Cellular Therapy

The US Food and Drug Administration (FDA) has approved obecabtagene autoleucel, or obe-cel (AUTO1, Autolus Therapeutics) for the treatment of relapsed or refractory adult B-cell acute lymphoblastic leukemia (ALL).

Approval of the CD19 chimeric antigen receptor T-cell therapy (CAR T) — which, according to Autolus, was specifically “designed to have a ‘fast-off’ kinetic” to minimize excessive activation of the programmed T cells and thereby increase T-cell persistence and reduce T-cell exhaustion — was based on efficacy and safety findings from the open-label, single-arm FELIX study. 

Initial study findings were presented at the 2023 American Society of Clinical Oncology (ASCO) annual meeting, and updated findings from a pooled analysis of FELIX phase 1b/2 data were presented at the 2023 American Society of Hematology conference.

The pooled analysis showed a complete response (CR) or CR with incomplete hematologic recovery (CR/CRi) rate of 77% and a CR rate of 57% at a median follow up of 11 months in 124 patients treated between September 2020 and December 2022.

Among evaluable patients, 96% achieved minimal residual disease (MRD)-negative status. Median duration of response was not reached.

Safety findings showed a low 2.4% and 7.1% rate of grade 3 or higher cytokine release syndrome (CRS) and/or grade 3 or higher immune effector cell-associated neurotoxicity syndrome (ICANS), respectively. 

FELIX study participants were 18 years of age or older with relapsed/refractory B-cell ALL and Eastern Cooperative Oncology Group performance status score of 0 or 1. Patients underwent lymphodepletion with fludarabine as 4 x 30 mg/m² and cyclophosphamide at 2 x 500 mg/m². Obe-cel was administered at a target dose of 410 x 10⁶ CAR T cells as a split dose on days 1 and 10 based on pre-lymphodepletion bone marrow blast burden.

CAR T expansion was similar across the study cohorts, and CAR T persistence was ongoing in most responders at follow-up. 

A particular benefit was observed in patients’ low leukemia burden, defined as morphological remission per investigator assessment (less than 5% bone marrow blasts without extramedullary disease) as measured at screening or at the start of lymphodepletion, prior to obe-cel infusion.

For example, of 10 evaluable patients with MRD at screening, nine achieved CR or Cri, and all 10 achieved MRD-negative status after infusion. Median duration of response was not reached; no grade 3 or higher CRS occurred; and one patient had grade 3 or higher ICANS. And in a subset of 27 evaluable patients in morphological remission at the time of lymphodepletion, 24 (89%) achieved CR/CRi, and 100% of MRD evaluable responders achieved MRD negative CR/CRi after infusion. In this subset, median duration of response was not reached, and no patients experienced grade 3 or higher CRS or ICANS. 

Autolus Technologies announced in January 2024 that the FDA had accepted its Biologics License Application for obe-cel and noted the treatment had also been granted Orphan Drug Designation by the FDA. 

In June 2024, an additional update presented at the annual ASCO meeting showed that 12-month event-free survival was 50% and 43% with or without censoring for consolidative stem cell transplant or new therapies, respectively, and overall survival was 61% and 59%, respectively. 

Ongoing CAR T-cell persistency and B-cell aplasia were associated with improved event-free survival without further consolidation after obe-cel infusion, the investigators reported, noting that consolidative stem cell transplant for those in MRD-negative remission did not improve event-free survival or overall survival at 12 months. 

In a commentary, Jorge Cortes, MD, director of the Georgia Cancer Center, Augusta, said the findings presented at ASCO suggest that obe-cel is “very promising and may [represent] a different strategy that decreases the toxicity for CAR T cells.” 

The study was funded by Merck. Smith reports receiving grant funding from Merck. Jones reports no relevant financial relationships.

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

The US Food and Drug Administration (FDA) has approved obecabtagene autoleucel, or obe-cel (AUTO1, Autolus Therapeutics) for the treatment of relapsed or refractory adult B-cell acute lymphoblastic leukemia (ALL).

Approval of the CD19 chimeric antigen receptor T-cell therapy (CAR T) — which, according to Autolus, was specifically “designed to have a ‘fast-off’ kinetic” to minimize excessive activation of the programmed T cells and thereby increase T-cell persistence and reduce T-cell exhaustion — was based on efficacy and safety findings from the open-label, single-arm FELIX study. 

Initial study findings were presented at the 2023 American Society of Clinical Oncology (ASCO) annual meeting, and updated findings from a pooled analysis of FELIX phase 1b/2 data were presented at the 2023 American Society of Hematology conference.

The pooled analysis showed a complete response (CR) or CR with incomplete hematologic recovery (CR/CRi) rate of 77% and a CR rate of 57% at a median follow up of 11 months in 124 patients treated between September 2020 and December 2022.

Among evaluable patients, 96% achieved minimal residual disease (MRD)-negative status. Median duration of response was not reached.

Safety findings showed a low 2.4% and 7.1% rate of grade 3 or higher cytokine release syndrome (CRS) and/or grade 3 or higher immune effector cell-associated neurotoxicity syndrome (ICANS), respectively. 

FELIX study participants were 18 years of age or older with relapsed/refractory B-cell ALL and Eastern Cooperative Oncology Group performance status score of 0 or 1. Patients underwent lymphodepletion with fludarabine as 4 x 30 mg/m² and cyclophosphamide at 2 x 500 mg/m². Obe-cel was administered at a target dose of 410 x 10⁶ CAR T cells as a split dose on days 1 and 10 based on pre-lymphodepletion bone marrow blast burden.

CAR T expansion was similar across the study cohorts, and CAR T persistence was ongoing in most responders at follow-up. 

A particular benefit was observed in patients’ low leukemia burden, defined as morphological remission per investigator assessment (less than 5% bone marrow blasts without extramedullary disease) as measured at screening or at the start of lymphodepletion, prior to obe-cel infusion.

For example, of 10 evaluable patients with MRD at screening, nine achieved CR or Cri, and all 10 achieved MRD-negative status after infusion. Median duration of response was not reached; no grade 3 or higher CRS occurred; and one patient had grade 3 or higher ICANS. And in a subset of 27 evaluable patients in morphological remission at the time of lymphodepletion, 24 (89%) achieved CR/CRi, and 100% of MRD evaluable responders achieved MRD negative CR/CRi after infusion. In this subset, median duration of response was not reached, and no patients experienced grade 3 or higher CRS or ICANS. 

Autolus Technologies announced in January 2024 that the FDA had accepted its Biologics License Application for obe-cel and noted the treatment had also been granted Orphan Drug Designation by the FDA. 

In June 2024, an additional update presented at the annual ASCO meeting showed that 12-month event-free survival was 50% and 43% with or without censoring for consolidative stem cell transplant or new therapies, respectively, and overall survival was 61% and 59%, respectively. 

Ongoing CAR T-cell persistency and B-cell aplasia were associated with improved event-free survival without further consolidation after obe-cel infusion, the investigators reported, noting that consolidative stem cell transplant for those in MRD-negative remission did not improve event-free survival or overall survival at 12 months. 

In a commentary, Jorge Cortes, MD, director of the Georgia Cancer Center, Augusta, said the findings presented at ASCO suggest that obe-cel is “very promising and may [represent] a different strategy that decreases the toxicity for CAR T cells.” 

The study was funded by Merck. Smith reports receiving grant funding from Merck. Jones reports no relevant financial relationships.

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

The US Food and Drug Administration (FDA) has approved obecabtagene autoleucel, or obe-cel (AUTO1, Autolus Therapeutics) for the treatment of relapsed or refractory adult B-cell acute lymphoblastic leukemia (ALL).

Approval of the CD19 chimeric antigen receptor T-cell therapy (CAR T) — which, according to Autolus, was specifically “designed to have a ‘fast-off’ kinetic” to minimize excessive activation of the programmed T cells and thereby increase T-cell persistence and reduce T-cell exhaustion — was based on efficacy and safety findings from the open-label, single-arm FELIX study. 

Initial study findings were presented at the 2023 American Society of Clinical Oncology (ASCO) annual meeting, and updated findings from a pooled analysis of FELIX phase 1b/2 data were presented at the 2023 American Society of Hematology conference.

The pooled analysis showed a complete response (CR) or CR with incomplete hematologic recovery (CR/CRi) rate of 77% and a CR rate of 57% at a median follow up of 11 months in 124 patients treated between September 2020 and December 2022.

Among evaluable patients, 96% achieved minimal residual disease (MRD)-negative status. Median duration of response was not reached.

Safety findings showed a low 2.4% and 7.1% rate of grade 3 or higher cytokine release syndrome (CRS) and/or grade 3 or higher immune effector cell-associated neurotoxicity syndrome (ICANS), respectively. 

FELIX study participants were 18 years of age or older with relapsed/refractory B-cell ALL and Eastern Cooperative Oncology Group performance status score of 0 or 1. Patients underwent lymphodepletion with fludarabine as 4 x 30 mg/m² and cyclophosphamide at 2 x 500 mg/m². Obe-cel was administered at a target dose of 410 x 10⁶ CAR T cells as a split dose on days 1 and 10 based on pre-lymphodepletion bone marrow blast burden.

CAR T expansion was similar across the study cohorts, and CAR T persistence was ongoing in most responders at follow-up. 

A particular benefit was observed in patients’ low leukemia burden, defined as morphological remission per investigator assessment (less than 5% bone marrow blasts without extramedullary disease) as measured at screening or at the start of lymphodepletion, prior to obe-cel infusion.

For example, of 10 evaluable patients with MRD at screening, nine achieved CR or Cri, and all 10 achieved MRD-negative status after infusion. Median duration of response was not reached; no grade 3 or higher CRS occurred; and one patient had grade 3 or higher ICANS. And in a subset of 27 evaluable patients in morphological remission at the time of lymphodepletion, 24 (89%) achieved CR/CRi, and 100% of MRD evaluable responders achieved MRD negative CR/CRi after infusion. In this subset, median duration of response was not reached, and no patients experienced grade 3 or higher CRS or ICANS. 

Autolus Technologies announced in January 2024 that the FDA had accepted its Biologics License Application for obe-cel and noted the treatment had also been granted Orphan Drug Designation by the FDA. 

In June 2024, an additional update presented at the annual ASCO meeting showed that 12-month event-free survival was 50% and 43% with or without censoring for consolidative stem cell transplant or new therapies, respectively, and overall survival was 61% and 59%, respectively. 

Ongoing CAR T-cell persistency and B-cell aplasia were associated with improved event-free survival without further consolidation after obe-cel infusion, the investigators reported, noting that consolidative stem cell transplant for those in MRD-negative remission did not improve event-free survival or overall survival at 12 months. 

In a commentary, Jorge Cortes, MD, director of the Georgia Cancer Center, Augusta, said the findings presented at ASCO suggest that obe-cel is “very promising and may [represent] a different strategy that decreases the toxicity for CAR T cells.” 

The study was funded by Merck. Smith reports receiving grant funding from Merck. Jones reports no relevant financial relationships.

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

A growing body of research suggests that clinicians can offer chimeric antigen receptor (CAR) T-cell therapy safely and effectively on an outpatient basis — a positive development as clinicians strive to expand access beyond metropolitan areas.

In one recent study, an industry-funded phase 2 trial, researchers found similar outcomes from outpatient and inpatient CAR T-cell therapy for relapsed/refractory large B-cell lymphoma with lisocabtagene maraleucel (Breyanzi). 

Another recent study reported that outpatient treatment of B cell non-Hodgkin lymphoma with tisagenlecleucel (Kymriah) had similar efficacy to inpatient treatment. Meanwhile, a 2023 review of CAR T-cell therapy in various settings found similar outcomes in outpatient and inpatient treatment. 

“The future of CAR T-cell therapy lies in balancing safety with accessibility,” said Rayne Rouce, MD, a pediatric oncologist at Texas Children’s Cancer Center in Houston, Texas, in an interview. “Expanding CAR T-cell therapy beyond large medical centers is a critical next step.” 
 

Great Outcomes, Low Access

Since 2017, the FDA has approved six CAR T-cell therapies, which target cancer by harnessing the power of a patient’s own T cells. As an Oregon Health & Sciences University/Knight Cancer Center website explains, T cells are removed from the patient’s body, “genetically modified to make the chimeric antigen receptor, or CAR, [which] protein binds to specific proteins on the surface of cancer cells.”

Modified cells are grown and then infused back into the body, where they “multiply and may be able to destroy all the cancer cells.”

As Rouce puts it, “CAR T-cells have revolutionized the treatment of relapsed or refractory blood cancers.” One or more of the therapies have been approved to treat types of lymphoblastic leukemia, B-cell lymphoma, follicular lymphoma, mantle cell lymphoma, and multiple myeloma.

