaluate the course of testosterone levels throughout the later afternoon and evening, and it remains unclear whether levels can be drawn even later in the day.
CHALLENGES TO IMPLEMENTATION: Your lab's policies might require early-morning draws
There will probably be few barriers to implementing this change, unless local laboratory policies are inflexible regarding the timing of testosterone draws.
ACKNOWLEDGEMENT
The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.
Early-morning testosterone tests are necessary only for men younger than age 45. Because the natural diurnal variation in testosterone levels tends to diminish with age, it is acceptable to test men ages 45 and older before 2 pm.1
Strength of recommendation
B: Based on a retrospective cohort study.
Welliver RC Jr, Wiser HJ, Brannigan RE, et al. Validity of midday total testosterone levels in older men with erectile dysfunction. J Urol. 2014;192:165-169.
Illustrative case
It’s noon, you are finishing up a visit with a 62-year-old man with erectile dysfunction (ED), and you want to evaluate for androgen deficiency. Should you ask him to return for an early-morning visit so you can test his testosterone level?
Increasing public awareness of androgen deficiency has led to more men being tested for testosterone levels. Current Endocrine Society guidelines recommend against routine screening for androgen deficiency in men who do not have symptoms.2 However, for men with classic symptoms of androgen deficiency—such as decreased libido, ED, infertility, depression, osteoporosis, loss of secondary sexual characteristics, or reduced muscle bulk or strength—measurement of total testosterone level is recommended.2
Due to the natural diurnal variation in serum testosterone levels, the guidelines recommend collecting the sample in the early morning.2 This recommendation is based on small observational studies that included men mostly younger than 45 years of age that found a significant difference in testosterone levels between samples drawn early in the morning and in the afternoon.3-5
In recent years, several studies have indicated that this variation declines as men age.4-6 Recently, researchers evaluated the effects of age and time of testing on men’s total testosterone levels.
STUDY SUMMARY: Differences in testosterone levels are significant only in younger men
Welliver et al1 performed a retrospective chart review of 2569 men seen at a Minneapolis Veterans Affairs hospital for ED who had total testosterone levels measured between 7 am and 2 pm over a 15-year period. Men whose total testosterone levels were outside the normal range (>1000 or <50 ng/dL) or who had total testosterone drawn after 2 pm were excluded. The authors analyzed the results based on age, creating one group for men ages <40 years and 5-year age groups for all other men. Using scatterplot techniques, they separated each age group into 2 subgroups based on draw times—7 am to 9 am, or 9 am to 2 pm—and compared the mean total testosterone level for each age and time.
The participants’ mean age was 63 years. Younger men (<45 years) had the largest variation in serum total testosterone, with a large and significant decrease after 9 am. Only the youngest 2 groups (ages <40 and 40-44 years) showed a large decrease in total testosterone in specimens collected after 9 am compared to those drawn between 7 am and 9 am (mean difference 207 and 149 ng/dL, respectively). This variation was not observed in patients over age 45. Although there was a statistically significant difference between early and later testosterone levels in men ages 70 to 74 years, the absolute difference—34 ng/dL (452 vs 418 ng/dL)—was unlikely to be clinically significant.
WHAT'S NEW: For older men, later testing will not affect results
This study confirms previous research showing that the diurnal effect on testosterone levels becomes blunted with increasing age, at least in this group of men with ED. Allowing older men to have total testosterone levels drawn until 2 pm would allow for greater patient flexibility in draw times with little change in results.
CAVEATS: Study's methodology cannot account for several potential confounders
This retrospective study analyzed only a single random testosterone level measurement from each participant, rather than repeat testosterone levels over the course of a day. However, the study was large (2569 men) and it used mean values, which should at least partially mitigate the effect of having only a single level from each participant.
The study measured total testosterone and did not account for potential confounding factors—such as obesity or use of testosterone replacement therapy or androgen deprivation therapy—that could affect sexhormone binding globulin, thus potentially altering total testosterone level. However, the authors estimated that less than 2% of the entire cohort were likely to have unrecognized hormonal manipulation with exogenous gonadotropins.
All of the men in the study were seen for ED, and it could be that men with ED have more flattening of the diurnal variation than men without ED; however, we are unaware of other data that support this.
Up to 30% of men who have an early-morning testosterone level that is low may have a normal result when testing is repeated.2,5 Therefore, for all men who have low testosterone level test results, draw a repeat total testosterone level before 9 am to confirm the diagnosis. Also, this study did not evaluate the course of testosterone levels throughout the later afternoon and evening, and it remains unclear whether levels can be drawn even later in the day.
CHALLENGES TO IMPLEMENTATION: Your lab's policies might require early-morning draws
There will probably be few barriers to implementing this change, unless local laboratory policies are inflexible regarding the timing of testosterone draws.
ACKNOWLEDGEMENT
The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.
1. Welliver RC Jr, Wiser HJ, Brannigan RE, et al. Validity of midday total testosterone levels in older men with erectile dysfunction. J Urol. 2014;192:165-169.
2. Bhasin S, Cunningham GR, Hayes FJ, et al. Testosterone therapy in men with androgen deficiency syndromes: an Endocrine Society clinical practice guideline. J Clin Endocrinol Metab. 2010;95:2536-2559.
3. Cooke RR, McIntosh JE, McIntosh RP. Circadian variation in serum free and non-SHBG-bound testosterone in normal men: measurements, and simulation using a mass action model. Clin Endocrinol (Oxf). 1993;39:163-171.
4. Bremner WJ, Vitiello MV, Prinz PN. Loss of circadian rhythmicity in blood testosterone levels with aging in normal men. J Clin Endocrinol Metab. 1983;56:1278-1281.
5. Brambilla DJ, Matsumoto AM, Araujo AB, et al. The effect of diurnal variation on clinical measurement of serum testosterone and other sex hormone levels in men. J Clin Endocrinol Metab. 2009;94:907-913.
6. Crawford ED, Barqawi AB, O’Donnell C, et al. The association of time of day and serum testosterone concentration in a large screening population. BJU Int. 2007;100:509-513.
1. Welliver RC Jr, Wiser HJ, Brannigan RE, et al. Validity of midday total testosterone levels in older men with erectile dysfunction. J Urol. 2014;192:165-169.
2. Bhasin S, Cunningham GR, Hayes FJ, et al. Testosterone therapy in men with androgen deficiency syndromes: an Endocrine Society clinical practice guideline. J Clin Endocrinol Metab. 2010;95:2536-2559.
3. Cooke RR, McIntosh JE, McIntosh RP. Circadian variation in serum free and non-SHBG-bound testosterone in normal men: measurements, and simulation using a mass action model. Clin Endocrinol (Oxf). 1993;39:163-171.
4. Bremner WJ, Vitiello MV, Prinz PN. Loss of circadian rhythmicity in blood testosterone levels with aging in normal men. J Clin Endocrinol Metab. 1983;56:1278-1281.
5. Brambilla DJ, Matsumoto AM, Araujo AB, et al. The effect of diurnal variation on clinical measurement of serum testosterone and other sex hormone levels in men. J Clin Endocrinol Metab. 2009;94:907-913.
6. Crawford ED, Barqawi AB, O’Donnell C, et al. The association of time of day and serum testosterone concentration in a large screening population. BJU Int. 2007;100:509-513.
Copyright © 2015 Family Physicians Inquiries Network. All rights reserved.
Help for recurrent bacterial vaginosis
Recommend high-dose vaginal probiotic capsules to prevent recurrent bacterial vaginosis.1
STRENGTH OF RECOMMENDATION
B: Based on a single high-quality randomized controlled trial (RCT)
Ya W, Reifer C, Miller LE. Efficacy of vaginal probiotic capsules for recurrent bacterial vaginosis: a double-blind, randomized, placebo-controlled study. Am J Obstet Gynecol. 2010;203:120.e1-120.e6.
ILLUSTRATIVE CASE
A 26-year-old nonsmoking woman with a single sexual partner comes in with the second bout of bacterial vaginosis (BV) she’s had this year. What can you give her to prevent a recurrence?
Bacterial vaginosis is the most common cause of vaginal discharge in women, responsible for 40% to 50% of clinical cases. Among American women ages 14 to 49, the general prevalence—including asymptomatic cases—is close to 30%.2
Recurrence rate, as well as prevalence, is high
BV is caused by a shift in vaginal flora from hydrogen peroxide-producing Lactobacillus species to anaerobes that raise the vaginal pH. Multiple species of anaerobic bacteria are implicated. The drug of choice for treatment of BV continues to be metronidazole, a drug prescribed for the past 45 years with minimal resistance.3 However, there is growing resistance among Bacteroides species. Oral or intravaginal clindamycin is another option for treating BV.4
Even with the use of metronidazole, recurrence is common—with as many as 50% of symptomatic infections recurring within a year.5 A randomized, double-blind placebo-controlled trial published in 2006 compared the results of 1 week of oral metronidazole (500 mg) twice daily plus 30 days of oral probiotics vs the same dose and duration of metronidazole plus 30 days of placebo.6 The rate of recurrence at the end of 1 month was 12% in the antibiotic/probiotic group vs 60% in the antibiotic/placebo group.
The RCT reviewed here evaluated the effectiveness of a vaginal probiotic capsule in preventing recurrent BV.
STUDY SUMMARY: Probiotic use lowered recurrence rate
Ya et al enrolled 120 Chinese women with a history of recurrent BV in a double-blind RCT.1 To be eligible, women had to be healthy, between the ages of 18 and 55, and free from BV (but have a history of ≥2 episodes in the previous year). They also could not have had any antibiotic treatment within a week of study participation, and had to be willing to refrain from using other intravaginal products during the course of the study.
The researchers excluded women who were found to have other causes of vulvovaginitis or urogenital infection within 21 days of participation, were pregnant or lactating, ate yogurt or fermented milk on a daily basis, were allergic to study product ingredients, or were immunosuppressed.