A 2023 review of clinical trial data reported complete response rates of 40%-54% in aggressive B-cell lymphoma, 67% in mantle cell lymphoma, and 69%-74% in indolent B cell lymphoma.

“Commercialization of CAR T-cell therapy brought hope that access would expand beyond the major academic medical centers with the highly specialized infrastructure and advanced laboratories required to manufacture and ultimately treat patients,” Rouce said. “However, it quickly became clear that patients who are underinsured or uninsured — or who live outside the network of the well-resourced institutions that house these therapies — are still unable to access these potentially life-saving therapies.”

A 2024 report estimated the cost of CAR T-cell therapy as $700,000-$1 million and said only a small percentage of those who could benefit from the treatment actually get it. For example, an estimated 10,000 patients with diffuse large B-cell lymphoma alone could benefit from CAR T therapy annually, but a survey of 200 US healthcare centers in 2021 found that 1900 procedures were performed overall for all indications. 
 

Distance to Treatment Is a Major Obstacle

Even if patients have insurance plans willing to cover CAR T-cell therapy, they may not be able get care. While more than 150 US centers are certified to administer the therapy, “distance to major medical centers with CAR T capabilities is a major obstacle,” Yuliya Linhares, MD, chief of lymphoma at Miami Cancer Institute in Miami, Florida, said in an interview. 

“I have had patients who chose to not proceed with CAR T therapy due to inability to travel the distance to the medical center for pre-CAR T appointments and assessments and a lack of caretakers who are available to stay nearby,” Linhares said.

Indeed, the challenges facing patients in rural and underserved urban areas can be overwhelming, Hoda Badr, PhD, professor of medicine at Baylor College of Medicine in Houston, Texas, said in an interview.

“They must take time off work, arrange accommodations near treatment sites, and manage travel costs, all of which strain limited financial resources. The inability to afford these additional expenses can lead to delays in receiving care or patients forgoing the treatment altogether,” Badr said. She added that “the psychological and social burden of being away from family and community support systems during treatment can intensify the stress of an already difficult situation.”

A statistic tells the story of the urban/community divide. CAR T-cell therapy administration at academic centers after leukapheresis — the separation and collection of white blood cells — is reported to be at around 90%, while it’s only 47% in community-based practices that have to refer patients elsewhere, Linhares noted. 
 

Researchers Explore CAR T-Cell Therapy in the Community 

Linhares is lead author of the phase 2 trial that explored administration of lisocabtagene maraleucel in 82 patients with relapsed/refractory large B-cell lymphoma. The findings were published Sept. 30 in Blood Advances.

The OUTREACH trial, funded by Juno/Bristol-Myers Squibb, treated patients in the third line and beyond at community medical centers (outpatient-monitored, 70%; inpatient-monitored, 30%). The trial didn’t require facilities to be certified by the Foundation for the Accreditation of Cellular Therapy (FACT); all had to be non-tertiary cancer centers that weren’t associated with a university. In order to administer therapy on the outpatient basis, the centers had to have phase 1 or hematopoietic stem cell transplant capabilities.

As Linhares explained, 72% of participating centers hadn’t provided CAR T-cell therapy before, and 44% did not have FACT accreditation. “About 32% of patients received CAR T at CAR T naive sites, while 70% of patients received CAR T as outpatients. Investigators had to decide whether patients qualified for the outpatient observation or had to be admitted for the inpatient observation,” she noted.
 

Community Outcomes Were Comparable to Major Trial

As for the results, grade 3 or higher adverse events occurred at a similar frequency among outpatients and inpatients at 74% and 76%, Linhares said. There were no grade 5 adverse events, and 25% of patients treated as outpatients were never hospitalized. 

Response rates were similar to those in the major TRANSCEND trial with the objective response rates rate of 80% and complete response rates of 54%.

“Overall,” Linhares said, “our study demonstrated that with the availability of standard operating procedures, specially trained staff and a multidisciplinary team trained in CAR T toxicity management, inpatient and outpatient CAR T administration is feasible at specialized community medical centers.”

In 2023, another study examined patients with B-cell non-Hodgkin lymphoma who were treated on an outpatient basis with tisagenlecleucel. Researchers reported that outpatient therapy was “feasible and associated with similar efficacy outcomes as inpatient treatment.”

And a 2023 systematic literature review identified 11 studies that reported outpatient vs inpatient outcomes in CAR T-cell therapy and found “comparable response rates (80-82% in outpatient and 72-80% in inpatient).” Costs were cheaper in the outpatient setting. 

Research findings like these are good news, Baylor College of Medicine’s Badr said. “Outpatient administration could help to scale the availability of this therapy to a broader range of healthcare settings, including those serving underserved populations. Findings indicate promising safety profiles, which is encouraging for expanding access.”
 

Not Every Patient Can Tolerate Outpatient Care

Linhares noted that the patients who received outpatient care in the lisocabtagene maraleucel study were in better shape than those in the inpatient group. Those selected for inpatient care had “higher disease risk characteristics, including high grade B cell lymphoma histology, higher disease burden, and having received bridging therapy. This points to the fact that the investigators properly selected patients who were at a higher risk of complications for inpatient observation. Additionally, some patients stayed as inpatient due to social factors, which increases length of stay independently of disease characteristics.”

Specifically, reasons for inpatient monitoring were disease characteristics (48%) including tumor burden and risk of adverse events; psychosocial factors (32%) including lack of caregiver support or transportation; COVID-19 precautions (8%); pre-infusion adverse events (8%) of fever and vasovagal reaction; and principal investigator decision (4%) due to limited hospital experience with CAR T-cell therapy.

Texas Children’s Cancer Center’s Rouce said “certain patients, particularly those with higher risk for complications or those who require intensive monitoring, may not be suited for outpatient CAR T-cell therapy. This may be due to other comorbidities or baseline factors known to predispose to CAR T-related toxicities. However, evidence-based risk mitigation algorithms may still allow closely monitored outpatient treatment, with recognition that hospital admission for incipient side effects may be necessary.”
 

What’s Next for Access to Therapy?

Rouce noted that her institution, like many others, is offering CAR T-cell therapy on an outpatient basis. “Additionally, continued scientific innovation, such as immediately available, off-the-shelf cell therapies and inducible safety switches, will ultimately improve access,” she said. 

Linhares noted a recent advance and highlighted research that’s now in progress. “CAR Ts now have an indication as a second-line therapy in relapsed/refractory large B-cell lymphoma, and there are ongoing clinical trials that will potentially move CAR Ts into the first line,” she said. “Some trials are exploring allogeneic, readily available off-the-shelf CAR T for the treatment of minimal residual disease positive large B-cell lymphoma after completion of first-line therapy.”

These potential advances “are increasing the need for CAR T-capable medical centers,” Linhares noted. “More and more medical centers with expert hematology teams are becoming CAR T-certified, with more patients having access to CAR T.”

Still, she said, “I don’t think access is nearly as good as it should be. Many patients in rural areas are still unable to get this life-saving treatment. “However, “it is very possible that other novel targeted therapies, such as bispecific antibodies, will be used in place of CAR T in areas with poor CAR T access. Bispecific antibody efficacy in various B cell lymphoma histologies are being currently explored.”

Rouce discloses relationships with Novartis and Pfizer. Linhares reports ties with Kyowa Kirin, AbbVie, ADC, BeiGene, Genentech, Gilead, GlaxoSmithKline, Seagen, and TG. Badr has no disclosures. 
 

A version of this article appeared on Medscape.com.

A growing body of research suggests that clinicians can offer chimeric antigen receptor (CAR) T-cell therapy safely and effectively on an outpatient basis — a positive development as clinicians strive to expand access beyond metropolitan areas.

In one recent study, an industry-funded phase 2 trial, researchers found similar outcomes from outpatient and inpatient CAR T-cell therapy for relapsed/refractory large B-cell lymphoma with lisocabtagene maraleucel (Breyanzi). 

Another recent study reported that outpatient treatment of B cell non-Hodgkin lymphoma with tisagenlecleucel (Kymriah) had similar efficacy to inpatient treatment. Meanwhile, a 2023 review of CAR T-cell therapy in various settings found similar outcomes in outpatient and inpatient treatment. 

“The future of CAR T-cell therapy lies in balancing safety with accessibility,” said Rayne Rouce, MD, a pediatric oncologist at Texas Children’s Cancer Center in Houston, Texas, in an interview. “Expanding CAR T-cell therapy beyond large medical centers is a critical next step.” 
 

Great Outcomes, Low Access

Since 2017, the FDA has approved six CAR T-cell therapies, which target cancer by harnessing the power of a patient’s own T cells. As an Oregon Health & Sciences University/Knight Cancer Center website explains, T cells are removed from the patient’s body, “genetically modified to make the chimeric antigen receptor, or CAR, [which] protein binds to specific proteins on the surface of cancer cells.”

Modified cells are grown and then infused back into the body, where they “multiply and may be able to destroy all the cancer cells.”

As Rouce puts it, “CAR T-cells have revolutionized the treatment of relapsed or refractory blood cancers.” One or more of the therapies have been approved to treat types of lymphoblastic leukemia, B-cell lymphoma, follicular lymphoma, mantle cell lymphoma, and multiple myeloma.

A 2023 review of clinical trial data reported complete response rates of 40%-54% in aggressive B-cell lymphoma, 67% in mantle cell lymphoma, and 69%-74% in indolent B cell lymphoma.

“Commercialization of CAR T-cell therapy brought hope that access would expand beyond the major academic medical centers with the highly specialized infrastructure and advanced laboratories required to manufacture and ultimately treat patients,” Rouce said. “However, it quickly became clear that patients who are underinsured or uninsured — or who live outside the network of the well-resourced institutions that house these therapies — are still unable to access these potentially life-saving therapies.”

A 2024 report estimated the cost of CAR T-cell therapy as $700,000-$1 million and said only a small percentage of those who could benefit from the treatment actually get it. For example, an estimated 10,000 patients with diffuse large B-cell lymphoma alone could benefit from CAR T therapy annually, but a survey of 200 US healthcare centers in 2021 found that 1900 procedures were performed overall for all indications. 
 

Distance to Treatment Is a Major Obstacle

Even if patients have insurance plans willing to cover CAR T-cell therapy, they may not be able get care. While more than 150 US centers are certified to administer the therapy, “distance to major medical centers with CAR T capabilities is a major obstacle,” Yuliya Linhares, MD, chief of lymphoma at Miami Cancer Institute in Miami, Florida, said in an interview. 

“I have had patients who chose to not proceed with CAR T therapy due to inability to travel the distance to the medical center for pre-CAR T appointments and assessments and a lack of caretakers who are available to stay nearby,” Linhares said.

Indeed, the challenges facing patients in rural and underserved urban areas can be overwhelming, Hoda Badr, PhD, professor of medicine at Baylor College of Medicine in Houston, Texas, said in an interview.

“They must take time off work, arrange accommodations near treatment sites, and manage travel costs, all of which strain limited financial resources. The inability to afford these additional expenses can lead to delays in receiving care or patients forgoing the treatment altogether,” Badr said. She added that “the psychological and social burden of being away from family and community support systems during treatment can intensify the stress of an already difficult situation.”

A statistic tells the story of the urban/community divide. CAR T-cell therapy administration at academic centers after leukapheresis — the separation and collection of white blood cells — is reported to be at around 90%, while it’s only 47% in community-based practices that have to refer patients elsewhere, Linhares noted. 
 

Researchers Explore CAR T-Cell Therapy in the Community 

Linhares is lead author of the phase 2 trial that explored administration of lisocabtagene maraleucel in 82 patients with relapsed/refractory large B-cell lymphoma. The findings were published Sept. 30 in Blood Advances.

The OUTREACH trial, funded by Juno/Bristol-Myers Squibb, treated patients in the third line and beyond at community medical centers (outpatient-monitored, 70%; inpatient-monitored, 30%). The trial didn’t require facilities to be certified by the Foundation for the Accreditation of Cellular Therapy (FACT); all had to be non-tertiary cancer centers that weren’t associated with a university. In order to administer therapy on the outpatient basis, the centers had to have phase 1 or hematopoietic stem cell transplant capabilities.

As Linhares explained, 72% of participating centers hadn’t provided CAR T-cell therapy before, and 44% did not have FACT accreditation. “About 32% of patients received CAR T at CAR T naive sites, while 70% of patients received CAR T as outpatients. Investigators had to decide whether patients qualified for the outpatient observation or had to be admitted for the inpatient observation,” she noted.
 

Community Outcomes Were Comparable to Major Trial

As for the results, grade 3 or higher adverse events occurred at a similar frequency among outpatients and inpatients at 74% and 76%, Linhares said. There were no grade 5 adverse events, and 25% of patients treated as outpatients were never hospitalized. 