Participants were assigned to either BV prophylaxis with the vaginal probiotic capsule Probaclac Vaginal (a lactose capsule containing 8 billion colony-forming units [CFUs] of Lactobacillus rhamnosus, L acidophilus, and Streptococcus thermophilus) (n=58) or a placebo capsule containing lactose alone (n=62). Both groups had similar baseline characteristics; most of the women were nonsmokers who had had either one sexual partner or no partners within the previous year.
After a baseline evaluation, the participants used the vaginal capsules daily for 7 days, skipped usage for 7 days, and then used them again for a final 7 days. The women then returned for follow-up visits at 30 and 60 days after treatment began for the collection of vaginal swabs, an assessment of vaginal flora, and a report of adverse events. Researchers also contacted them by phone roughly 11 months after treatment started to ask about BV symptoms or diagnosis after treatment.
The primary end point was the diagnosis in the first 2 months of BV using Amsel criteria: the presence of thin, grey-white homogenous discharge coating the vaginal walls; vaginal pH >4.5; a positive whiff-amine test (presence of “fish smell” with potassium hydroxide [KOH] or KOH prep); and the presence of clue cells on normal saline wet mount.7
This end point—based on the presence of 3 of the 4 criteria—was reached in 15.8% of women in the probiotic group and 45% in the control group (odds ratio [OR]=0.23; 95% confidence interval [CI], 0.10-0.55; P<.001), with a number needed to treat (NNT) of 3.4.
A secondary end point was the confirmed diagnosis of BV between 2 and 11 months; only 10.6% of women in the probiotic group and 27.7% of women in the control group had confirmed BV (OR=0.31, 95% CI, 0.11-0.93; P=.04), with an NNT of 5.8. No adverse advents were reported.
WHAT’S NEW: A new use for probiotics is established
This trial supports the use of probiotic vaginal capsules in the prevention of recurrent BV. We found the specific formulation (Probaclac Vaginal) that was tested in this RCT on an online natural health site (http://www.lady tobaby.com/show.php?item=219). This Web site sells Probaclac Vaginal at a cost of $28 for 10 capsules. A full course of a week’s treatment, repeated once, would cost approximately $56.
CAVEATS: Will other formulations work?
This study was funded by the makers of Probaclac Vaginal, so we will be watching for independent replication of these findings in other populations. The vaginal probiotic tested had 80 times the current recommended concentration of lactobacilli required to restore and maintain normal vaginal flora, so we are unsure as to whether less concentrated formulations would be equally effective.
Probiotic formulations differ widely, although some are similar to the species/ concentration used in Probaclac Vaginal, including LactoViden ID by Metagenics (http://www.metagenics.com/products/az-products-list/LactoViden-ID), with 15 billion CFUs, and Therbiotic by Klaire Labs (http://www.klaire.com/prod/proddetail. asp?id=V775-06-CN), with 25 billion CFUs.
Also, this intervention has not been tested in populations outside of China, in heavy smokers, or in women with more than one sexual partner, so there is a small risk that these findings may not be confirmed in subsequent RCTs or may not be generalizable to other populations. Nonetheless, we think the potential benefit outweighs any possible harm, and we will be watching for studies that confirm or challenge these findings.
CHALLENGES TO IMPLEMENTATION: Finding the right probiotic
The brand used in the study is available only on the Web, which may be difficult for some patients to access, and some patients will find the probiotic to be fairly expensive. In addition, other brands of probiotics may not be available as a vaginal capsule with applicator. It should be noted, though, that it is possible to use an applicator to insert an oral probiotic capsule into the vagina.
Acknowledgement
The PURLs Surveillance System is supported in part by Grant Number UL1RR024999 from the National Center for Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center for Research Resources or the National Institutes of Health.
Click here to view PURL METHODOLOGY
1. Ya W, Reifer C, Miller LE. Efficacy of vaginal probiotic capsules for recurrent bacterial vaginosis: a double-blind, randomized, placebo-controlled study. Am J Obstet Gynecol. 2010;203:120.e1-120.e6.
2. Allsworth JE, Peipert JF. Prevalence of bacterial vaginosis: 2001-2004 National Health and Nutrition Examination Survey Data. Obstet Gynecol. 2007;109:114-120.
3. Lofmark S, Edlund C, Nord CE. Metronidazole is still the drug of choice for treatment of anaerobic infections. Clin Infect Dis. 2010;50(suppl 1):S16-S23.
4. Joesoef MR, Schmid GP, Hillier SL. Bacterial vaginosis: review of treatment options and potential clinical indications for therapy. Clin Infect Dis. 1999;28(suppl 1):S57-S65.
5. Bradshaw CS, Morton AN, Hocking J, et al. High recurrence rates of bacterial vaginosis over the course of 12 months after oral metronidazole therapy and factors associated with recurrence. J Infect Dis. 2006;193:1478-1486.
6. Anukam K, Osazuwa E, Ahonkhai I, et al. Augmentation of antimicrobial metronidazole therapy of bacterial vaginosis with oral probiotic Lactobacillus rhamnosus GR-1 and Lactobacillus reuteri RC-14: randomized, double-blind, placebo controlled trial. Microbes Infect. 2006;8:1450-1454.
7. Amsel R, Totten PA, Spiegel CA, et al. Nonspecific vaginitis. Diagnostic criteria and microbial and epidemiologic associations. Am J Med. 1983;74:14-22.
Recommend high-dose vaginal probiotic capsules to prevent recurrent bacterial vaginosis.1
STRENGTH OF RECOMMENDATION
B: Based on a single high-quality randomized controlled trial (RCT)
Ya W, Reifer C, Miller LE. Efficacy of vaginal probiotic capsules for recurrent bacterial vaginosis: a double-blind, randomized, placebo-controlled study. Am J Obstet Gynecol. 2010;203:120.e1-120.e6.
ILLUSTRATIVE CASE
A 26-year-old nonsmoking woman with a single sexual partner comes in with the second bout of bacterial vaginosis (BV) she’s had this year. What can you give her to prevent a recurrence?
Bacterial vaginosis is the most common cause of vaginal discharge in women, responsible for 40% to 50% of clinical cases. Among American women ages 14 to 49, the general prevalence—including asymptomatic cases—is close to 30%.2
Recurrence rate, as well as prevalence, is high
BV is caused by a shift in vaginal flora from hydrogen peroxide-producing Lactobacillus species to anaerobes that raise the vaginal pH. Multiple species of anaerobic bacteria are implicated. The drug of choice for treatment of BV continues to be metronidazole, a drug prescribed for the past 45 years with minimal resistance.3 However, there is growing resistance among Bacteroides species. Oral or intravaginal clindamycin is another option for treating BV.4
Even with the use of metronidazole, recurrence is common—with as many as 50% of symptomatic infections recurring within a year.5 A randomized, double-blind placebo-controlled trial published in 2006 compared the results of 1 week of oral metronidazole (500 mg) twice daily plus 30 days of oral probiotics vs the same dose and duration of metronidazole plus 30 days of placebo.6 The rate of recurrence at the end of 1 month was 12% in the antibiotic/probiotic group vs 60% in the antibiotic/placebo group.
The RCT reviewed here evaluated the effectiveness of a vaginal probiotic capsule in preventing recurrent BV.
STUDY SUMMARY: Probiotic use lowered recurrence rate
Ya et al enrolled 120 Chinese women with a history of recurrent BV in a double-blind RCT.1 To be eligible, women had to be healthy, between the ages of 18 and 55, and free from BV (but have a history of ≥2 episodes in the previous year). They also could not have had any antibiotic treatment within a week of study participation, and had to be willing to refrain from using other intravaginal products during the course of the study.
The researchers excluded women who were found to have other causes of vulvovaginitis or urogenital infection within 21 days of participation, were pregnant or lactating, ate yogurt or fermented milk on a daily basis, were allergic to study product ingredients, or were immunosuppressed.
Participants were assigned to either BV prophylaxis with the vaginal probiotic capsule Probaclac Vaginal (a lactose capsule containing 8 billion colony-forming units [CFUs] of Lactobacillus rhamnosus, L acidophilus, and Streptococcus thermophilus) (n=58) or a placebo capsule containing lactose alone (n=62). Both groups had similar baseline characteristics; most of the women were nonsmokers who had had either one sexual partner or no partners within the previous year.
After a baseline evaluation, the participants used the vaginal capsules daily for 7 days, skipped usage for 7 days, and then used them again for a final 7 days. The women then returned for follow-up visits at 30 and 60 days after treatment began for the collection of vaginal swabs, an assessment of vaginal flora, and a report of adverse events. Researchers also contacted them by phone roughly 11 months after treatment started to ask about BV symptoms or diagnosis after treatment.
The primary end point was the diagnosis in the first 2 months of BV using Amsel criteria: the presence of thin, grey-white homogenous discharge coating the vaginal walls; vaginal pH >4.5; a positive whiff-amine test (presence of “fish smell” with potassium hydroxide [KOH] or KOH prep); and the presence of clue cells on normal saline wet mount.7
This end point—based on the presence of 3 of the 4 criteria—was reached in 15.8% of women in the probiotic group and 45% in the control group (odds ratio [OR]=0.23; 95% confidence interval [CI], 0.10-0.55; P<.001), with a number needed to treat (NNT) of 3.4.
A secondary end point was the confirmed diagnosis of BV between 2 and 11 months; only 10.6% of women in the probiotic group and 27.7% of women in the control group had confirmed BV (OR=0.31, 95% CI, 0.11-0.93; P=.04), with an NNT of 5.8. No adverse advents were reported.