Response rates were similar to those in the major TRANSCEND trial with the objective response rates rate of 80% and complete response rates of 54%.

“Overall,” Linhares said, “our study demonstrated that with the availability of standard operating procedures, specially trained staff and a multidisciplinary team trained in CAR T toxicity management, inpatient and outpatient CAR T administration is feasible at specialized community medical centers.”

In 2023, another study examined patients with B-cell non-Hodgkin lymphoma who were treated on an outpatient basis with tisagenlecleucel. Researchers reported that outpatient therapy was “feasible and associated with similar efficacy outcomes as inpatient treatment.”

And a 2023 systematic literature review identified 11 studies that reported outpatient vs inpatient outcomes in CAR T-cell therapy and found “comparable response rates (80-82% in outpatient and 72-80% in inpatient).” Costs were cheaper in the outpatient setting. 

Research findings like these are good news, Baylor College of Medicine’s Badr said. “Outpatient administration could help to scale the availability of this therapy to a broader range of healthcare settings, including those serving underserved populations. Findings indicate promising safety profiles, which is encouraging for expanding access.”
 

Not Every Patient Can Tolerate Outpatient Care

Linhares noted that the patients who received outpatient care in the lisocabtagene maraleucel study were in better shape than those in the inpatient group. Those selected for inpatient care had “higher disease risk characteristics, including high grade B cell lymphoma histology, higher disease burden, and having received bridging therapy. This points to the fact that the investigators properly selected patients who were at a higher risk of complications for inpatient observation. Additionally, some patients stayed as inpatient due to social factors, which increases length of stay independently of disease characteristics.”

Specifically, reasons for inpatient monitoring were disease characteristics (48%) including tumor burden and risk of adverse events; psychosocial factors (32%) including lack of caregiver support or transportation; COVID-19 precautions (8%); pre-infusion adverse events (8%) of fever and vasovagal reaction; and principal investigator decision (4%) due to limited hospital experience with CAR T-cell therapy.

Texas Children’s Cancer Center’s Rouce said “certain patients, particularly those with higher risk for complications or those who require intensive monitoring, may not be suited for outpatient CAR T-cell therapy. This may be due to other comorbidities or baseline factors known to predispose to CAR T-related toxicities. However, evidence-based risk mitigation algorithms may still allow closely monitored outpatient treatment, with recognition that hospital admission for incipient side effects may be necessary.”
 

What’s Next for Access to Therapy?

Rouce noted that her institution, like many others, is offering CAR T-cell therapy on an outpatient basis. “Additionally, continued scientific innovation, such as immediately available, off-the-shelf cell therapies and inducible safety switches, will ultimately improve access,” she said. 

Linhares noted a recent advance and highlighted research that’s now in progress. “CAR Ts now have an indication as a second-line therapy in relapsed/refractory large B-cell lymphoma, and there are ongoing clinical trials that will potentially move CAR Ts into the first line,” she said. “Some trials are exploring allogeneic, readily available off-the-shelf CAR T for the treatment of minimal residual disease positive large B-cell lymphoma after completion of first-line therapy.”

These potential advances “are increasing the need for CAR T-capable medical centers,” Linhares noted. “More and more medical centers with expert hematology teams are becoming CAR T-certified, with more patients having access to CAR T.”

Still, she said, “I don’t think access is nearly as good as it should be. Many patients in rural areas are still unable to get this life-saving treatment. “However, “it is very possible that other novel targeted therapies, such as bispecific antibodies, will be used in place of CAR T in areas with poor CAR T access. Bispecific antibody efficacy in various B cell lymphoma histologies are being currently explored.”

Rouce discloses relationships with Novartis and Pfizer. Linhares reports ties with Kyowa Kirin, AbbVie, ADC, BeiGene, Genentech, Gilead, GlaxoSmithKline, Seagen, and TG. Badr has no disclosures. 
 

A version of this article appeared on Medscape.com.

A growing body of research suggests that clinicians can offer chimeric antigen receptor (CAR) T-cell therapy safely and effectively on an outpatient basis — a positive development as clinicians strive to expand access beyond metropolitan areas.

In one recent study, an industry-funded phase 2 trial, researchers found similar outcomes from outpatient and inpatient CAR T-cell therapy for relapsed/refractory large B-cell lymphoma with lisocabtagene maraleucel (Breyanzi). 

Another recent study reported that outpatient treatment of B cell non-Hodgkin lymphoma with tisagenlecleucel (Kymriah) had similar efficacy to inpatient treatment. Meanwhile, a 2023 review of CAR T-cell therapy in various settings found similar outcomes in outpatient and inpatient treatment. 

“The future of CAR T-cell therapy lies in balancing safety with accessibility,” said Rayne Rouce, MD, a pediatric oncologist at Texas Children’s Cancer Center in Houston, Texas, in an interview. “Expanding CAR T-cell therapy beyond large medical centers is a critical next step.” 
 

Great Outcomes, Low Access

Since 2017, the FDA has approved six CAR T-cell therapies, which target cancer by harnessing the power of a patient’s own T cells. As an Oregon Health & Sciences University/Knight Cancer Center website explains, T cells are removed from the patient’s body, “genetically modified to make the chimeric antigen receptor, or CAR, [which] protein binds to specific proteins on the surface of cancer cells.”

Modified cells are grown and then infused back into the body, where they “multiply and may be able to destroy all the cancer cells.”

As Rouce puts it, “CAR T-cells have revolutionized the treatment of relapsed or refractory blood cancers.” One or more of the therapies have been approved to treat types of lymphoblastic leukemia, B-cell lymphoma, follicular lymphoma, mantle cell lymphoma, and multiple myeloma.

A 2023 review of clinical trial data reported complete response rates of 40%-54% in aggressive B-cell lymphoma, 67% in mantle cell lymphoma, and 69%-74% in indolent B cell lymphoma.

“Commercialization of CAR T-cell therapy brought hope that access would expand beyond the major academic medical centers with the highly specialized infrastructure and advanced laboratories required to manufacture and ultimately treat patients,” Rouce said. “However, it quickly became clear that patients who are underinsured or uninsured — or who live outside the network of the well-resourced institutions that house these therapies — are still unable to access these potentially life-saving therapies.”

A 2024 report estimated the cost of CAR T-cell therapy as $700,000-$1 million and said only a small percentage of those who could benefit from the treatment actually get it. For example, an estimated 10,000 patients with diffuse large B-cell lymphoma alone could benefit from CAR T therapy annually, but a survey of 200 US healthcare centers in 2021 found that 1900 procedures were performed overall for all indications. 
 

Distance to Treatment Is a Major Obstacle

Even if patients have insurance plans willing to cover CAR T-cell therapy, they may not be able get care. While more than 150 US centers are certified to administer the therapy, “distance to major medical centers with CAR T capabilities is a major obstacle,” Yuliya Linhares, MD, chief of lymphoma at Miami Cancer Institute in Miami, Florida, said in an interview. 

“I have had patients who chose to not proceed with CAR T therapy due to inability to travel the distance to the medical center for pre-CAR T appointments and assessments and a lack of caretakers who are available to stay nearby,” Linhares said.

Indeed, the challenges facing patients in rural and underserved urban areas can be overwhelming, Hoda Badr, PhD, professor of medicine at Baylor College of Medicine in Houston, Texas, said in an interview.

“They must take time off work, arrange accommodations near treatment sites, and manage travel costs, all of which strain limited financial resources. The inability to afford these additional expenses can lead to delays in receiving care or patients forgoing the treatment altogether,” Badr said. She added that “the psychological and social burden of being away from family and community support systems during treatment can intensify the stress of an already difficult situation.”

A statistic tells the story of the urban/community divide. CAR T-cell therapy administration at academic centers after leukapheresis — the separation and collection of white blood cells — is reported to be at around 90%, while it’s only 47% in community-based practices that have to refer patients elsewhere, Linhares noted. 
 

Researchers Explore CAR T-Cell Therapy in the Community 

Linhares is lead author of the phase 2 trial that explored administration of lisocabtagene maraleucel in 82 patients with relapsed/refractory large B-cell lymphoma. The findings were published Sept. 30 in Blood Advances.

The OUTREACH trial, funded by Juno/Bristol-Myers Squibb, treated patients in the third line and beyond at community medical centers (outpatient-monitored, 70%; inpatient-monitored, 30%). The trial didn’t require facilities to be certified by the Foundation for the Accreditation of Cellular Therapy (FACT); all had to be non-tertiary cancer centers that weren’t associated with a university. In order to administer therapy on the outpatient basis, the centers had to have phase 1 or hematopoietic stem cell transplant capabilities.

As Linhares explained, 72% of participating centers hadn’t provided CAR T-cell therapy before, and 44% did not have FACT accreditation. “About 32% of patients received CAR T at CAR T naive sites, while 70% of patients received CAR T as outpatients. Investigators had to decide whether patients qualified for the outpatient observation or had to be admitted for the inpatient observation,” she noted.
 

Community Outcomes Were Comparable to Major Trial

As for the results, grade 3 or higher adverse events occurred at a similar frequency among outpatients and inpatients at 74% and 76%, Linhares said. There were no grade 5 adverse events, and 25% of patients treated as outpatients were never hospitalized. 

Response rates were similar to those in the major TRANSCEND trial with the objective response rates rate of 80% and complete response rates of 54%.

“Overall,” Linhares said, “our study demonstrated that with the availability of standard operating procedures, specially trained staff and a multidisciplinary team trained in CAR T toxicity management, inpatient and outpatient CAR T administration is feasible at specialized community medical centers.”

In 2023, another study examined patients with B-cell non-Hodgkin lymphoma who were treated on an outpatient basis with tisagenlecleucel. Researchers reported that outpatient therapy was “feasible and associated with similar efficacy outcomes as inpatient treatment.”

And a 2023 systematic literature review identified 11 studies that reported outpatient vs inpatient outcomes in CAR T-cell therapy and found “comparable response rates (80-82% in outpatient and 72-80% in inpatient).” Costs were cheaper in the outpatient setting. 

Research findings like these are good news, Baylor College of Medicine’s Badr said. “Outpatient administration could help to scale the availability of this therapy to a broader range of healthcare settings, including those serving underserved populations. Findings indicate promising safety profiles, which is encouraging for expanding access.”
 

Not Every Patient Can Tolerate Outpatient Care

Linhares noted that the patients who received outpatient care in the lisocabtagene maraleucel study were in better shape than those in the inpatient group. Those selected for inpatient care had “higher disease risk characteristics, including high grade B cell lymphoma histology, higher disease burden, and having received bridging therapy. This points to the fact that the investigators properly selected patients who were at a higher risk of complications for inpatient observation. Additionally, some patients stayed as inpatient due to social factors, which increases length of stay independently of disease characteristics.”

Specifically, reasons for inpatient monitoring were disease characteristics (48%) including tumor burden and risk of adverse events; psychosocial factors (32%) including lack of caregiver support or transportation; COVID-19 precautions (8%); pre-infusion adverse events (8%) of fever and vasovagal reaction; and principal investigator decision (4%) due to limited hospital experience with CAR T-cell therapy.

Texas Children’s Cancer Center’s Rouce said “certain patients, particularly those with higher risk for complications or those who require intensive monitoring, may not be suited for outpatient CAR T-cell therapy. This may be due to other comorbidities or baseline factors known to predispose to CAR T-related toxicities. However, evidence-based risk mitigation algorithms may still allow closely monitored outpatient treatment, with recognition that hospital admission for incipient side effects may be necessary.”
 

What’s Next for Access to Therapy?

Rouce noted that her institution, like many others, is offering CAR T-cell therapy on an outpatient basis. “Additionally, continued scientific innovation, such as immediately available, off-the-shelf cell therapies and inducible safety switches, will ultimately improve access,” she said. 

Linhares noted a recent advance and highlighted research that’s now in progress. “CAR Ts now have an indication as a second-line therapy in relapsed/refractory large B-cell lymphoma, and there are ongoing clinical trials that will potentially move CAR Ts into the first line,” she said. “Some trials are exploring allogeneic, readily available off-the-shelf CAR T for the treatment of minimal residual disease positive large B-cell lymphoma after completion of first-line therapy.”

These potential advances “are increasing the need for CAR T-capable medical centers,” Linhares noted. “More and more medical centers with expert hematology teams are becoming CAR T-certified, with more patients having access to CAR T.”

Still, she said, “I don’t think access is nearly as good as it should be. Many patients in rural areas are still unable to get this life-saving treatment. “However, “it is very possible that other novel targeted therapies, such as bispecific antibodies, will be used in place of CAR T in areas with poor CAR T access. Bispecific antibody efficacy in various B cell lymphoma histologies are being currently explored.”

Rouce discloses relationships with Novartis and Pfizer. Linhares reports ties with Kyowa Kirin, AbbVie, ADC, BeiGene, Genentech, Gilead, GlaxoSmithKline, Seagen, and TG. Badr has no disclosures. 
 

A version of this article appeared on Medscape.com.

NEW YORK — When patients with multiple myeloma (MM) relapse following chimeric antigen receptor (CAR) T-cell therapy, bispecific antibodies (BsABs), or both, likely salvage options remain that are being overlooked, including a second course of immunotherapy. Two independent experts, addressing this issue at the 2024 Lymphoma, Leukemia & Myeloma Congress, offered several practical recommendations for eliciting a therapeutic response after patients with multi-refractory MM have failed everything. One approach they endorsed was allowing patients to recover from T-cell exhaustion.

“We used to think that as soon as multiple myeloma patients progress on a CAR T-cell therapy, it was sort of game over,” said Joseph Mikhael, MD, professor, Translational Genomics Research Institute, City of Hope Cancer Center Phoenix, Arizona.

“But I think we are seeing many ways to salvage these patients, including going back to a CAR T product,” said Mikhael, who also serves as the chief medical officer of the International Myeloma Foundation.

Now that CAR T cells and BsABs are widely available, Mikhael warned that there will be a growing need for other strategies to offer when these therapies fail.

A similar point was made by Jorge Monge, MD, an assistant professor, Division of Hematology and Medical Oncology, Weill Cornell Medicine, New York City. He largely focused on newer therapies with the potential to provide salvage opportunities in advanced refractory MM, but he pointed out that one application might be to permit T-cell recovery after exhaustion following B-cell maturation antigen (BCMA)–targeted therapies.

The two talks covered some of the same ground. Both, for example, discussed a potential role for the exportin 1 (XPO1) inhibitor selinexor (Xpovio) in the multidrug refractory setting. In combination with bortezomib and dexamethasone, selinexor was approved in 2020 for treatment-experienced patients but is often overlooked in late-stage disease.

As a strategy to elicit a response following BCMA-targeted therapies, both Mikhael and Monge cited data showing selinexor to be active and that side effects are relatively well managed if antiemetics are offered preemptively to control nausea, one of its most common side effects.

Monge also talked about the promise of cereblon E3 ligase modulatory drugs (CELMoDs) that are now in clinical trials. These drugs, such as mezigdomide and iberdomide, both of which are in advanced stages of clinical testing, are similar to the immunomodulatory agents lenalidomide and pomalidomide. However, their greater potency does not appear to substantially increase risk for adverse events, according to Monge.
 

CELMoDs Active After CAR T-Cell Therapy

Most importantly, from the standpoint of their potential role in multidrug-refractory MM, both mezigdomide and iberdomide have so far shown substantial activity in patients previously exposed to BCMA-targeted therapies, according to Monge. Although the data have been generated in small numbers of patients, he reported that objective response rates have ranged from 37% to 50%.

These rates in treatment-experience patients are lower relative to those achieved in patients with no prior exposure to BCMA-targeted drugs, but Monge said that the durations of response, exceeding 6 months in some studies, might provide enough time for the T-cell recovery needed for a second course of CAR T-cell therapy.

There are other promising therapies on the horizon relevant to controlling multidrug refractory MM, including the likely return of the antibody drug conjugate (ADC) belantamab mafodotin (Blenrep^®). This drug was withdrawn in 2022, when the DREAMM-3 trial failed to show an advantage on the primary endpoint of progression-free survival (PFS) for this drug alone over pomalidomide and dexamethasone. The failed results of the DREAMM-3 trial meant that the drug did not meet FDA requirements for confirmatory trials of drugs approved through the agency’s accelerated approval program.

However, recently published results from the phase 3 DREAMM-8 trial did show a PFS advantage for belantamab mafodotin, pomalidomide, and dexamethasone over pomalidomide, bortezomib, and dexamethasone at 12 months (HR 0.50; P < .0010). On the basis of this result and other positive findings, including a deeper response, Mikhael predicted that this drug will be reintroduced.

It “might take a year or more” to find its way through the approval process, but Mikhael said that he is among those who think it will have value in advanced MM.*

Many of the newer MM drugs, including bispecifics that engage proteins on the surface of the myeloma cell other than BCMA, such as G protein–coupled receptor family C group, might provide alternatives to BCMA-targeted therapies in late stages of disease, but at least some newer drugs, as well as existing drugs in combinations, might play an important role in refractory MM by restoring BCMA as a target.

“The BCMA target is not easily lost, and I think we can leverage it more than once,” Mikhael said.

This potential, which Mikhael acknowledged is mostly supported with relatively small sets of data, involves “a lot of question marks, a lot of maybes,” so the strategies are hard to compared. However, the “incredible evolution in multiple myeloma therapy” over the past few years is not necessarily linear, according to Mikhael.
 

Recycling MM Therapies Deserves Consideration

In other words, CAR T cells and BsABs are not the last stop in the available lines of therapy for MM. The next best therapy is dependent on numerous considerations, including prior therapy exposure, but Mikhael pointed out that many patients in advanced stages have not been exposed to therapies known to be active or are not being considered for therapies to which they were exposed but are not necessarily resistant.

Monge made similar comments. He agreed with Mikhael that clinicians faced with a patient with multitherapy-refractory MM might forget about the XPO1 inhibitor selinexor, the alkylating agent bendamustine, or even the B-cell lymphoma 2 inhibitor venetoclax.

Any of these agents alone or in combination could be considered to “give the patient some time to improve” T-cell function, Monge said.

This approach will have even more promise if better assays of T-cell function become available, Mikhael said. Although he explained that T-cell exhaustion is clearly one of the reasons that CAR T-cell therapies stop working, this cannot be measured accurately at this time.

“Better T-cell assays may help,” he said.

Mikhael reported financial relationships with Amgen, Bristol Myers Squibb, Janssen Pharmaceuticals, Karyopharm Therapeutics, Sanofi, and Takeda. Monge disclosed ties with Bristol Myers Squibb and Karyopharm Therapeutics.

*Correction, 10/29/24: We are correcting the name of the DREAMM-3 trial and clarifying that its failed results meant that the drug did not meet the FDA’s requirements for confirmatory trials of drugs to be approved through the agency’s accelerated approval program.
 

A version of this article appeared on Medscape.com.

NEW YORK — When patients with multiple myeloma (MM) relapse following chimeric antigen receptor (CAR) T-cell therapy, bispecific antibodies (BsABs), or both, likely salvage options remain that are being overlooked, including a second course of immunotherapy. Two independent experts, addressing this issue at the 2024 Lymphoma, Leukemia & Myeloma Congress, offered several practical recommendations for eliciting a therapeutic response after patients with multi-refractory MM have failed everything. One approach they endorsed was allowing patients to recover from T-cell exhaustion.

“We used to think that as soon as multiple myeloma patients progress on a CAR T-cell therapy, it was sort of game over,” said Joseph Mikhael, MD, professor, Translational Genomics Research Institute, City of Hope Cancer Center Phoenix, Arizona.

“But I think we are seeing many ways to salvage these patients, including going back to a CAR T product,” said Mikhael, who also serves as the chief medical officer of the International Myeloma Foundation.

Now that CAR T cells and BsABs are widely available, Mikhael warned that there will be a growing need for other strategies to offer when these therapies fail.

A similar point was made by Jorge Monge, MD, an assistant professor, Division of Hematology and Medical Oncology, Weill Cornell Medicine, New York City. He largely focused on newer therapies with the potential to provide salvage opportunities in advanced refractory MM, but he pointed out that one application might be to permit T-cell recovery after exhaustion following B-cell maturation antigen (BCMA)–targeted therapies.

The two talks covered some of the same ground. Both, for example, discussed a potential role for the exportin 1 (XPO1) inhibitor selinexor (Xpovio) in the multidrug refractory setting. In combination with bortezomib and dexamethasone, selinexor was approved in 2020 for treatment-experienced patients but is often overlooked in late-stage disease.

As a strategy to elicit a response following BCMA-targeted therapies, both Mikhael and Monge cited data showing selinexor to be active and that side effects are relatively well managed if antiemetics are offered preemptively to control nausea, one of its most common side effects.

Monge also talked about the promise of cereblon E3 ligase modulatory drugs (CELMoDs) that are now in clinical trials. These drugs, such as mezigdomide and iberdomide, both of which are in advanced stages of clinical testing, are similar to the immunomodulatory agents lenalidomide and pomalidomide. However, their greater potency does not appear to substantially increase risk for adverse events, according to Monge.
 

CELMoDs Active After CAR T-Cell Therapy

Most importantly, from the standpoint of their potential role in multidrug-refractory MM, both mezigdomide and iberdomide have so far shown substantial activity in patients previously exposed to BCMA-targeted therapies, according to Monge. Although the data have been generated in small numbers of patients, he reported that objective response rates have ranged from 37% to 50%.

These rates in treatment-experience patients are lower relative to those achieved in patients with no prior exposure to BCMA-targeted drugs, but Monge said that the durations of response, exceeding 6 months in some studies, might provide enough time for the T-cell recovery needed for a second course of CAR T-cell therapy.

There are other promising therapies on the horizon relevant to controlling multidrug refractory MM, including the likely return of the antibody drug conjugate (ADC) belantamab mafodotin (Blenrep^®). This drug was withdrawn in 2022, when the DREAMM-3 trial failed to show an advantage on the primary endpoint of progression-free survival (PFS) for this drug alone over pomalidomide and dexamethasone. The failed results of the DREAMM-3 trial meant that the drug did not meet FDA requirements for confirmatory trials of drugs approved through the agency’s accelerated approval program.

However, recently published results from the phase 3 DREAMM-8 trial did show a PFS advantage for belantamab mafodotin, pomalidomide, and dexamethasone over pomalidomide, bortezomib, and dexamethasone at 12 months (HR 0.50; P < .0010). On the basis of this result and other positive findings, including a deeper response, Mikhael predicted that this drug will be reintroduced.

It “might take a year or more” to find its way through the approval process, but Mikhael said that he is among those who think it will have value in advanced MM.*

Many of the newer MM drugs, including bispecifics that engage proteins on the surface of the myeloma cell other than BCMA, such as G protein–coupled receptor family C group, might provide alternatives to BCMA-targeted therapies in late stages of disease, but at least some newer drugs, as well as existing drugs in combinations, might play an important role in refractory MM by restoring BCMA as a target.

“The BCMA target is not easily lost, and I think we can leverage it more than once,” Mikhael said.

This potential, which Mikhael acknowledged is mostly supported with relatively small sets of data, involves “a lot of question marks, a lot of maybes,” so the strategies are hard to compared. However, the “incredible evolution in multiple myeloma therapy” over the past few years is not necessarily linear, according to Mikhael.
 

Recycling MM Therapies Deserves Consideration

In other words, CAR T cells and BsABs are not the last stop in the available lines of therapy for MM. The next best therapy is dependent on numerous considerations, including prior therapy exposure, but Mikhael pointed out that many patients in advanced stages have not been exposed to therapies known to be active or are not being considered for therapies to which they were exposed but are not necessarily resistant.

Monge made similar comments. He agreed with Mikhael that clinicians faced with a patient with multitherapy-refractory MM might forget about the XPO1 inhibitor selinexor, the alkylating agent bendamustine, or even the B-cell lymphoma 2 inhibitor venetoclax.

Any of these agents alone or in combination could be considered to “give the patient some time to improve” T-cell function, Monge said.

This approach will have even more promise if better assays of T-cell function become available, Mikhael said. Although he explained that T-cell exhaustion is clearly one of the reasons that CAR T-cell therapies stop working, this cannot be measured accurately at this time.

“Better T-cell assays may help,” he said.

Mikhael reported financial relationships with Amgen, Bristol Myers Squibb, Janssen Pharmaceuticals, Karyopharm Therapeutics, Sanofi, and Takeda. Monge disclosed ties with Bristol Myers Squibb and Karyopharm Therapeutics.

*Correction, 10/29/24: We are correcting the name of the DREAMM-3 trial and clarifying that its failed results meant that the drug did not meet the FDA’s requirements for confirmatory trials of drugs to be approved through the agency’s accelerated approval program.
 

A version of this article appeared on Medscape.com.

NEW YORK — When patients with multiple myeloma (MM) relapse following chimeric antigen receptor (CAR) T-cell therapy, bispecific antibodies (BsABs), or both, likely salvage options remain that are being overlooked, including a second course of immunotherapy. Two independent experts, addressing this issue at the 2024 Lymphoma, Leukemia & Myeloma Congress, offered several practical recommendations for eliciting a therapeutic response after patients with multi-refractory MM have failed everything. One approach they endorsed was allowing patients to recover from T-cell exhaustion.