WHAT’S NEW: A new use for probiotics is established
This trial supports the use of probiotic vaginal capsules in the prevention of recurrent BV. We found the specific formulation (Probaclac Vaginal) that was tested in this RCT on an online natural health site (http://www.lady tobaby.com/show.php?item=219). This Web site sells Probaclac Vaginal at a cost of $28 for 10 capsules. A full course of a week’s treatment, repeated once, would cost approximately $56.
CAVEATS: Will other formulations work?
This study was funded by the makers of Probaclac Vaginal, so we will be watching for independent replication of these findings in other populations. The vaginal probiotic tested had 80 times the current recommended concentration of lactobacilli required to restore and maintain normal vaginal flora, so we are unsure as to whether less concentrated formulations would be equally effective.
Probiotic formulations differ widely, although some are similar to the species/ concentration used in Probaclac Vaginal, including LactoViden ID by Metagenics (http://www.metagenics.com/products/az-products-list/LactoViden-ID), with 15 billion CFUs, and Therbiotic by Klaire Labs (http://www.klaire.com/prod/proddetail. asp?id=V775-06-CN), with 25 billion CFUs.
Also, this intervention has not been tested in populations outside of China, in heavy smokers, or in women with more than one sexual partner, so there is a small risk that these findings may not be confirmed in subsequent RCTs or may not be generalizable to other populations. Nonetheless, we think the potential benefit outweighs any possible harm, and we will be watching for studies that confirm or challenge these findings.
CHALLENGES TO IMPLEMENTATION: Finding the right probiotic
The brand used in the study is available only on the Web, which may be difficult for some patients to access, and some patients will find the probiotic to be fairly expensive. In addition, other brands of probiotics may not be available as a vaginal capsule with applicator. It should be noted, though, that it is possible to use an applicator to insert an oral probiotic capsule into the vagina.
Acknowledgement
The PURLs Surveillance System is supported in part by Grant Number UL1RR024999 from the National Center for Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center for Research Resources or the National Institutes of Health.
Click here to view PURL METHODOLOGY
Recommend high-dose vaginal probiotic capsules to prevent recurrent bacterial vaginosis.1
STRENGTH OF RECOMMENDATION
B: Based on a single high-quality randomized controlled trial (RCT)
Ya W, Reifer C, Miller LE. Efficacy of vaginal probiotic capsules for recurrent bacterial vaginosis: a double-blind, randomized, placebo-controlled study. Am J Obstet Gynecol. 2010;203:120.e1-120.e6.
ILLUSTRATIVE CASE
A 26-year-old nonsmoking woman with a single sexual partner comes in with the second bout of bacterial vaginosis (BV) she’s had this year. What can you give her to prevent a recurrence?
Bacterial vaginosis is the most common cause of vaginal discharge in women, responsible for 40% to 50% of clinical cases. Among American women ages 14 to 49, the general prevalence—including asymptomatic cases—is close to 30%.2
Recurrence rate, as well as prevalence, is high
BV is caused by a shift in vaginal flora from hydrogen peroxide-producing Lactobacillus species to anaerobes that raise the vaginal pH. Multiple species of anaerobic bacteria are implicated. The drug of choice for treatment of BV continues to be metronidazole, a drug prescribed for the past 45 years with minimal resistance.3 However, there is growing resistance among Bacteroides species. Oral or intravaginal clindamycin is another option for treating BV.4
Even with the use of metronidazole, recurrence is common—with as many as 50% of symptomatic infections recurring within a year.5 A randomized, double-blind placebo-controlled trial published in 2006 compared the results of 1 week of oral metronidazole (500 mg) twice daily plus 30 days of oral probiotics vs the same dose and duration of metronidazole plus 30 days of placebo.6 The rate of recurrence at the end of 1 month was 12% in the antibiotic/probiotic group vs 60% in the antibiotic/placebo group.
The RCT reviewed here evaluated the effectiveness of a vaginal probiotic capsule in preventing recurrent BV.
STUDY SUMMARY: Probiotic use lowered recurrence rate
Ya et al enrolled 120 Chinese women with a history of recurrent BV in a double-blind RCT.1 To be eligible, women had to be healthy, between the ages of 18 and 55, and free from BV (but have a history of ≥2 episodes in the previous year). They also could not have had any antibiotic treatment within a week of study participation, and had to be willing to refrain from using other intravaginal products during the course of the study.
The researchers excluded women who were found to have other causes of vulvovaginitis or urogenital infection within 21 days of participation, were pregnant or lactating, ate yogurt or fermented milk on a daily basis, were allergic to study product ingredients, or were immunosuppressed.
Participants were assigned to either BV prophylaxis with the vaginal probiotic capsule Probaclac Vaginal (a lactose capsule containing 8 billion colony-forming units [CFUs] of Lactobacillus rhamnosus, L acidophilus, and Streptococcus thermophilus) (n=58) or a placebo capsule containing lactose alone (n=62). Both groups had similar baseline characteristics; most of the women were nonsmokers who had had either one sexual partner or no partners within the previous year.
After a baseline evaluation, the participants used the vaginal capsules daily for 7 days, skipped usage for 7 days, and then used them again for a final 7 days. The women then returned for follow-up visits at 30 and 60 days after treatment began for the collection of vaginal swabs, an assessment of vaginal flora, and a report of adverse events. Researchers also contacted them by phone roughly 11 months after treatment started to ask about BV symptoms or diagnosis after treatment.
The primary end point was the diagnosis in the first 2 months of BV using Amsel criteria: the presence of thin, grey-white homogenous discharge coating the vaginal walls; vaginal pH >4.5; a positive whiff-amine test (presence of “fish smell” with potassium hydroxide [KOH] or KOH prep); and the presence of clue cells on normal saline wet mount.7
This end point—based on the presence of 3 of the 4 criteria—was reached in 15.8% of women in the probiotic group and 45% in the control group (odds ratio [OR]=0.23; 95% confidence interval [CI], 0.10-0.55; P<.001), with a number needed to treat (NNT) of 3.4.
A secondary end point was the confirmed diagnosis of BV between 2 and 11 months; only 10.6% of women in the probiotic group and 27.7% of women in the control group had confirmed BV (OR=0.31, 95% CI, 0.11-0.93; P=.04), with an NNT of 5.8. No adverse advents were reported.
WHAT’S NEW: A new use for probiotics is established
This trial supports the use of probiotic vaginal capsules in the prevention of recurrent BV. We found the specific formulation (Probaclac Vaginal) that was tested in this RCT on an online natural health site (http://www.lady tobaby.com/show.php?item=219). This Web site sells Probaclac Vaginal at a cost of $28 for 10 capsules. A full course of a week’s treatment, repeated once, would cost approximately $56.
CAVEATS: Will other formulations work?
This study was funded by the makers of Probaclac Vaginal, so we will be watching for independent replication of these findings in other populations. The vaginal probiotic tested had 80 times the current recommended concentration of lactobacilli required to restore and maintain normal vaginal flora, so we are unsure as to whether less concentrated formulations would be equally effective.
Probiotic formulations differ widely, although some are similar to the species/ concentration used in Probaclac Vaginal, including LactoViden ID by Metagenics (http://www.metagenics.com/products/az-products-list/LactoViden-ID), with 15 billion CFUs, and Therbiotic by Klaire Labs (http://www.klaire.com/prod/proddetail. asp?id=V775-06-CN), with 25 billion CFUs.
Also, this intervention has not been tested in populations outside of China, in heavy smokers, or in women with more than one sexual partner, so there is a small risk that these findings may not be confirmed in subsequent RCTs or may not be generalizable to other populations. Nonetheless, we think the potential benefit outweighs any possible harm, and we will be watching for studies that confirm or challenge these findings.
CHALLENGES TO IMPLEMENTATION: Finding the right probiotic
The brand used in the study is available only on the Web, which may be difficult for some patients to access, and some patients will find the probiotic to be fairly expensive. In addition, other brands of probiotics may not be available as a vaginal capsule with applicator. It should be noted, though, that it is possible to use an applicator to insert an oral probiotic capsule into the vagina.
Acknowledgement
The PURLs Surveillance System is supported in part by Grant Number UL1RR024999 from the National Center for Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center for Research Resources or the National Institutes of Health.
Click here to view PURL METHODOLOGY
1. Ya W, Reifer C, Miller LE. Efficacy of vaginal probiotic capsules for recurrent bacterial vaginosis: a double-blind, randomized, placebo-controlled study. Am J Obstet Gynecol. 2010;203:120.e1-120.e6.
2. Allsworth JE, Peipert JF. Prevalence of bacterial vaginosis: 2001-2004 National Health and Nutrition Examination Survey Data. Obstet Gynecol. 2007;109:114-120.
3. Lofmark S, Edlund C, Nord CE. Metronidazole is still the drug of choice for treatment of anaerobic infections. Clin Infect Dis. 2010;50(suppl 1):S16-S23.
4. Joesoef MR, Schmid GP, Hillier SL. Bacterial vaginosis: review of treatment options and potential clinical indications for therapy. Clin Infect Dis. 1999;28(suppl 1):S57-S65.
5. Bradshaw CS, Morton AN, Hocking J, et al. High recurrence rates of bacterial vaginosis over the course of 12 months after oral metronidazole therapy and factors associated with recurrence. J Infect Dis. 2006;193:1478-1486.
6. Anukam K, Osazuwa E, Ahonkhai I, et al. Augmentation of antimicrobial metronidazole therapy of bacterial vaginosis with oral probiotic Lactobacillus rhamnosus GR-1 and Lactobacillus reuteri RC-14: randomized, double-blind, placebo controlled trial. Microbes Infect. 2006;8:1450-1454.
7. Amsel R, Totten PA, Spiegel CA, et al. Nonspecific vaginitis. Diagnostic criteria and microbial and epidemiologic associations. Am J Med. 1983;74:14-22.
1. Ya W, Reifer C, Miller LE. Efficacy of vaginal probiotic capsules for recurrent bacterial vaginosis: a double-blind, randomized, placebo-controlled study. Am J Obstet Gynecol. 2010;203:120.e1-120.e6.
2. Allsworth JE, Peipert JF. Prevalence of bacterial vaginosis: 2001-2004 National Health and Nutrition Examination Survey Data. Obstet Gynecol. 2007;109:114-120.
3. Lofmark S, Edlund C, Nord CE. Metronidazole is still the drug of choice for treatment of anaerobic infections. Clin Infect Dis. 2010;50(suppl 1):S16-S23.
4. Joesoef MR, Schmid GP, Hillier SL. Bacterial vaginosis: review of treatment options and potential clinical indications for therapy. Clin Infect Dis. 1999;28(suppl 1):S57-S65.
5. Bradshaw CS, Morton AN, Hocking J, et al. High recurrence rates of bacterial vaginosis over the course of 12 months after oral metronidazole therapy and factors associated with recurrence. J Infect Dis. 2006;193:1478-1486.
6. Anukam K, Osazuwa E, Ahonkhai I, et al. Augmentation of antimicrobial metronidazole therapy of bacterial vaginosis with oral probiotic Lactobacillus rhamnosus GR-1 and Lactobacillus reuteri RC-14: randomized, double-blind, placebo controlled trial. Microbes Infect. 2006;8:1450-1454.
7. Amsel R, Totten PA, Spiegel CA, et al. Nonspecific vaginitis. Diagnostic criteria and microbial and epidemiologic associations. Am J Med. 1983;74:14-22.
Copyright © 2011 The Family Physicians Inquiries Network.
All rights reserved.
ENHANCE study: Ezetimibe lowers LDL, but does it matter?
Uncertain what to advise patients whose cholesterol is not ideally controlled, even while they are taking a statin? Unfortunately, I’m afraid the recent publication of the analysis of the ENHANCE study (Ezetimibe and Simvastatin in Hypercholesterolemia Enhances Atherosclerosis Regression),1,2 did little to shed light on the question. I’ve been telling my patients, up front, that we do not yet know for certain whether adding ezetimibe lowers their risk of significant vascular events, even though it does lower LDL.
The ENHANCE study was a well-done randomized trial of ezetimibe 10 mg daily or placebo, along with simvastatin 80 mg daily, tested in patients with familial hypercholesterolemia. These were not your typical patients with minor lipid issues. Their average low-density lipoprotein (LDL) concentration at entry was about 318 mg/dL, with a total cholesterol of 400 mg/dL.
ENHANCE: No difference in intima-media thickness
Ezetimibe was effective in lowering LDL. At 24 months, the ezetimibe group had an LDL of 141 mg/dL, compared with 193 mg/dL in the control group. The primary outcome was carotid artery intima-media thickness (IMT). While the ezetimibe group had a slightly larger decrease in IMT than the control group, this difference was not statistically significant. (There is reasonable evidence that IMT is a marker for coronary events, but the correlation is not perfect.) I suspect many were surprised by this result—that a markedly lower LDL level did not lead to a difference in IMT, especially in this very-high-risk population.
SANDS: Combination therapy lowers IMT
At the same time, another study suggests that a multifactorial intervention, which included ezetimibe, was effective in decreasing IMT—at least in a population of Native Americans with diabetes.3 The SANDS study was a randomized controlled trial of intense blood pressure and lipid management in diabetes mellitus, based on predetermined targets. The LDL target was 70 mg/dL in the intervention group and 100 mg/dL in the control group. If subjects in either group had not met their target on maximal doses of a statin, they were given ezetimibe. When appropriate, non-LDL cholesterol was treated with additional medications, such as niacin. In the end, the intervention group was taking an average of 1.5 cholesterol drugs vs 1.2 for the control group. The authors did not report which medications patients were taking at the end of the trial. Because the intervention included tighter blood pressure control as well, it’s not surprising to note that the intervention group was taking more antihypertensive medications, as well (2.3 vs 1.6 for the control group).
Carotid intimal thickness decreased in the intervention group and increased in the control group (P<.01), but the study was underpowered to find a difference in clinical outcomes. Secondary analysis suggested the IMT difference was primarily due to the lipid intervention, but this finding is by no means certain.
Controversy about use of intermediate markers
The issue of intermediate markers is particularly complicated in the treatment of cholesterol. Although the evidence is clear and incontrovertible that statins reduce coronary artery events, there remains legitimate controversy about the setting of LDL targets, especially below 130 mg/dL.4 The SANDS trial is one of the first to compare results of using differing LDL targets, but it sheds only a little light on this question, as it reported only intermediate targets, and blood pressure control was also better in the intervention group.
Should disease-oriented evidence change practice?
In general, I hesitate to recommend changing practice solely based on disease-oriented evidence, such as LDL levels. And this situation is particularly challenging. Here, we have an intervention (use of ezetimibe) widely adopted into practice without evidence of clinical benefit, because it clearly lowers LDL levels. A troubling fact: Since its introduction, ezetimibe, prescribed either by itself (Zetia) or in a formulation combined with simvastatin (Vytorin), has had rapid market share growth, some of which appears to have been in place of statins. Rates of statin use in the United States, equal to those in Canada in 2002, have not kept up with increases in Canada, while ezetimibe has risen to about 15% of all lipid-lowering agent prescriptions, a much higher rate than in Canada, as of 2006.5 In 2006, the US expenditure on ezetimibe was $2.7 billion.
In the ENHANCE study, this drug did not reduce an intermediate marker (IMT) in a very-high-risk population, yet we don’t really know if IMT is a better predictor of patient outcomes than LDL cholesterol level. And it’s certainly arguable that neither improvement is great enough to warrant billions of dollars annually.
Be up front with patients
What am I going to do in the office tomorrow? Just as there aren’t data to suggest we should stop the use of ezetimibe in a wholesale fashion, there aren’t data to support its widespread use in a wholesale fashion. I can’t get enthusiastic about prescribing ezetimibe for most patients.
What about patients’ questions? I think we need to tell them that their expensive medicine lowers their LDL, but we have no idea if it prevents any of the outcomes that we really care about.
We’ll know more when the ongoing trial based on patient-oriented outcomes is reported, but that’s still a ways off (and an editorial topic for another day).
1. Kastelein JJ, Akdim F, Stroes ES, et al. Simvastatin with or without ezetimibe in familial hypercholesterolemia. N Engl J Med. 2008;358:1431-1443.
2. Effect of Ezetimibe Plus Simvastatin Versus Simvastatin Alone on Atherosclerosis in the Carotid Artery (ENHANCE). http://clinicaltrials.gov/ct2/show/NCT00552097. Accessed June 6, 2008.
3. Howard BV, Roman MJ, Devereux RB, et al. Effect of lower targets for blood pressure and LDL cholesterol on atherosclerosis in diabetes: the SANDS randomized trial. JAMA. 2008;299:1678-1689.
4. Hayward RA, Hofer TP, Vijan S. Narrative review: lack of evidence for recommended low-density lipoprotein treatment targets: a solvable problem. Ann Intern Med. 2006;145:520-530.
5. Jackevicius CA, Tu JV, Ross JS, Ko DT, Krumholz HM. The use of ezetimibe in the United States and Canada. N Engl J Med. 2008;358:1819-1828.
James Stevermer, MD, MSPH
Associate Editor
The Journal of Family Practice
University of Missouri, Columbia
James Stevermer, MD, MSPH
Associate Editor
The Journal of Family Practice
University of Missouri, Columbia
James Stevermer, MD, MSPH
Associate Editor
The Journal of Family Practice
University of Missouri, Columbia
Uncertain what to advise patients whose cholesterol is not ideally controlled, even while they are taking a statin? Unfortunately, I’m afraid the recent publication of the analysis of the ENHANCE study (Ezetimibe and Simvastatin in Hypercholesterolemia Enhances Atherosclerosis Regression),1,2 did little to shed light on the question. I’ve been telling my patients, up front, that we do not yet know for certain whether adding ezetimibe lowers their risk of significant vascular events, even though it does lower LDL.
The ENHANCE study was a well-done randomized trial of ezetimibe 10 mg daily or placebo, along with simvastatin 80 mg daily, tested in patients with familial hypercholesterolemia. These were not your typical patients with minor lipid issues. Their average low-density lipoprotein (LDL) concentration at entry was about 318 mg/dL, with a total cholesterol of 400 mg/dL.
ENHANCE: No difference in intima-media thickness
Ezetimibe was effective in lowering LDL. At 24 months, the ezetimibe group had an LDL of 141 mg/dL, compared with 193 mg/dL in the control group. The primary outcome was carotid artery intima-media thickness (IMT). While the ezetimibe group had a slightly larger decrease in IMT than the control group, this difference was not statistically significant. (There is reasonable evidence that IMT is a marker for coronary events, but the correlation is not perfect.) I suspect many were surprised by this result—that a markedly lower LDL level did not lead to a difference in IMT, especially in this very-high-risk population.
SANDS: Combination therapy lowers IMT
At the same time, another study suggests that a multifactorial intervention, which included ezetimibe, was effective in decreasing IMT—at least in a population of Native Americans with diabetes.3 The SANDS study was a randomized controlled trial of intense blood pressure and lipid management in diabetes mellitus, based on predetermined targets. The LDL target was 70 mg/dL in the intervention group and 100 mg/dL in the control group. If subjects in either group had not met their target on maximal doses of a statin, they were given ezetimibe. When appropriate, non-LDL cholesterol was treated with additional medications, such as niacin. In the end, the intervention group was taking an average of 1.5 cholesterol drugs vs 1.2 for the control group. The authors did not report which medications patients were taking at the end of the trial. Because the intervention included tighter blood pressure control as well, it’s not surprising to note that the intervention group was taking more antihypertensive medications, as well (2.3 vs 1.6 for the control group).