“We used to think that as soon as multiple myeloma patients progress on a CAR T-cell therapy, it was sort of game over,” said Joseph Mikhael, MD, professor, Translational Genomics Research Institute, City of Hope Cancer Center Phoenix, Arizona.

“But I think we are seeing many ways to salvage these patients, including going back to a CAR T product,” said Mikhael, who also serves as the chief medical officer of the International Myeloma Foundation.

Now that CAR T cells and BsABs are widely available, Mikhael warned that there will be a growing need for other strategies to offer when these therapies fail.

A similar point was made by Jorge Monge, MD, an assistant professor, Division of Hematology and Medical Oncology, Weill Cornell Medicine, New York City. He largely focused on newer therapies with the potential to provide salvage opportunities in advanced refractory MM, but he pointed out that one application might be to permit T-cell recovery after exhaustion following B-cell maturation antigen (BCMA)–targeted therapies.

The two talks covered some of the same ground. Both, for example, discussed a potential role for the exportin 1 (XPO1) inhibitor selinexor (Xpovio) in the multidrug refractory setting. In combination with bortezomib and dexamethasone, selinexor was approved in 2020 for treatment-experienced patients but is often overlooked in late-stage disease.

As a strategy to elicit a response following BCMA-targeted therapies, both Mikhael and Monge cited data showing selinexor to be active and that side effects are relatively well managed if antiemetics are offered preemptively to control nausea, one of its most common side effects.

Monge also talked about the promise of cereblon E3 ligase modulatory drugs (CELMoDs) that are now in clinical trials. These drugs, such as mezigdomide and iberdomide, both of which are in advanced stages of clinical testing, are similar to the immunomodulatory agents lenalidomide and pomalidomide. However, their greater potency does not appear to substantially increase risk for adverse events, according to Monge.
 

CELMoDs Active After CAR T-Cell Therapy

Most importantly, from the standpoint of their potential role in multidrug-refractory MM, both mezigdomide and iberdomide have so far shown substantial activity in patients previously exposed to BCMA-targeted therapies, according to Monge. Although the data have been generated in small numbers of patients, he reported that objective response rates have ranged from 37% to 50%.

These rates in treatment-experience patients are lower relative to those achieved in patients with no prior exposure to BCMA-targeted drugs, but Monge said that the durations of response, exceeding 6 months in some studies, might provide enough time for the T-cell recovery needed for a second course of CAR T-cell therapy.

There are other promising therapies on the horizon relevant to controlling multidrug refractory MM, including the likely return of the antibody drug conjugate (ADC) belantamab mafodotin (Blenrep^®). This drug was withdrawn in 2022, when the DREAMM-3 trial failed to show an advantage on the primary endpoint of progression-free survival (PFS) for this drug alone over pomalidomide and dexamethasone. The failed results of the DREAMM-3 trial meant that the drug did not meet FDA requirements for confirmatory trials of drugs approved through the agency’s accelerated approval program.

However, recently published results from the phase 3 DREAMM-8 trial did show a PFS advantage for belantamab mafodotin, pomalidomide, and dexamethasone over pomalidomide, bortezomib, and dexamethasone at 12 months (HR 0.50; P < .0010). On the basis of this result and other positive findings, including a deeper response, Mikhael predicted that this drug will be reintroduced.

It “might take a year or more” to find its way through the approval process, but Mikhael said that he is among those who think it will have value in advanced MM.*

Many of the newer MM drugs, including bispecifics that engage proteins on the surface of the myeloma cell other than BCMA, such as G protein–coupled receptor family C group, might provide alternatives to BCMA-targeted therapies in late stages of disease, but at least some newer drugs, as well as existing drugs in combinations, might play an important role in refractory MM by restoring BCMA as a target.

“The BCMA target is not easily lost, and I think we can leverage it more than once,” Mikhael said.

This potential, which Mikhael acknowledged is mostly supported with relatively small sets of data, involves “a lot of question marks, a lot of maybes,” so the strategies are hard to compared. However, the “incredible evolution in multiple myeloma therapy” over the past few years is not necessarily linear, according to Mikhael.
 

Recycling MM Therapies Deserves Consideration

In other words, CAR T cells and BsABs are not the last stop in the available lines of therapy for MM. The next best therapy is dependent on numerous considerations, including prior therapy exposure, but Mikhael pointed out that many patients in advanced stages have not been exposed to therapies known to be active or are not being considered for therapies to which they were exposed but are not necessarily resistant.

Monge made similar comments. He agreed with Mikhael that clinicians faced with a patient with multitherapy-refractory MM might forget about the XPO1 inhibitor selinexor, the alkylating agent bendamustine, or even the B-cell lymphoma 2 inhibitor venetoclax.

Any of these agents alone or in combination could be considered to “give the patient some time to improve” T-cell function, Monge said.

This approach will have even more promise if better assays of T-cell function become available, Mikhael said. Although he explained that T-cell exhaustion is clearly one of the reasons that CAR T-cell therapies stop working, this cannot be measured accurately at this time.

“Better T-cell assays may help,” he said.

Mikhael reported financial relationships with Amgen, Bristol Myers Squibb, Janssen Pharmaceuticals, Karyopharm Therapeutics, Sanofi, and Takeda. Monge disclosed ties with Bristol Myers Squibb and Karyopharm Therapeutics.

*Correction, 10/29/24: We are correcting the name of the DREAMM-3 trial and clarifying that its failed results meant that the drug did not meet the FDA’s requirements for confirmatory trials of drugs to be approved through the agency’s accelerated approval program.
 

A version of this article appeared on Medscape.com.

NEW YORK — In a three-way debate on whether to prioritize chimeric antigen receptor (CAR) T-cell therapy, bispecific antibodies (BsAbs), or one of the novel oral targeted therapies for relapsed/refractory follicular lymphoma (R/R FL), no expert conceded.

Acknowledging that hers was the weakest position, even the specialist who defended novel targeted therapies mounted a staunch defense of real-world patients being treated outside of tertiary centers.

“I was told by many of my colleagues that I got the short end of the stick in this debate, but I am actually here to convince everybody that targeted therapies continue to play an important role, despite the fact that they are the least sexy of these treatment options,” said Joanna Rhodes, MD, director of the Lymphoma Program at Rutgers Cancer Institute, Hoboken, New Jersey.
 

Targeted Therapies Still Relevant to Advanced FL

Although even the newest or coming targeted therapies, such as the EZH2 inhibitor tazemetostat or next-generation Bruton tyrosine kinase inhibitors, are not likely to achieve the deep responses and long-term progression-free survival possible with BsAbs or CAR T-cell therapy, the sustained disease control they offer for many patients with R/R FL is not trivial, according to Rhodes.

“The majority of these [advanced follicular lymphoma] patients are being managed in the community,” Rhodes argued at the 2024 Lymphoma, Leukemia, & Myeloma Congress. Access to tertiary centers where the most advanced therapies are available in some cases might not even be feasible. 

Moreover, there are barriers to CAR T cells and BsAbs even at centers where these are available, Rhodes said. On a long list of barriers, lack of caregiver support is an example of one common disqualification at her own institution. 

The experience with CAR T cells in R/R FL has been relatively short, so Rhodes used data on CAR T cells for B-cell lymphoma to make her point. It is not just that the proportion of eligible patients is limited. 

“The majority of B-cell lymphoma patients who are eligible for CAR T cells are not getting them,” she said. “It will be the same for FL.”

In other words, Rhodes indicated that it is premature to count out targeted oral agents or lenalidomide despite the excitement surrounding BsAbs and CAR T cells. The targeted agents and immunomodulatory drugs remain appropriate choices for patients unable or unwilling to travel to tertiary centers for treatment, for frail patients, and for well-informed patients who understand their options and still consider better tolerated therapies to be more consistent with their perception of an adequate risk-benefit ratio. 
 

BsAbs Vie With CAR T Cells in Advanced FL

Hers might be a valid summary, but it did not derail arguments about whether CAR T-cell therapy should be prioritized over BsAbs or the other way around for patients who are candidates for both. 

There are two BsAbs currently approved for R/R FL: glofitamab and mosunetuzumab. More are coming, according to Nina Wagner-Johnston, MD, director of hematologic malignancies at Sidney Kimmel Cancer Center, Johns Hopkins University, Baltimore, Maryland. She provided several reasons why BsAbs might be considered before CAR T-cell therapies in at least some individuals. 

“The biggest advantage is that these therapies…are off the shelf,” she said. This avoids the delay of T-cell manufacturing, the potential need for bridging therapies, and the need for conditioning regimens. With more experience, BsAbs offer the potential for treatment even in a community-practice setting, particularly for maintenance dosing.

“I do think this is a safe treatment in patients who are elderly or unfit,” Wagner-Johnston said, suggesting she tends to lean toward prioritizing BsAbs over CAR T cells when the ability to tolerate an aggressive strategy is a concern. She specified that these drugs are associated with a low relative incidence of grade 3 or higher cytokine release syndrome or immune effector cell–associated neurotoxicity syndrome, and faster B-cell aplasia recovery. 

The third participant in the debate, who described the efficacy and safety of the three currently approved CAR T-cell therapies for R/R FL, did not agree with this characterization. Daniel J. Landsburg, MD, associate professor of clinical medicine at the University of Pennsylvania, Philadelphia, acknowledged that BsAb agents have an important role to play in the advanced FL setting, but he thinks that CAR T-cell therapies should be prioritized in at least some patients. 

In particular, he would not rule out CAR T-cell therapy in patients with comorbidities or other characteristics that raise questions about fitness for aggressive treatment. 

“In fact, you might want to treat a frail patient just one time with CAR T-cell therapy rather than dose after dose with a bispecific drug,” he said. 
 

No Data to Compare BsAbs and CAR T-Cells Directly

Both agreed that there have been no trials directly comparing a BsAb therapy vs CAR T cells, so there is no definitive answer, and Landsburg was reluctant to take a hard line on reserving BsAbs until after CAR T-cell therapy has been tried.

“Because BsAbs and CAR Ts are approved in the third-line setting, you might consider debulking a patient getting ready for a CAR T with a bispecific,” Landsburg said. However, he acknowledged that the next step becomes complex if patients achieved a complete response after just a few BsAb doses.

“Do you stop what is already working?” Landsburg asked rhetorically, suggesting that the best way forward is not always clear.

For R/R FL, currently there are three approved products: axicabtagene ciloleucel (Yescarta), tisagenlecleucel (Kymriah), and lisocabtagene maraleucel (Breyanzi). The entry criteria and design of the three pivotal trials differed, so their specific indications vary. Looking across the trials, Landsburg suggested that there might be differences in activity as defined by objective response rates or risk for cytokine release syndrome, but these remain theoretical without head-to-head comparisons.

“My suspicion is we are going to see very similar — quote, unquote — long-term survival curves for patients treated with any of these therapies,” he said, noting that progression-free survival at 3 years has been in the vicinity of 50% for the trials that have had long enough follow-up to judge.

Rather than trying to pick the best agent, he suggested that it makes more sense now to concentrate on strategies to improve response irrespective of CAR T-cell product; these include paying attention to total metabolic tumor volume at the time of infusion, optimizing bridging therapies, and thinking about T-cell fitness, which might be impaired in some patients by recent exposure to bendamustine.

Overall, with multiple ongoing studies with both CAR T-cell therapies and BsAbs in R/R FL — as well with targeted small-molecule agents and immunomodulatory drugs — all of the debate participants acknowledged that choices in R/R FL will evolve. 

“I actually think that combinations will be the future,” Wagner-Johnston said. Singling out tazemetostat and a BsAb and one approach that seems promising, she also predicted that some of the therapies in advanced disease are likely to be moved forward to earlier stages of FL therapy.

Rhodes reported ties with AbbVie, AstraZeneca, ADC Therapeutics, BeiGene, Bristol Myers Squibb, Epizyme, Genentech, Genmab, Janssen, Loxo Oncology, MorphoSys, Pharmacyclics, and Pfizer. Wagner-Johnston disclosed relationships with Cuno Science, Dava Oncology, Epizyme, Grünenthal, Karyopharm, and Seagen. Landsburg reported ties with ADC Therapeutics, Calithera, Curis, Epizyme, Karyopharm, MorphoSys, and Novartis.
 

A version of this article appeared on Medscape.com.

NEW YORK — In a three-way debate on whether to prioritize chimeric antigen receptor (CAR) T-cell therapy, bispecific antibodies (BsAbs), or one of the novel oral targeted therapies for relapsed/refractory follicular lymphoma (R/R FL), no expert conceded.

Acknowledging that hers was the weakest position, even the specialist who defended novel targeted therapies mounted a staunch defense of real-world patients being treated outside of tertiary centers.

“I was told by many of my colleagues that I got the short end of the stick in this debate, but I am actually here to convince everybody that targeted therapies continue to play an important role, despite the fact that they are the least sexy of these treatment options,” said Joanna Rhodes, MD, director of the Lymphoma Program at Rutgers Cancer Institute, Hoboken, New Jersey.
 

Targeted Therapies Still Relevant to Advanced FL

Although even the newest or coming targeted therapies, such as the EZH2 inhibitor tazemetostat or next-generation Bruton tyrosine kinase inhibitors, are not likely to achieve the deep responses and long-term progression-free survival possible with BsAbs or CAR T-cell therapy, the sustained disease control they offer for many patients with R/R FL is not trivial, according to Rhodes.

“The majority of these [advanced follicular lymphoma] patients are being managed in the community,” Rhodes argued at the 2024 Lymphoma, Leukemia, & Myeloma Congress. Access to tertiary centers where the most advanced therapies are available in some cases might not even be feasible. 

Moreover, there are barriers to CAR T cells and BsAbs even at centers where these are available, Rhodes said. On a long list of barriers, lack of caregiver support is an example of one common disqualification at her own institution. 

The experience with CAR T cells in R/R FL has been relatively short, so Rhodes used data on CAR T cells for B-cell lymphoma to make her point. It is not just that the proportion of eligible patients is limited. 

“The majority of B-cell lymphoma patients who are eligible for CAR T cells are not getting them,” she said. “It will be the same for FL.”

In other words, Rhodes indicated that it is premature to count out targeted oral agents or lenalidomide despite the excitement surrounding BsAbs and CAR T cells. The targeted agents and immunomodulatory drugs remain appropriate choices for patients unable or unwilling to travel to tertiary centers for treatment, for frail patients, and for well-informed patients who understand their options and still consider better tolerated therapies to be more consistent with their perception of an adequate risk-benefit ratio. 
 

BsAbs Vie With CAR T Cells in Advanced FL

Hers might be a valid summary, but it did not derail arguments about whether CAR T-cell therapy should be prioritized over BsAbs or the other way around for patients who are candidates for both. 

There are two BsAbs currently approved for R/R FL: glofitamab and mosunetuzumab. More are coming, according to Nina Wagner-Johnston, MD, director of hematologic malignancies at Sidney Kimmel Cancer Center, Johns Hopkins University, Baltimore, Maryland. She provided several reasons why BsAbs might be considered before CAR T-cell therapies in at least some individuals. 

“The biggest advantage is that these therapies…are off the shelf,” she said. This avoids the delay of T-cell manufacturing, the potential need for bridging therapies, and the need for conditioning regimens. With more experience, BsAbs offer the potential for treatment even in a community-practice setting, particularly for maintenance dosing.

“I do think this is a safe treatment in patients who are elderly or unfit,” Wagner-Johnston said, suggesting she tends to lean toward prioritizing BsAbs over CAR T cells when the ability to tolerate an aggressive strategy is a concern. She specified that these drugs are associated with a low relative incidence of grade 3 or higher cytokine release syndrome or immune effector cell–associated neurotoxicity syndrome, and faster B-cell aplasia recovery. 

The third participant in the debate, who described the efficacy and safety of the three currently approved CAR T-cell therapies for R/R FL, did not agree with this characterization. Daniel J. Landsburg, MD, associate professor of clinical medicine at the University of Pennsylvania, Philadelphia, acknowledged that BsAb agents have an important role to play in the advanced FL setting, but he thinks that CAR T-cell therapies should be prioritized in at least some patients. 

In particular, he would not rule out CAR T-cell therapy in patients with comorbidities or other characteristics that raise questions about fitness for aggressive treatment. 

“In fact, you might want to treat a frail patient just one time with CAR T-cell therapy rather than dose after dose with a bispecific drug,” he said. 
 

No Data to Compare BsAbs and CAR T-Cells Directly

Both agreed that there have been no trials directly comparing a BsAb therapy vs CAR T cells, so there is no definitive answer, and Landsburg was reluctant to take a hard line on reserving BsAbs until after CAR T-cell therapy has been tried.

“Because BsAbs and CAR Ts are approved in the third-line setting, you might consider debulking a patient getting ready for a CAR T with a bispecific,” Landsburg said. However, he acknowledged that the next step becomes complex if patients achieved a complete response after just a few BsAb doses.

“Do you stop what is already working?” Landsburg asked rhetorically, suggesting that the best way forward is not always clear.

For R/R FL, currently there are three approved products: axicabtagene ciloleucel (Yescarta), tisagenlecleucel (Kymriah), and lisocabtagene maraleucel (Breyanzi). The entry criteria and design of the three pivotal trials differed, so their specific indications vary. Looking across the trials, Landsburg suggested that there might be differences in activity as defined by objective response rates or risk for cytokine release syndrome, but these remain theoretical without head-to-head comparisons.

“My suspicion is we are going to see very similar — quote, unquote — long-term survival curves for patients treated with any of these therapies,” he said, noting that progression-free survival at 3 years has been in the vicinity of 50% for the trials that have had long enough follow-up to judge.

Rather than trying to pick the best agent, he suggested that it makes more sense now to concentrate on strategies to improve response irrespective of CAR T-cell product; these include paying attention to total metabolic tumor volume at the time of infusion, optimizing bridging therapies, and thinking about T-cell fitness, which might be impaired in some patients by recent exposure to bendamustine.

Overall, with multiple ongoing studies with both CAR T-cell therapies and BsAbs in R/R FL — as well with targeted small-molecule agents and immunomodulatory drugs — all of the debate participants acknowledged that choices in R/R FL will evolve. 

“I actually think that combinations will be the future,” Wagner-Johnston said. Singling out tazemetostat and a BsAb and one approach that seems promising, she also predicted that some of the therapies in advanced disease are likely to be moved forward to earlier stages of FL therapy.

Rhodes reported ties with AbbVie, AstraZeneca, ADC Therapeutics, BeiGene, Bristol Myers Squibb, Epizyme, Genentech, Genmab, Janssen, Loxo Oncology, MorphoSys, Pharmacyclics, and Pfizer. Wagner-Johnston disclosed relationships with Cuno Science, Dava Oncology, Epizyme, Grünenthal, Karyopharm, and Seagen. Landsburg reported ties with ADC Therapeutics, Calithera, Curis, Epizyme, Karyopharm, MorphoSys, and Novartis.
 

A version of this article appeared on Medscape.com.

NEW YORK — In a three-way debate on whether to prioritize chimeric antigen receptor (CAR) T-cell therapy, bispecific antibodies (BsAbs), or one of the novel oral targeted therapies for relapsed/refractory follicular lymphoma (R/R FL), no expert conceded.

Acknowledging that hers was the weakest position, even the specialist who defended novel targeted therapies mounted a staunch defense of real-world patients being treated outside of tertiary centers.

“I was told by many of my colleagues that I got the short end of the stick in this debate, but I am actually here to convince everybody that targeted therapies continue to play an important role, despite the fact that they are the least sexy of these treatment options,” said Joanna Rhodes, MD, director of the Lymphoma Program at Rutgers Cancer Institute, Hoboken, New Jersey.
 

Targeted Therapies Still Relevant to Advanced FL

Although even the newest or coming targeted therapies, such as the EZH2 inhibitor tazemetostat or next-generation Bruton tyrosine kinase inhibitors, are not likely to achieve the deep responses and long-term progression-free survival possible with BsAbs or CAR T-cell therapy, the sustained disease control they offer for many patients with R/R FL is not trivial, according to Rhodes.

“The majority of these [advanced follicular lymphoma] patients are being managed in the community,” Rhodes argued at the 2024 Lymphoma, Leukemia, & Myeloma Congress. Access to tertiary centers where the most advanced therapies are available in some cases might not even be feasible. 

Moreover, there are barriers to CAR T cells and BsAbs even at centers where these are available, Rhodes said. On a long list of barriers, lack of caregiver support is an example of one common disqualification at her own institution. 

The experience with CAR T cells in R/R FL has been relatively short, so Rhodes used data on CAR T cells for B-cell lymphoma to make her point. It is not just that the proportion of eligible patients is limited. 

“The majority of B-cell lymphoma patients who are eligible for CAR T cells are not getting them,” she said. “It will be the same for FL.”

In other words, Rhodes indicated that it is premature to count out targeted oral agents or lenalidomide despite the excitement surrounding BsAbs and CAR T cells. The targeted agents and immunomodulatory drugs remain appropriate choices for patients unable or unwilling to travel to tertiary centers for treatment, for frail patients, and for well-informed patients who understand their options and still consider better tolerated therapies to be more consistent with their perception of an adequate risk-benefit ratio. 
 

BsAbs Vie With CAR T Cells in Advanced FL

Hers might be a valid summary, but it did not derail arguments about whether CAR T-cell therapy should be prioritized over BsAbs or the other way around for patients who are candidates for both. 

There are two BsAbs currently approved for R/R FL: glofitamab and mosunetuzumab. More are coming, according to Nina Wagner-Johnston, MD, director of hematologic malignancies at Sidney Kimmel Cancer Center, Johns Hopkins University, Baltimore, Maryland. She provided several reasons why BsAbs might be considered before CAR T-cell therapies in at least some individuals. 

“The biggest advantage is that these therapies…are off the shelf,” she said. This avoids the delay of T-cell manufacturing, the potential need for bridging therapies, and the need for conditioning regimens. With more experience, BsAbs offer the potential for treatment even in a community-practice setting, particularly for maintenance dosing.

“I do think this is a safe treatment in patients who are elderly or unfit,” Wagner-Johnston said, suggesting she tends to lean toward prioritizing BsAbs over CAR T cells when the ability to tolerate an aggressive strategy is a concern. She specified that these drugs are associated with a low relative incidence of grade 3 or higher cytokine release syndrome or immune effector cell–associated neurotoxicity syndrome, and faster B-cell aplasia recovery. 

The third participant in the debate, who described the efficacy and safety of the three currently approved CAR T-cell therapies for R/R FL, did not agree with this characterization. Daniel J. Landsburg, MD, associate professor of clinical medicine at the University of Pennsylvania, Philadelphia, acknowledged that BsAb agents have an important role to play in the advanced FL setting, but he thinks that CAR T-cell therapies should be prioritized in at least some patients. 

In particular, he would not rule out CAR T-cell therapy in patients with comorbidities or other characteristics that raise questions about fitness for aggressive treatment. 

“In fact, you might want to treat a frail patient just one time with CAR T-cell therapy rather than dose after dose with a bispecific drug,” he said. 
 

No Data to Compare BsAbs and CAR T-Cells Directly

Both agreed that there have been no trials directly comparing a BsAb therapy vs CAR T cells, so there is no definitive answer, and Landsburg was reluctant to take a hard line on reserving BsAbs until after CAR T-cell therapy has been tried.

“Because BsAbs and CAR Ts are approved in the third-line setting, you might consider debulking a patient getting ready for a CAR T with a bispecific,” Landsburg said. However, he acknowledged that the next step becomes complex if patients achieved a complete response after just a few BsAb doses.

“Do you stop what is already working?” Landsburg asked rhetorically, suggesting that the best way forward is not always clear.

For R/R FL, currently there are three approved products: axicabtagene ciloleucel (Yescarta), tisagenlecleucel (Kymriah), and lisocabtagene maraleucel (Breyanzi). The entry criteria and design of the three pivotal trials differed, so their specific indications vary. Looking across the trials, Landsburg suggested that there might be differences in activity as defined by objective response rates or risk for cytokine release syndrome, but these remain theoretical without head-to-head comparisons.

“My suspicion is we are going to see very similar — quote, unquote — long-term survival curves for patients treated with any of these therapies,” he said, noting that progression-free survival at 3 years has been in the vicinity of 50% for the trials that have had long enough follow-up to judge.

Rather than trying to pick the best agent, he suggested that it makes more sense now to concentrate on strategies to improve response irrespective of CAR T-cell product; these include paying attention to total metabolic tumor volume at the time of infusion, optimizing bridging therapies, and thinking about T-cell fitness, which might be impaired in some patients by recent exposure to bendamustine.

Overall, with multiple ongoing studies with both CAR T-cell therapies and BsAbs in R/R FL — as well with targeted small-molecule agents and immunomodulatory drugs — all of the debate participants acknowledged that choices in R/R FL will evolve. 

“I actually think that combinations will be the future,” Wagner-Johnston said. Singling out tazemetostat and a BsAb and one approach that seems promising, she also predicted that some of the therapies in advanced disease are likely to be moved forward to earlier stages of FL therapy.