Carotid intimal thickness decreased in the intervention group and increased in the control group (P<.01), but the study was underpowered to find a difference in clinical outcomes. Secondary analysis suggested the IMT difference was primarily due to the lipid intervention, but this finding is by no means certain.
Controversy about use of intermediate markers
The issue of intermediate markers is particularly complicated in the treatment of cholesterol. Although the evidence is clear and incontrovertible that statins reduce coronary artery events, there remains legitimate controversy about the setting of LDL targets, especially below 130 mg/dL.4 The SANDS trial is one of the first to compare results of using differing LDL targets, but it sheds only a little light on this question, as it reported only intermediate targets, and blood pressure control was also better in the intervention group.
Should disease-oriented evidence change practice?
In general, I hesitate to recommend changing practice solely based on disease-oriented evidence, such as LDL levels. And this situation is particularly challenging. Here, we have an intervention (use of ezetimibe) widely adopted into practice without evidence of clinical benefit, because it clearly lowers LDL levels. A troubling fact: Since its introduction, ezetimibe, prescribed either by itself (Zetia) or in a formulation combined with simvastatin (Vytorin), has had rapid market share growth, some of which appears to have been in place of statins. Rates of statin use in the United States, equal to those in Canada in 2002, have not kept up with increases in Canada, while ezetimibe has risen to about 15% of all lipid-lowering agent prescriptions, a much higher rate than in Canada, as of 2006.5 In 2006, the US expenditure on ezetimibe was $2.7 billion.
In the ENHANCE study, this drug did not reduce an intermediate marker (IMT) in a very-high-risk population, yet we don’t really know if IMT is a better predictor of patient outcomes than LDL cholesterol level. And it’s certainly arguable that neither improvement is great enough to warrant billions of dollars annually.
Be up front with patients
What am I going to do in the office tomorrow? Just as there aren’t data to suggest we should stop the use of ezetimibe in a wholesale fashion, there aren’t data to support its widespread use in a wholesale fashion. I can’t get enthusiastic about prescribing ezetimibe for most patients.
What about patients’ questions? I think we need to tell them that their expensive medicine lowers their LDL, but we have no idea if it prevents any of the outcomes that we really care about.
We’ll know more when the ongoing trial based on patient-oriented outcomes is reported, but that’s still a ways off (and an editorial topic for another day).
Uncertain what to advise patients whose cholesterol is not ideally controlled, even while they are taking a statin? Unfortunately, I’m afraid the recent publication of the analysis of the ENHANCE study (Ezetimibe and Simvastatin in Hypercholesterolemia Enhances Atherosclerosis Regression),1,2 did little to shed light on the question. I’ve been telling my patients, up front, that we do not yet know for certain whether adding ezetimibe lowers their risk of significant vascular events, even though it does lower LDL.
The ENHANCE study was a well-done randomized trial of ezetimibe 10 mg daily or placebo, along with simvastatin 80 mg daily, tested in patients with familial hypercholesterolemia. These were not your typical patients with minor lipid issues. Their average low-density lipoprotein (LDL) concentration at entry was about 318 mg/dL, with a total cholesterol of 400 mg/dL.
ENHANCE: No difference in intima-media thickness
Ezetimibe was effective in lowering LDL. At 24 months, the ezetimibe group had an LDL of 141 mg/dL, compared with 193 mg/dL in the control group. The primary outcome was carotid artery intima-media thickness (IMT). While the ezetimibe group had a slightly larger decrease in IMT than the control group, this difference was not statistically significant. (There is reasonable evidence that IMT is a marker for coronary events, but the correlation is not perfect.) I suspect many were surprised by this result—that a markedly lower LDL level did not lead to a difference in IMT, especially in this very-high-risk population.
SANDS: Combination therapy lowers IMT
At the same time, another study suggests that a multifactorial intervention, which included ezetimibe, was effective in decreasing IMT—at least in a population of Native Americans with diabetes.3 The SANDS study was a randomized controlled trial of intense blood pressure and lipid management in diabetes mellitus, based on predetermined targets. The LDL target was 70 mg/dL in the intervention group and 100 mg/dL in the control group. If subjects in either group had not met their target on maximal doses of a statin, they were given ezetimibe. When appropriate, non-LDL cholesterol was treated with additional medications, such as niacin. In the end, the intervention group was taking an average of 1.5 cholesterol drugs vs 1.2 for the control group. The authors did not report which medications patients were taking at the end of the trial. Because the intervention included tighter blood pressure control as well, it’s not surprising to note that the intervention group was taking more antihypertensive medications, as well (2.3 vs 1.6 for the control group).
Carotid intimal thickness decreased in the intervention group and increased in the control group (P<.01), but the study was underpowered to find a difference in clinical outcomes. Secondary analysis suggested the IMT difference was primarily due to the lipid intervention, but this finding is by no means certain.
Controversy about use of intermediate markers
The issue of intermediate markers is particularly complicated in the treatment of cholesterol. Although the evidence is clear and incontrovertible that statins reduce coronary artery events, there remains legitimate controversy about the setting of LDL targets, especially below 130 mg/dL.4 The SANDS trial is one of the first to compare results of using differing LDL targets, but it sheds only a little light on this question, as it reported only intermediate targets, and blood pressure control was also better in the intervention group.
Should disease-oriented evidence change practice?
In general, I hesitate to recommend changing practice solely based on disease-oriented evidence, such as LDL levels. And this situation is particularly challenging. Here, we have an intervention (use of ezetimibe) widely adopted into practice without evidence of clinical benefit, because it clearly lowers LDL levels. A troubling fact: Since its introduction, ezetimibe, prescribed either by itself (Zetia) or in a formulation combined with simvastatin (Vytorin), has had rapid market share growth, some of which appears to have been in place of statins. Rates of statin use in the United States, equal to those in Canada in 2002, have not kept up with increases in Canada, while ezetimibe has risen to about 15% of all lipid-lowering agent prescriptions, a much higher rate than in Canada, as of 2006.5 In 2006, the US expenditure on ezetimibe was $2.7 billion.
In the ENHANCE study, this drug did not reduce an intermediate marker (IMT) in a very-high-risk population, yet we don’t really know if IMT is a better predictor of patient outcomes than LDL cholesterol level. And it’s certainly arguable that neither improvement is great enough to warrant billions of dollars annually.
Be up front with patients
What am I going to do in the office tomorrow? Just as there aren’t data to suggest we should stop the use of ezetimibe in a wholesale fashion, there aren’t data to support its widespread use in a wholesale fashion. I can’t get enthusiastic about prescribing ezetimibe for most patients.
What about patients’ questions? I think we need to tell them that their expensive medicine lowers their LDL, but we have no idea if it prevents any of the outcomes that we really care about.
We’ll know more when the ongoing trial based on patient-oriented outcomes is reported, but that’s still a ways off (and an editorial topic for another day).
1. Kastelein JJ, Akdim F, Stroes ES, et al. Simvastatin with or without ezetimibe in familial hypercholesterolemia. N Engl J Med. 2008;358:1431-1443.
2. Effect of Ezetimibe Plus Simvastatin Versus Simvastatin Alone on Atherosclerosis in the Carotid Artery (ENHANCE). http://clinicaltrials.gov/ct2/show/NCT00552097. Accessed June 6, 2008.
3. Howard BV, Roman MJ, Devereux RB, et al. Effect of lower targets for blood pressure and LDL cholesterol on atherosclerosis in diabetes: the SANDS randomized trial. JAMA. 2008;299:1678-1689.
4. Hayward RA, Hofer TP, Vijan S. Narrative review: lack of evidence for recommended low-density lipoprotein treatment targets: a solvable problem. Ann Intern Med. 2006;145:520-530.
5. Jackevicius CA, Tu JV, Ross JS, Ko DT, Krumholz HM. The use of ezetimibe in the United States and Canada. N Engl J Med. 2008;358:1819-1828.
1. Kastelein JJ, Akdim F, Stroes ES, et al. Simvastatin with or without ezetimibe in familial hypercholesterolemia. N Engl J Med. 2008;358:1431-1443.
2. Effect of Ezetimibe Plus Simvastatin Versus Simvastatin Alone on Atherosclerosis in the Carotid Artery (ENHANCE). http://clinicaltrials.gov/ct2/show/NCT00552097. Accessed June 6, 2008.
3. Howard BV, Roman MJ, Devereux RB, et al. Effect of lower targets for blood pressure and LDL cholesterol on atherosclerosis in diabetes: the SANDS randomized trial. JAMA. 2008;299:1678-1689.
4. Hayward RA, Hofer TP, Vijan S. Narrative review: lack of evidence for recommended low-density lipoprotein treatment targets: a solvable problem. Ann Intern Med. 2006;145:520-530.
5. Jackevicius CA, Tu JV, Ross JS, Ko DT, Krumholz HM. The use of ezetimibe in the United States and Canada. N Engl J Med. 2008;358:1819-1828.
Is a 3-day hospitalization cost-effective for patients after uncomplicated acute myocardial infarction (AMI)?
BACKGROUND: Previous studies have shown the median hospital stay for AMI is 9 days. Shortening stays could reduce health care costs. The Global Utilization of Streptokinase and Tissue Plasminogen Activator for Occluded Coronary Arteries-1 (GUSTO-1) study showed that patients without cardiac complications 4 days after thrombolysis had 30-day mortality rates of 1%. The authors took this a step further: If the mortality rate for a 4-day uncomplicated hospitalization was low, would a 3-day stay yield similar results? This clinical decision analysis determined whether reducing hospital stays to 3 days would be economically feasible for patients receiving thrombolytics for AMI.
POPULATION STUDIED: GUSTO-1 was an international randomized control trial in which 4 different thrombolytic regimens were compared for more than 41,000 people. The authors of this study used data from the 22,000 people who had uncomplicated 72-hour hospital courses after thrombolysis; “uncomplicated” was defined as the absence of death or serious cardiovascular events.
STUDY DESIGN AND VALIDITY: The authors of this decision analysis compared the cost per year of life saved by discharging patients without complications at 72 hours instead of 96 hours after thrombolysis. The researchers determined the number of patients who survived a treatable ventricular arrhythmia after 3 days and assumed that these patients would have died in an outpatient setting. The primary costs considered were the additional nursing and bed charges for the fourth day. Ancillary costs, such as laboratory testing and stress testing for risk stratification, were assumed to have occurred at a comparable frequency and cost in the outpatient setting. Costs were obtained from reasonable sources with appropriate discounting (discounting means that a benefit in the future is less highly valued than a benefit in the present).
OUTCOMES MEASURED: The primary outcome was cost per life-year saved. Other outcomes included the rates of death, ventricular arrhythmia, and other cardiovascular events.
RESULTS: The rate of ventricular arrhythmia for all 41,000 GUSTO-1 subjects dropped sharply after 48 hours. Of the 22,000 patients with uncomplicated courses at 72 hours, 16 had a subsequent serious ventricular arrhythmia (1 event per 1400 patients). Three patients with arrhythmias died, while 13 survived at least 24 hours. Patients who suffered a ventricular arrhythmia between days 3 and 4 had a 1-year mortality rate of 9.5%, 4 times that of those without arrhythmia. The authors concluded that hospitalizing a patient without complications for 4 days added an average of 0.006 years of life (slightly more than 2 days). This extra hospital day costs $105,629 per year of life saved. The sensitivity analysis showed that the range of costs is between $66,000 and $184,000 per year of life saved.
This study shows that it is marginally cost-effective to pay for an extra day for a monitored bed to prevent death of lethal arrhythmias. However, the authors of this study did not evaluate other potential benefits of longer hospitalization, such as further education, safer risk stratification, and improved treatment for complications. For instance, 2.3% of the patients without complications at discharge would have suffered other complications (eg, recurrent ischemia, stroke) within 24 hours. An accurate method for identifying patients at increased risk after 72 hours would improve overall cost-effectiveness. Given these concerns, this study does not convincingly show that shortening the length of stay to 3 days is truly cost-effective.
BACKGROUND: Previous studies have shown the median hospital stay for AMI is 9 days. Shortening stays could reduce health care costs. The Global Utilization of Streptokinase and Tissue Plasminogen Activator for Occluded Coronary Arteries-1 (GUSTO-1) study showed that patients without cardiac complications 4 days after thrombolysis had 30-day mortality rates of 1%. The authors took this a step further: If the mortality rate for a 4-day uncomplicated hospitalization was low, would a 3-day stay yield similar results? This clinical decision analysis determined whether reducing hospital stays to 3 days would be economically feasible for patients receiving thrombolytics for AMI.
POPULATION STUDIED: GUSTO-1 was an international randomized control trial in which 4 different thrombolytic regimens were compared for more than 41,000 people. The authors of this study used data from the 22,000 people who had uncomplicated 72-hour hospital courses after thrombolysis; “uncomplicated” was defined as the absence of death or serious cardiovascular events.
STUDY DESIGN AND VALIDITY: The authors of this decision analysis compared the cost per year of life saved by discharging patients without complications at 72 hours instead of 96 hours after thrombolysis. The researchers determined the number of patients who survived a treatable ventricular arrhythmia after 3 days and assumed that these patients would have died in an outpatient setting. The primary costs considered were the additional nursing and bed charges for the fourth day. Ancillary costs, such as laboratory testing and stress testing for risk stratification, were assumed to have occurred at a comparable frequency and cost in the outpatient setting. Costs were obtained from reasonable sources with appropriate discounting (discounting means that a benefit in the future is less highly valued than a benefit in the present).
OUTCOMES MEASURED: The primary outcome was cost per life-year saved. Other outcomes included the rates of death, ventricular arrhythmia, and other cardiovascular events.
RESULTS: The rate of ventricular arrhythmia for all 41,000 GUSTO-1 subjects dropped sharply after 48 hours. Of the 22,000 patients with uncomplicated courses at 72 hours, 16 had a subsequent serious ventricular arrhythmia (1 event per 1400 patients). Three patients with arrhythmias died, while 13 survived at least 24 hours. Patients who suffered a ventricular arrhythmia between days 3 and 4 had a 1-year mortality rate of 9.5%, 4 times that of those without arrhythmia. The authors concluded that hospitalizing a patient without complications for 4 days added an average of 0.006 years of life (slightly more than 2 days). This extra hospital day costs $105,629 per year of life saved. The sensitivity analysis showed that the range of costs is between $66,000 and $184,000 per year of life saved.
This study shows that it is marginally cost-effective to pay for an extra day for a monitored bed to prevent death of lethal arrhythmias. However, the authors of this study did not evaluate other potential benefits of longer hospitalization, such as further education, safer risk stratification, and improved treatment for complications. For instance, 2.3% of the patients without complications at discharge would have suffered other complications (eg, recurrent ischemia, stroke) within 24 hours. An accurate method for identifying patients at increased risk after 72 hours would improve overall cost-effectiveness. Given these concerns, this study does not convincingly show that shortening the length of stay to 3 days is truly cost-effective.
BACKGROUND: Previous studies have shown the median hospital stay for AMI is 9 days. Shortening stays could reduce health care costs. The Global Utilization of Streptokinase and Tissue Plasminogen Activator for Occluded Coronary Arteries-1 (GUSTO-1) study showed that patients without cardiac complications 4 days after thrombolysis had 30-day mortality rates of 1%. The authors took this a step further: If the mortality rate for a 4-day uncomplicated hospitalization was low, would a 3-day stay yield similar results? This clinical decision analysis determined whether reducing hospital stays to 3 days would be economically feasible for patients receiving thrombolytics for AMI.
POPULATION STUDIED: GUSTO-1 was an international randomized control trial in which 4 different thrombolytic regimens were compared for more than 41,000 people. The authors of this study used data from the 22,000 people who had uncomplicated 72-hour hospital courses after thrombolysis; “uncomplicated” was defined as the absence of death or serious cardiovascular events.
STUDY DESIGN AND VALIDITY: The authors of this decision analysis compared the cost per year of life saved by discharging patients without complications at 72 hours instead of 96 hours after thrombolysis. The researchers determined the number of patients who survived a treatable ventricular arrhythmia after 3 days and assumed that these patients would have died in an outpatient setting. The primary costs considered were the additional nursing and bed charges for the fourth day. Ancillary costs, such as laboratory testing and stress testing for risk stratification, were assumed to have occurred at a comparable frequency and cost in the outpatient setting. Costs were obtained from reasonable sources with appropriate discounting (discounting means that a benefit in the future is less highly valued than a benefit in the present).
OUTCOMES MEASURED: The primary outcome was cost per life-year saved. Other outcomes included the rates of death, ventricular arrhythmia, and other cardiovascular events.
RESULTS: The rate of ventricular arrhythmia for all 41,000 GUSTO-1 subjects dropped sharply after 48 hours. Of the 22,000 patients with uncomplicated courses at 72 hours, 16 had a subsequent serious ventricular arrhythmia (1 event per 1400 patients). Three patients with arrhythmias died, while 13 survived at least 24 hours. Patients who suffered a ventricular arrhythmia between days 3 and 4 had a 1-year mortality rate of 9.5%, 4 times that of those without arrhythmia. The authors concluded that hospitalizing a patient without complications for 4 days added an average of 0.006 years of life (slightly more than 2 days). This extra hospital day costs $105,629 per year of life saved. The sensitivity analysis showed that the range of costs is between $66,000 and $184,000 per year of life saved.
This study shows that it is marginally cost-effective to pay for an extra day for a monitored bed to prevent death of lethal arrhythmias. However, the authors of this study did not evaluate other potential benefits of longer hospitalization, such as further education, safer risk stratification, and improved treatment for complications. For instance, 2.3% of the patients without complications at discharge would have suffered other complications (eg, recurrent ischemia, stroke) within 24 hours. An accurate method for identifying patients at increased risk after 72 hours would improve overall cost-effectiveness. Given these concerns, this study does not convincingly show that shortening the length of stay to 3 days is truly cost-effective.
Helicobacter Pylori Eradication Does Not Improve Symptoms of Nonulcer Dyspepsia
CLINICAL QUESTION: Will eradication of Helicobacter pylori improve the symptoms of nonulcer dyspepsia?
BACKGROUND: Although H pylori is associated with peptic ulcer disease, chronic gastritis, and other syndromes, its role in nonulcer dyspepsia is much more controversial. A recent meta-analysis suggested that there may be some benefit to H pylori eradication in nonulcer dyspepsia, but it did not include 2 recent studies with negative results.1 The authors of this study performed the first large multicentered randomized trial in the United States to evaluate the efficacy of H pylori eradication in nonulcer dyspepsia.
POPULATION STUDIED: Consecutive adult patients were invited to participate if they had at least moderate pain or discomfort in the upper abdomen for at least 3 months. Subjects all had a normal esophagogastroduodenal endoscopy (EGD) and a positive result on a carbon-13 urea breath test for H pylori. The average age was 46 years, and the other demographic characteristics were reasonably representative of the general population. Of the 640 patients screened, 337 were enrolled. Most of the exclusions were because patients did not have H pylori or had other underlying conditions.
STUDY DESIGN AND VALIDITY: This was a randomized multicenter trial. Patients were randomly assigned to receive either omeprazole 20 mg, amoxicillin 1000 mg, or clarithromycin 500 mg twice daily for 2 weeks, or identical placebos. In their power analysis, the authors calculated that 270 patients would provide an 88% chance of detecting a 20% reduction in symptoms. Overall, the methods of this study were appropriate to answer this particular question.