Rhodes reported ties with AbbVie, AstraZeneca, ADC Therapeutics, BeiGene, Bristol Myers Squibb, Epizyme, Genentech, Genmab, Janssen, Loxo Oncology, MorphoSys, Pharmacyclics, and Pfizer. Wagner-Johnston disclosed relationships with Cuno Science, Dava Oncology, Epizyme, Grünenthal, Karyopharm, and Seagen. Landsburg reported ties with ADC Therapeutics, Calithera, Curis, Epizyme, Karyopharm, MorphoSys, and Novartis.
 

A version of this article appeared on Medscape.com.

A single infusion of the chimeric antigen receptor (CAR) T-cell therapy ciltacabtagene autoleucel, or cilta-cel (CARVYKTI, Janssen Biotech, Inc.), reduces the risk for death by 45% vs standard-of-care (SoC) therapies in patients with lenalidomide-refractory multiple myeloma, according to the latest data from the phase 3 CARTITUDE-4 study.

“Cilta-cel is the first CAR T-cell therapy to demonstrate an overall survival benefit in multiple myeloma,” María-Victoria Mateos, MD, PhD, said during a presentation of the updated CARTITUDE-4 data at the annual meeting of the International Myeloma Society in late September.

A prespecified overall survival (OS) analysis at a median follow-up of 34 months showed that median OS was not reached in either the cilta-cel or SoC therapy arm (hazard ratio [HR], 0.55). The 30-month OS rates were 76% and 64% in the arms, respectively, said Dr. Mateos, a professor at the University Hospital of Salamanca, Spain.

The significant OS benefit was sustained across all prespecified subgroups, she noted.

The US Food and Drug Administration first approved cilta-cel in 2022 for use after at least four prior lines of therapy in patients with lenalidomide-resistant multiple myeloma based on findings from the CARTITUDE-1 trial. In April 2024, based on progression-free survival (PFS) findings at median follow-up of 16 months in CARTITUDE-4 (HR for progression/death vs SoC, 0.26), that approval was expanded to include patients with lenalidomide-refractory multiple myeloma after one or more prior lines of therapy.

“CARVYKTI demonstrated remarkable efficacy as a personalized, one-time infusion in the earlier treatment of relapsed/refractory multiple myeloma as shown through the CARTITUDE-4 study results,” study coauthor Binod Dhakal, MD, of the Medical College of Wisconsin, in Milwaukee, stated in a press release announcing that expansion. “With this approval, I’m excited for patients who may have the opportunity for a treatment-free period for their multiple myeloma as early as first relapse, with the hope of eliminating the burden of having to be on continuous treatment while living with this challenging disease.”

At the latest analysis, PFS was not reached in the cilta-cel arm and was 11.79 months with SoC, Dr. Mateos said.

The 30-month PFS rates were 59% and 26%, respectively (HR, 0.29), and the PFS benefit was observed across prespecified subgroups.

Patients in the cilta-cel arm also had better complete response rates (77% vs 24%), overall response rates (85% vs 67%), and minimal residual disease-negativity rates (62% vs 18%).

Median duration of response was not reached with cilta-cel and was 18.69 months with SoC, and median time to symptom worsening was not reached vs 34.33 months, respectively.

Safety at the latest update was consistent with prior analyses.

The CARTITUDE findings continue to support the overall benefit-risk profile of cilta-cel vs SoC in patients with lenalidomide-refractory multiple myeloma as early as after the first relapse, Dr. Mateos concluded.

Despite the “compelling efficacy” of cilta-cel, there remains a need for “a safer and equally (if not more) effective CAR-T product” in this setting, Manni Mohyuddin, MD, told this news organization.

“The trial does not change my practice,” said Dr. Mohyuddin, an assistant professor in the multiple myeloma program at Huntsman Cancer Institute, University of Utah, Salt Lake City.

“We must recognize that the control arm [in CARTITUDE-4] isn’t the best available standard of care,” he explained, noting that carfilzomib-containing triplets were not allowed. “Furthermore, overall survival is dependent on access to good therapies upon relapse, and patients in the control arm did not cross over to get cilta-cel at the time of relapse.

“We do not know if overall survival benefit would have been present if the control arm was better and if there was access to better post-protocol therapy.”

Toxicity is also a concern, he said.

“I think of it as high risk-high reward. There was a sevenfold increased incidence of secondary hematological malignancies in the cilta-cel arm compared to standard of care — this is a very concerning signal that dampens my enthusiasm to use this drug early for everyone,” he added.

For example, although Parkinsonism was rare, it generally did not resolve and lasted years, resolving in only 13% of affected patients, with a median time to resolution of 523 days.

“These are horrible odds, and for many patients there may be safer options,” he noted, adding that “cilta-cel is an option I would consider for some relapses (very early relapse while still on multi-agent therapy, high-risk disease), but otherwise I think personally it’s too toxic for most first relapses.”

Dr. Mateos reported relationships with AbbVie, Amgen, BMS, GSK, Janssen, Kite, Oncopeptides, Pfizer, Regeneron, Roche, Sanofi, Stemline Therapeutics, and Takeda. Dr. Mohyuddin had no disclosures.
 

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

A single infusion of the chimeric antigen receptor (CAR) T-cell therapy ciltacabtagene autoleucel, or cilta-cel (CARVYKTI, Janssen Biotech, Inc.), reduces the risk for death by 45% vs standard-of-care (SoC) therapies in patients with lenalidomide-refractory multiple myeloma, according to the latest data from the phase 3 CARTITUDE-4 study.

“Cilta-cel is the first CAR T-cell therapy to demonstrate an overall survival benefit in multiple myeloma,” María-Victoria Mateos, MD, PhD, said during a presentation of the updated CARTITUDE-4 data at the annual meeting of the International Myeloma Society in late September.

A prespecified overall survival (OS) analysis at a median follow-up of 34 months showed that median OS was not reached in either the cilta-cel or SoC therapy arm (hazard ratio [HR], 0.55). The 30-month OS rates were 76% and 64% in the arms, respectively, said Dr. Mateos, a professor at the University Hospital of Salamanca, Spain.

The significant OS benefit was sustained across all prespecified subgroups, she noted.

The US Food and Drug Administration first approved cilta-cel in 2022 for use after at least four prior lines of therapy in patients with lenalidomide-resistant multiple myeloma based on findings from the CARTITUDE-1 trial. In April 2024, based on progression-free survival (PFS) findings at median follow-up of 16 months in CARTITUDE-4 (HR for progression/death vs SoC, 0.26), that approval was expanded to include patients with lenalidomide-refractory multiple myeloma after one or more prior lines of therapy.

“CARVYKTI demonstrated remarkable efficacy as a personalized, one-time infusion in the earlier treatment of relapsed/refractory multiple myeloma as shown through the CARTITUDE-4 study results,” study coauthor Binod Dhakal, MD, of the Medical College of Wisconsin, in Milwaukee, stated in a press release announcing that expansion. “With this approval, I’m excited for patients who may have the opportunity for a treatment-free period for their multiple myeloma as early as first relapse, with the hope of eliminating the burden of having to be on continuous treatment while living with this challenging disease.”

At the latest analysis, PFS was not reached in the cilta-cel arm and was 11.79 months with SoC, Dr. Mateos said.

The 30-month PFS rates were 59% and 26%, respectively (HR, 0.29), and the PFS benefit was observed across prespecified subgroups.

Patients in the cilta-cel arm also had better complete response rates (77% vs 24%), overall response rates (85% vs 67%), and minimal residual disease-negativity rates (62% vs 18%).

Median duration of response was not reached with cilta-cel and was 18.69 months with SoC, and median time to symptom worsening was not reached vs 34.33 months, respectively.

Safety at the latest update was consistent with prior analyses.

The CARTITUDE findings continue to support the overall benefit-risk profile of cilta-cel vs SoC in patients with lenalidomide-refractory multiple myeloma as early as after the first relapse, Dr. Mateos concluded.

Despite the “compelling efficacy” of cilta-cel, there remains a need for “a safer and equally (if not more) effective CAR-T product” in this setting, Manni Mohyuddin, MD, told this news organization.

“The trial does not change my practice,” said Dr. Mohyuddin, an assistant professor in the multiple myeloma program at Huntsman Cancer Institute, University of Utah, Salt Lake City.

“We must recognize that the control arm [in CARTITUDE-4] isn’t the best available standard of care,” he explained, noting that carfilzomib-containing triplets were not allowed. “Furthermore, overall survival is dependent on access to good therapies upon relapse, and patients in the control arm did not cross over to get cilta-cel at the time of relapse.

“We do not know if overall survival benefit would have been present if the control arm was better and if there was access to better post-protocol therapy.”

Toxicity is also a concern, he said.

“I think of it as high risk-high reward. There was a sevenfold increased incidence of secondary hematological malignancies in the cilta-cel arm compared to standard of care — this is a very concerning signal that dampens my enthusiasm to use this drug early for everyone,” he added.

For example, although Parkinsonism was rare, it generally did not resolve and lasted years, resolving in only 13% of affected patients, with a median time to resolution of 523 days.

“These are horrible odds, and for many patients there may be safer options,” he noted, adding that “cilta-cel is an option I would consider for some relapses (very early relapse while still on multi-agent therapy, high-risk disease), but otherwise I think personally it’s too toxic for most first relapses.”

Dr. Mateos reported relationships with AbbVie, Amgen, BMS, GSK, Janssen, Kite, Oncopeptides, Pfizer, Regeneron, Roche, Sanofi, Stemline Therapeutics, and Takeda. Dr. Mohyuddin had no disclosures.
 

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

A single infusion of the chimeric antigen receptor (CAR) T-cell therapy ciltacabtagene autoleucel, or cilta-cel (CARVYKTI, Janssen Biotech, Inc.), reduces the risk for death by 45% vs standard-of-care (SoC) therapies in patients with lenalidomide-refractory multiple myeloma, according to the latest data from the phase 3 CARTITUDE-4 study.

“Cilta-cel is the first CAR T-cell therapy to demonstrate an overall survival benefit in multiple myeloma,” María-Victoria Mateos, MD, PhD, said during a presentation of the updated CARTITUDE-4 data at the annual meeting of the International Myeloma Society in late September.

A prespecified overall survival (OS) analysis at a median follow-up of 34 months showed that median OS was not reached in either the cilta-cel or SoC therapy arm (hazard ratio [HR], 0.55). The 30-month OS rates were 76% and 64% in the arms, respectively, said Dr. Mateos, a professor at the University Hospital of Salamanca, Spain.

The significant OS benefit was sustained across all prespecified subgroups, she noted.

The US Food and Drug Administration first approved cilta-cel in 2022 for use after at least four prior lines of therapy in patients with lenalidomide-resistant multiple myeloma based on findings from the CARTITUDE-1 trial. In April 2024, based on progression-free survival (PFS) findings at median follow-up of 16 months in CARTITUDE-4 (HR for progression/death vs SoC, 0.26), that approval was expanded to include patients with lenalidomide-refractory multiple myeloma after one or more prior lines of therapy.

“CARVYKTI demonstrated remarkable efficacy as a personalized, one-time infusion in the earlier treatment of relapsed/refractory multiple myeloma as shown through the CARTITUDE-4 study results,” study coauthor Binod Dhakal, MD, of the Medical College of Wisconsin, in Milwaukee, stated in a press release announcing that expansion. “With this approval, I’m excited for patients who may have the opportunity for a treatment-free period for their multiple myeloma as early as first relapse, with the hope of eliminating the burden of having to be on continuous treatment while living with this challenging disease.”

At the latest analysis, PFS was not reached in the cilta-cel arm and was 11.79 months with SoC, Dr. Mateos said.

The 30-month PFS rates were 59% and 26%, respectively (HR, 0.29), and the PFS benefit was observed across prespecified subgroups.

Patients in the cilta-cel arm also had better complete response rates (77% vs 24%), overall response rates (85% vs 67%), and minimal residual disease-negativity rates (62% vs 18%).

Median duration of response was not reached with cilta-cel and was 18.69 months with SoC, and median time to symptom worsening was not reached vs 34.33 months, respectively.

Safety at the latest update was consistent with prior analyses.

The CARTITUDE findings continue to support the overall benefit-risk profile of cilta-cel vs SoC in patients with lenalidomide-refractory multiple myeloma as early as after the first relapse, Dr. Mateos concluded.

Despite the “compelling efficacy” of cilta-cel, there remains a need for “a safer and equally (if not more) effective CAR-T product” in this setting, Manni Mohyuddin, MD, told this news organization.

“The trial does not change my practice,” said Dr. Mohyuddin, an assistant professor in the multiple myeloma program at Huntsman Cancer Institute, University of Utah, Salt Lake City.