OUTCOMES MEASURED: The primary outcome reported was successful treatment (defined by the presence of no more than mild symptoms of dyspepsia during the previous week). Patients completed symptom diaries and the validated Gastrointestinal Symptom Rating Scale at baseline and 1, 3, 6, 9, and 12 months after enrollment. The urea breath test was repeated at the first return visit, and all patients had a repeat EGD and urea breath test at the end of the study (1 year). Quality of life was measured at enrollment and the end of the study using the Medical Outcomes Study Short Form-36 survey instrument.
RESULTS: With respect to the primary outcome, 46% of the patients in the intervention group had successful treatment compared with 50% in the control group (absolute difference = -4%; 95% confidence interval [CI], -15 to 8). Treatment was well tolerated and compliance was excellent in both groups. The absolute difference between groups for complete resolution of dyspeptic symptoms was 5% (95% CI, -5 to 15). There was no significant difference in quality-of-life scores. Not surprisingly, subjects in the intervention group did have a substantial reduction in the presence of H pylori.
The results of this well-done study suggest that there is no benefit to treatment of H pylori in patients with nonulcer dyspepsia. Two other recent studies support this conclusion.2,3 Unfortunately, these studies do not answer the more crucial primary care question: What is the appropriate diagnostic and therapeutic approach for patients with dyspepsia? Dyspepsia is a very common problem, and it would be very expensive to image the upper gastrointestinal tract on all dyspeptic patients. All patients enrolled in these studies were found not to have ulcer disease or cancer. In addition, none of these studies have followed patients for more than 12 months. Therefore, we do not know if there is benefit to long-term eradication of H pylori (such as reduction of risk of cancer or serious peptic ulcer disease). In dyspeptic patients who do not have ulcers or gastric cancer, it is unlikely that the elimination of H pylori will significantly improve their symptoms. Whether empiric eradication of H pylori will benefit patients presenting with undifferentiated dyspepsia remains unknown.
CLINICAL QUESTION: Will eradication of Helicobacter pylori improve the symptoms of nonulcer dyspepsia?
BACKGROUND: Although H pylori is associated with peptic ulcer disease, chronic gastritis, and other syndromes, its role in nonulcer dyspepsia is much more controversial. A recent meta-analysis suggested that there may be some benefit to H pylori eradication in nonulcer dyspepsia, but it did not include 2 recent studies with negative results.1 The authors of this study performed the first large multicentered randomized trial in the United States to evaluate the efficacy of H pylori eradication in nonulcer dyspepsia.
POPULATION STUDIED: Consecutive adult patients were invited to participate if they had at least moderate pain or discomfort in the upper abdomen for at least 3 months. Subjects all had a normal esophagogastroduodenal endoscopy (EGD) and a positive result on a carbon-13 urea breath test for H pylori. The average age was 46 years, and the other demographic characteristics were reasonably representative of the general population. Of the 640 patients screened, 337 were enrolled. Most of the exclusions were because patients did not have H pylori or had other underlying conditions.
STUDY DESIGN AND VALIDITY: This was a randomized multicenter trial. Patients were randomly assigned to receive either omeprazole 20 mg, amoxicillin 1000 mg, or clarithromycin 500 mg twice daily for 2 weeks, or identical placebos. In their power analysis, the authors calculated that 270 patients would provide an 88% chance of detecting a 20% reduction in symptoms. Overall, the methods of this study were appropriate to answer this particular question.
OUTCOMES MEASURED: The primary outcome reported was successful treatment (defined by the presence of no more than mild symptoms of dyspepsia during the previous week). Patients completed symptom diaries and the validated Gastrointestinal Symptom Rating Scale at baseline and 1, 3, 6, 9, and 12 months after enrollment. The urea breath test was repeated at the first return visit, and all patients had a repeat EGD and urea breath test at the end of the study (1 year). Quality of life was measured at enrollment and the end of the study using the Medical Outcomes Study Short Form-36 survey instrument.
RESULTS: With respect to the primary outcome, 46% of the patients in the intervention group had successful treatment compared with 50% in the control group (absolute difference = -4%; 95% confidence interval [CI], -15 to 8). Treatment was well tolerated and compliance was excellent in both groups. The absolute difference between groups for complete resolution of dyspeptic symptoms was 5% (95% CI, -5 to 15). There was no significant difference in quality-of-life scores. Not surprisingly, subjects in the intervention group did have a substantial reduction in the presence of H pylori.
The results of this well-done study suggest that there is no benefit to treatment of H pylori in patients with nonulcer dyspepsia. Two other recent studies support this conclusion.2,3 Unfortunately, these studies do not answer the more crucial primary care question: What is the appropriate diagnostic and therapeutic approach for patients with dyspepsia? Dyspepsia is a very common problem, and it would be very expensive to image the upper gastrointestinal tract on all dyspeptic patients. All patients enrolled in these studies were found not to have ulcer disease or cancer. In addition, none of these studies have followed patients for more than 12 months. Therefore, we do not know if there is benefit to long-term eradication of H pylori (such as reduction of risk of cancer or serious peptic ulcer disease). In dyspeptic patients who do not have ulcers or gastric cancer, it is unlikely that the elimination of H pylori will significantly improve their symptoms. Whether empiric eradication of H pylori will benefit patients presenting with undifferentiated dyspepsia remains unknown.
CLINICAL QUESTION: Will eradication of Helicobacter pylori improve the symptoms of nonulcer dyspepsia?
BACKGROUND: Although H pylori is associated with peptic ulcer disease, chronic gastritis, and other syndromes, its role in nonulcer dyspepsia is much more controversial. A recent meta-analysis suggested that there may be some benefit to H pylori eradication in nonulcer dyspepsia, but it did not include 2 recent studies with negative results.1 The authors of this study performed the first large multicentered randomized trial in the United States to evaluate the efficacy of H pylori eradication in nonulcer dyspepsia.
POPULATION STUDIED: Consecutive adult patients were invited to participate if they had at least moderate pain or discomfort in the upper abdomen for at least 3 months. Subjects all had a normal esophagogastroduodenal endoscopy (EGD) and a positive result on a carbon-13 urea breath test for H pylori. The average age was 46 years, and the other demographic characteristics were reasonably representative of the general population. Of the 640 patients screened, 337 were enrolled. Most of the exclusions were because patients did not have H pylori or had other underlying conditions.
STUDY DESIGN AND VALIDITY: This was a randomized multicenter trial. Patients were randomly assigned to receive either omeprazole 20 mg, amoxicillin 1000 mg, or clarithromycin 500 mg twice daily for 2 weeks, or identical placebos. In their power analysis, the authors calculated that 270 patients would provide an 88% chance of detecting a 20% reduction in symptoms. Overall, the methods of this study were appropriate to answer this particular question.
OUTCOMES MEASURED: The primary outcome reported was successful treatment (defined by the presence of no more than mild symptoms of dyspepsia during the previous week). Patients completed symptom diaries and the validated Gastrointestinal Symptom Rating Scale at baseline and 1, 3, 6, 9, and 12 months after enrollment. The urea breath test was repeated at the first return visit, and all patients had a repeat EGD and urea breath test at the end of the study (1 year). Quality of life was measured at enrollment and the end of the study using the Medical Outcomes Study Short Form-36 survey instrument.
RESULTS: With respect to the primary outcome, 46% of the patients in the intervention group had successful treatment compared with 50% in the control group (absolute difference = -4%; 95% confidence interval [CI], -15 to 8). Treatment was well tolerated and compliance was excellent in both groups. The absolute difference between groups for complete resolution of dyspeptic symptoms was 5% (95% CI, -5 to 15). There was no significant difference in quality-of-life scores. Not surprisingly, subjects in the intervention group did have a substantial reduction in the presence of H pylori.
The results of this well-done study suggest that there is no benefit to treatment of H pylori in patients with nonulcer dyspepsia. Two other recent studies support this conclusion.2,3 Unfortunately, these studies do not answer the more crucial primary care question: What is the appropriate diagnostic and therapeutic approach for patients with dyspepsia? Dyspepsia is a very common problem, and it would be very expensive to image the upper gastrointestinal tract on all dyspeptic patients. All patients enrolled in these studies were found not to have ulcer disease or cancer. In addition, none of these studies have followed patients for more than 12 months. Therefore, we do not know if there is benefit to long-term eradication of H pylori (such as reduction of risk of cancer or serious peptic ulcer disease). In dyspeptic patients who do not have ulcers or gastric cancer, it is unlikely that the elimination of H pylori will significantly improve their symptoms. Whether empiric eradication of H pylori will benefit patients presenting with undifferentiated dyspepsia remains unknown.
Helicobacter Pylori Eradication for Nonulcer Dyspepsia Is of Limited Value
CLINICAL QUESTION: Is H pylori associated with nonulcer dyspepsia, and if so, will eradication improve symptoms?
BACKGROUND: H pylori is associated with peptic ulcer disease, chronic gastritis, and other syndromes. The role of H pylori in nonulcer dyspepsia is less well defined. Many people have symptoms of dyspepsia, accounting for 3% to 5% of all primary care visits. Acid suppression therapy and motility agents have been the mainstay of treatment for empiric management of nonulcer dyspepsia. If H pylori is a cause of nonulcer dyspepsia, its eradication may reduce or remove symptoms. Since no study has been definitive, the authors undertook a pair of meta-analyses to address this question.
POPULATION STUDIED: The first meta-analysis was to investigate the possible association between H pylori and nonulcer dyspepsia. The authors identified 23 articles, involving more than 7000 patients. These studies were completed in Europe, Africa, Asia, and North America. The second part of this meta-analysis included only randomized trials testing whether eradication of H pylori would improve symptoms of nonulcer dyspepsia. The authors found 5 randomized trials of 778 patients from North America and Europe. Two of those studies had 1-year follow-up and used 3 agents to eradicate the H pylori. The other 3 studies followed patients for only 8 weeks and used a single agent to attempt eradication of H pylori. The latter 3 studies had lower overall quality scores.
STUDY DESIGN AND VALIDITY: These meta-analyses were reasonably well done, although the reported search strategy was somewhat limited. The authors did not include studies published in languages other than English or published only in abstract format. Their reported search strategy only included MEDLINE searches, although they may have searched references of selected papers. No assessment of potential publication biases was undertaken. The authors developed quality scores for each of the articles included, and they performed appropriate sensitivity analysis, testing whether study methods or quality affected the results. Overall, the quality scores of the included studies were not very high; the median score was only 41% of the best possible score. Most studies had reduced scores because of inadequate definition of dyspepsia and poor (or no) control for confounding.
OUTCOMES MEASURED: The authors created summary scores for studies and then combined them to form summary estimates. In the meta-analysis of association, the authors created an odds ratio (OR) for an association between H pylori and nonulcer dyspepsia. In the treatment meta-analysis, the OR represents the odds of improvement of nonulcer dyspepsia symptoms after H pylori treatment.
RESULTS: For the association between H pylori and nonulcer dyspepsia, a summary OR of 1.6 (95% confidence interval [CI], 1.4 - 1.8) was found. Of note, studies of lower quality showed a stronger association. In addition, studies using a weaker methodology (case-control) had a higher OR (OR = 2.0; 95% CI, 1.7 - 2.5) than the studies that used prevalence measures in the general population (OR = 1.3; 95% CI, 1.0 - 1.7). In the meta-analysis investigating potential benefit of H pylori eradication, the summary OR was 1.9 (95% CI, 1.3 - 2.6). Studies with 8-week follow-up and using a single agent found a much stronger association (OR = 15.4) than those that used a 1-year follow-up and 3 agents to eradicate H pylori (OR = 1.4; 95% CI, 1.0 - 2.3).
The summary ORs for the 2 parts of this study suggest a correlation between H pylori and nonulcer dyspepsia, and that eradication of H pylori would improve the symptoms of nonulcer dyspepsia. However, the studies with better designs tended to find a smaller association. Many studies had poor quality scores, and there is a substantial potential for systematic bias. In addition, 2 recent eradication studies with negative results were not included because they were published at nearly the same time as this study (see next POEM).1,2 For these reasons, it is possible the findings reported are spurious. It is likely that at best there is minimal benefit to eradicating H pylori in patients with nonulcer dyspepsia.
CLINICAL QUESTION: Is H pylori associated with nonulcer dyspepsia, and if so, will eradication improve symptoms?
BACKGROUND: H pylori is associated with peptic ulcer disease, chronic gastritis, and other syndromes. The role of H pylori in nonulcer dyspepsia is less well defined. Many people have symptoms of dyspepsia, accounting for 3% to 5% of all primary care visits. Acid suppression therapy and motility agents have been the mainstay of treatment for empiric management of nonulcer dyspepsia. If H pylori is a cause of nonulcer dyspepsia, its eradication may reduce or remove symptoms. Since no study has been definitive, the authors undertook a pair of meta-analyses to address this question.
POPULATION STUDIED: The first meta-analysis was to investigate the possible association between H pylori and nonulcer dyspepsia. The authors identified 23 articles, involving more than 7000 patients. These studies were completed in Europe, Africa, Asia, and North America. The second part of this meta-analysis included only randomized trials testing whether eradication of H pylori would improve symptoms of nonulcer dyspepsia. The authors found 5 randomized trials of 778 patients from North America and Europe. Two of those studies had 1-year follow-up and used 3 agents to eradicate the H pylori. The other 3 studies followed patients for only 8 weeks and used a single agent to attempt eradication of H pylori. The latter 3 studies had lower overall quality scores.
STUDY DESIGN AND VALIDITY: These meta-analyses were reasonably well done, although the reported search strategy was somewhat limited. The authors did not include studies published in languages other than English or published only in abstract format. Their reported search strategy only included MEDLINE searches, although they may have searched references of selected papers. No assessment of potential publication biases was undertaken. The authors developed quality scores for each of the articles included, and they performed appropriate sensitivity analysis, testing whether study methods or quality affected the results. Overall, the quality scores of the included studies were not very high; the median score was only 41% of the best possible score. Most studies had reduced scores because of inadequate definition of dyspepsia and poor (or no) control for confounding.
OUTCOMES MEASURED: The authors created summary scores for studies and then combined them to form summary estimates. In the meta-analysis of association, the authors created an odds ratio (OR) for an association between H pylori and nonulcer dyspepsia. In the treatment meta-analysis, the OR represents the odds of improvement of nonulcer dyspepsia symptoms after H pylori treatment.
RESULTS: For the association between H pylori and nonulcer dyspepsia, a summary OR of 1.6 (95% confidence interval [CI], 1.4 - 1.8) was found. Of note, studies of lower quality showed a stronger association. In addition, studies using a weaker methodology (case-control) had a higher OR (OR = 2.0; 95% CI, 1.7 - 2.5) than the studies that used prevalence measures in the general population (OR = 1.3; 95% CI, 1.0 - 1.7). In the meta-analysis investigating potential benefit of H pylori eradication, the summary OR was 1.9 (95% CI, 1.3 - 2.6). Studies with 8-week follow-up and using a single agent found a much stronger association (OR = 15.4) than those that used a 1-year follow-up and 3 agents to eradicate H pylori (OR = 1.4; 95% CI, 1.0 - 2.3).
The summary ORs for the 2 parts of this study suggest a correlation between H pylori and nonulcer dyspepsia, and that eradication of H pylori would improve the symptoms of nonulcer dyspepsia. However, the studies with better designs tended to find a smaller association. Many studies had poor quality scores, and there is a substantial potential for systematic bias. In addition, 2 recent eradication studies with negative results were not included because they were published at nearly the same time as this study (see next POEM).1,2 For these reasons, it is possible the findings reported are spurious. It is likely that at best there is minimal benefit to eradicating H pylori in patients with nonulcer dyspepsia.
CLINICAL QUESTION: Is H pylori associated with nonulcer dyspepsia, and if so, will eradication improve symptoms?
BACKGROUND: H pylori is associated with peptic ulcer disease, chronic gastritis, and other syndromes. The role of H pylori in nonulcer dyspepsia is less well defined. Many people have symptoms of dyspepsia, accounting for 3% to 5% of all primary care visits. Acid suppression therapy and motility agents have been the mainstay of treatment for empiric management of nonulcer dyspepsia. If H pylori is a cause of nonulcer dyspepsia, its eradication may reduce or remove symptoms. Since no study has been definitive, the authors undertook a pair of meta-analyses to address this question.
POPULATION STUDIED: The first meta-analysis was to investigate the possible association between H pylori and nonulcer dyspepsia. The authors identified 23 articles, involving more than 7000 patients. These studies were completed in Europe, Africa, Asia, and North America. The second part of this meta-analysis included only randomized trials testing whether eradication of H pylori would improve symptoms of nonulcer dyspepsia. The authors found 5 randomized trials of 778 patients from North America and Europe. Two of those studies had 1-year follow-up and used 3 agents to eradicate the H pylori. The other 3 studies followed patients for only 8 weeks and used a single agent to attempt eradication of H pylori. The latter 3 studies had lower overall quality scores.
STUDY DESIGN AND VALIDITY: These meta-analyses were reasonably well done, although the reported search strategy was somewhat limited. The authors did not include studies published in languages other than English or published only in abstract format. Their reported search strategy only included MEDLINE searches, although they may have searched references of selected papers. No assessment of potential publication biases was undertaken. The authors developed quality scores for each of the articles included, and they performed appropriate sensitivity analysis, testing whether study methods or quality affected the results. Overall, the quality scores of the included studies were not very high; the median score was only 41% of the best possible score. Most studies had reduced scores because of inadequate definition of dyspepsia and poor (or no) control for confounding.
OUTCOMES MEASURED: The authors created summary scores for studies and then combined them to form summary estimates. In the meta-analysis of association, the authors created an odds ratio (OR) for an association between H pylori and nonulcer dyspepsia. In the treatment meta-analysis, the OR represents the odds of improvement of nonulcer dyspepsia symptoms after H pylori treatment.
RESULTS: For the association between H pylori and nonulcer dyspepsia, a summary OR of 1.6 (95% confidence interval [CI], 1.4 - 1.8) was found. Of note, studies of lower quality showed a stronger association. In addition, studies using a weaker methodology (case-control) had a higher OR (OR = 2.0; 95% CI, 1.7 - 2.5) than the studies that used prevalence measures in the general population (OR = 1.3; 95% CI, 1.0 - 1.7). In the meta-analysis investigating potential benefit of H pylori eradication, the summary OR was 1.9 (95% CI, 1.3 - 2.6). Studies with 8-week follow-up and using a single agent found a much stronger association (OR = 15.4) than those that used a 1-year follow-up and 3 agents to eradicate H pylori (OR = 1.4; 95% CI, 1.0 - 2.3).
The summary ORs for the 2 parts of this study suggest a correlation between H pylori and nonulcer dyspepsia, and that eradication of H pylori would improve the symptoms of nonulcer dyspepsia. However, the studies with better designs tended to find a smaller association. Many studies had poor quality scores, and there is a substantial potential for systematic bias. In addition, 2 recent eradication studies with negative results were not included because they were published at nearly the same time as this study (see next POEM).1,2 For these reasons, it is possible the findings reported are spurious. It is likely that at best there is minimal benefit to eradicating H pylori in patients with nonulcer dyspepsia.