“We must recognize that the control arm [in CARTITUDE-4] isn’t the best available standard of care,” he explained, noting that carfilzomib-containing triplets were not allowed. “Furthermore, overall survival is dependent on access to good therapies upon relapse, and patients in the control arm did not cross over to get cilta-cel at the time of relapse.

“We do not know if overall survival benefit would have been present if the control arm was better and if there was access to better post-protocol therapy.”

Toxicity is also a concern, he said.

“I think of it as high risk-high reward. There was a sevenfold increased incidence of secondary hematological malignancies in the cilta-cel arm compared to standard of care — this is a very concerning signal that dampens my enthusiasm to use this drug early for everyone,” he added.

For example, although Parkinsonism was rare, it generally did not resolve and lasted years, resolving in only 13% of affected patients, with a median time to resolution of 523 days.

“These are horrible odds, and for many patients there may be safer options,” he noted, adding that “cilta-cel is an option I would consider for some relapses (very early relapse while still on multi-agent therapy, high-risk disease), but otherwise I think personally it’s too toxic for most first relapses.”

Dr. Mateos reported relationships with AbbVie, Amgen, BMS, GSK, Janssen, Kite, Oncopeptides, Pfizer, Regeneron, Roche, Sanofi, Stemline Therapeutics, and Takeda. Dr. Mohyuddin had no disclosures.
 

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

Despite the “remarkable progress” in cancer research and care, cancer remains “an ongoing public health challenge,” which requires significant attention and funding, according to the Cancer Progress Report 2024 from the American Association for Cancer Research (AACR).

The AACR’s 216-page report — an annual endeavor now in its 14th year — focused on the “tremendous” strides made in cancer care, prevention, and early detection and highlighted areas where more research and attention are warranted. 

One key area is funding. For the first time since 2016, federal funding for the National Institutes of Health (NIH) and National Cancer Institute (NCI) decreased in the past year. The cuts followed nearly a decade of funding increases that saw the NIH budget expand by nearly $15 billion, and that allowed for a “rapid pace and broad scope” of advances in cancer, AACR’s chief executive officer Margaret Foti, MD, PhD, said during a press briefing.

These recent cuts “threaten to curtail the medical progress seen in recent years and stymie future advancements,” said Dr. Foti, who called on Congress to commit to funding cancer research at significant and consistent levels to “maintain the momentum of progress against cancer.”
 

Inside the Report: Big Progress

Overall, advances in prevention, early detection, and treatment have helped catch more cancers earlier and save lives. 

According to the AACR report, the age-adjusted overall cancer death rate in the United States fell by 33% between 1991 and 2021, meaning about 4.1 million cancer deaths were averted. The overall cancer death rate for children and adolescents has declined by 24% in the past 2 decades. The 5-year relative survival rate for children diagnosed with cancer in the US has improved from 58% for those diagnosed in the mid-1970s to 85% for those diagnosed between 2013 and 2019.

The past fiscal year has seen many new approvals for cancer drugs, diagnostics, and screening tests. From July 1, 2023, to June 30, 2024, the Food and Drug Administration (FDA) approved 15 new anticancer therapeutics, as well as 15 new indications for previously approved agents, one new imaging agent, several artificial intelligence (AI) tools to improve early cancer detection and diagnosis, and two minimally invasive tests for assessing inherited cancer risk or early cancer detection, according to the report.

“Cancer diagnostics are becoming more sophisticated,” AACR president Patricia M. LoRusso, DO, PhD, said during the briefing. “New technologies, such as spatial transcriptomics, are helping us study tumors at a cellular level, and helping to unveil things that we did not initially even begin to understand or think of. AI-based approaches are beginning to transform cancer detection, diagnosis, clinical decision-making, and treatment response monitoring.” 

The report also highlights the significant progress in many childhood and adolescent/young adult cancers, Dr. LoRusso noted. These include FDA approvals for two new molecularly targeted therapeutics: tovorafenib for children with certain types of brain tumor and repotrectinib for children with a wide array of cancer types that have a specific genetic alteration known as NTRK gene fusion. It also includes an expanded approval for eflornithine to reduce the risk for relapse in children with high-risk neuroblastoma.

“Decades — decades — of basic research discoveries, have led to these clinical breakthroughs,” she stressed. “These gains against cancer are because of the rapid progress in our ability to decode the cancer genome, which has opened new and innovative avenues for drug development.”
 

The Gaps

Even with progress in cancer prevention, early detection, and treatment, cancer remains a significant issue.

“In 2024, it is estimated that more than 2 million new cases of cancer will be diagnosed in the United States. More than 611,000 people will die from the disease,” according to the report.

The 2024 report shows that incidence rates for some cancers are increasing in the United States, including vaccine-preventable cancers such as human papillomavirus (HPV)–associated oral cancers and, in young adults, cervical cancers. A recent analysis also found that overall cervical cancer incidence among women aged 30-34 years increased by 2.5% a year between 2012 and 2019.

Furthermore, despite clear evidence demonstrating that the HPV vaccine reduces cervical cancer incidence, uptake has remained poor, with only 38.6% of US children and adolescents aged 9-17 years receiving at least one dose of the vaccine in 2022.

Early-onset cancers are also increasing. Rates of breast, colorectal, and other cancers are on the rise in adults younger than 50 years, the report noted.

The report also pointed to data that 40% of all cancer cases in the United States can be attributed to preventable factors, such as smoking, excess body weight, and alcohol. However, our understanding of these risk factors has improved. Excessive levels of alcohol consumption have, for instance, been shown to increase the risk for six different types of cancer: certain types of head and neck cancer, esophageal squamous cell carcinoma, and breast, colorectal, liver, and stomach cancers.

Financial toxicity remains prevalent as well.

The report explains that financial hardship following a cancer diagnosis is widespread, and the effects can last for years. In fact, more than 40% of patients can spend their entire life savings within the first 2 years of cancer treatment. Among adult survivors of childhood cancers, 20.7% had trouble paying their medical bills, 29.9% said they had been sent to debt collection for unpaid bills, 14.1% had forgone medical care, and 26.8% could not afford nutritious meals.

For young cancer survivors, the lifetime costs associated with a diagnosis of cancer are substantial, reaching an average of $259,324 per person.

On a global level, it is estimated that from 2020 to 2050, the cumulative economic burden of cancer will be $25.2 trillion.
 

The Path Forward

Despite these challenges, Dr. LoRusso said, “it is unquestionable that we are in a time of unparalleled opportunities in cancer research.

“I am excited about what the future holds for cancer research, and especially for patient care,” she said. 

However, funding commitments are needed to avoid impeding this momentum and losing a “talented and creative young workforce” that has brought new ideas and new technologies to the table.

Continued robust funding will help “to markedly improve cancer care, increase cancer survivorship, spur economic growth, and maintain the United States’ position as the global leader in science and medical research,” she added.

The AACR report specifically calls on Congress to:

• Appropriate at least $51.3 billion in fiscal year 2025 for the base budget of the NIH and at least $7.934 billion for the NCI.
• Provide $3.6 billion in dedicated funding for Cancer Moonshot activities through fiscal year 2026 in addition to other funding, consistent with the President’s fiscal year 2025 budget.
• Appropriate at least $472.4 million in fiscal year 2025 for the CDC’s Division of Cancer Prevention to support comprehensive cancer control, central cancer registries, and screening and awareness programs for specific cancers.
• Allocate $55 million in funding for the Oncology Center of Excellence at FDA in fiscal year 2025 to provide regulators with the staff and tools necessary to conduct expedited review of cancer-related medical products.

By working together with Congress and other stakeholders, “we will be able to accelerate the pace of progress and make major strides toward the lifesaving goal of preventing and curing all cancers at the earliest possible time,” Dr. Foti said. “I believe if we do that ... one day we will win this war on cancer.”

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

Despite the “remarkable progress” in cancer research and care, cancer remains “an ongoing public health challenge,” which requires significant attention and funding, according to the Cancer Progress Report 2024 from the American Association for Cancer Research (AACR).

The AACR’s 216-page report — an annual endeavor now in its 14th year — focused on the “tremendous” strides made in cancer care, prevention, and early detection and highlighted areas where more research and attention are warranted. 

One key area is funding. For the first time since 2016, federal funding for the National Institutes of Health (NIH) and National Cancer Institute (NCI) decreased in the past year. The cuts followed nearly a decade of funding increases that saw the NIH budget expand by nearly $15 billion, and that allowed for a “rapid pace and broad scope” of advances in cancer, AACR’s chief executive officer Margaret Foti, MD, PhD, said during a press briefing.

These recent cuts “threaten to curtail the medical progress seen in recent years and stymie future advancements,” said Dr. Foti, who called on Congress to commit to funding cancer research at significant and consistent levels to “maintain the momentum of progress against cancer.”
 

Inside the Report: Big Progress

Overall, advances in prevention, early detection, and treatment have helped catch more cancers earlier and save lives. 

According to the AACR report, the age-adjusted overall cancer death rate in the United States fell by 33% between 1991 and 2021, meaning about 4.1 million cancer deaths were averted. The overall cancer death rate for children and adolescents has declined by 24% in the past 2 decades. The 5-year relative survival rate for children diagnosed with cancer in the US has improved from 58% for those diagnosed in the mid-1970s to 85% for those diagnosed between 2013 and 2019.

The past fiscal year has seen many new approvals for cancer drugs, diagnostics, and screening tests. From July 1, 2023, to June 30, 2024, the Food and Drug Administration (FDA) approved 15 new anticancer therapeutics, as well as 15 new indications for previously approved agents, one new imaging agent, several artificial intelligence (AI) tools to improve early cancer detection and diagnosis, and two minimally invasive tests for assessing inherited cancer risk or early cancer detection, according to the report.

“Cancer diagnostics are becoming more sophisticated,” AACR president Patricia M. LoRusso, DO, PhD, said during the briefing. “New technologies, such as spatial transcriptomics, are helping us study tumors at a cellular level, and helping to unveil things that we did not initially even begin to understand or think of. AI-based approaches are beginning to transform cancer detection, diagnosis, clinical decision-making, and treatment response monitoring.” 

The report also highlights the significant progress in many childhood and adolescent/young adult cancers, Dr. LoRusso noted. These include FDA approvals for two new molecularly targeted therapeutics: tovorafenib for children with certain types of brain tumor and repotrectinib for children with a wide array of cancer types that have a specific genetic alteration known as NTRK gene fusion. It also includes an expanded approval for eflornithine to reduce the risk for relapse in children with high-risk neuroblastoma.

“Decades — decades — of basic research discoveries, have led to these clinical breakthroughs,” she stressed. “These gains against cancer are because of the rapid progress in our ability to decode the cancer genome, which has opened new and innovative avenues for drug development.”
 

The Gaps

Even with progress in cancer prevention, early detection, and treatment, cancer remains a significant issue.

“In 2024, it is estimated that more than 2 million new cases of cancer will be diagnosed in the United States. More than 611,000 people will die from the disease,” according to the report.

The 2024 report shows that incidence rates for some cancers are increasing in the United States, including vaccine-preventable cancers such as human papillomavirus (HPV)–associated oral cancers and, in young adults, cervical cancers. A recent analysis also found that overall cervical cancer incidence among women aged 30-34 years increased by 2.5% a year between 2012 and 2019.

Furthermore, despite clear evidence demonstrating that the HPV vaccine reduces cervical cancer incidence, uptake has remained poor, with only 38.6% of US children and adolescents aged 9-17 years receiving at least one dose of the vaccine in 2022.

Early-onset cancers are also increasing. Rates of breast, colorectal, and other cancers are on the rise in adults younger than 50 years, the report noted.

The report also pointed to data that 40% of all cancer cases in the United States can be attributed to preventable factors, such as smoking, excess body weight, and alcohol. However, our understanding of these risk factors has improved. Excessive levels of alcohol consumption have, for instance, been shown to increase the risk for six different types of cancer: certain types of head and neck cancer, esophageal squamous cell carcinoma, and breast, colorectal, liver, and stomach cancers.

Financial toxicity remains prevalent as well.

The report explains that financial hardship following a cancer diagnosis is widespread, and the effects can last for years. In fact, more than 40% of patients can spend their entire life savings within the first 2 years of cancer treatment. Among adult survivors of childhood cancers, 20.7% had trouble paying their medical bills, 29.9% said they had been sent to debt collection for unpaid bills, 14.1% had forgone medical care, and 26.8% could not afford nutritious meals.

For young cancer survivors, the lifetime costs associated with a diagnosis of cancer are substantial, reaching an average of $259,324 per person.

On a global level, it is estimated that from 2020 to 2050, the cumulative economic burden of cancer will be $25.2 trillion.
 

The Path Forward

Despite these challenges, Dr. LoRusso said, “it is unquestionable that we are in a time of unparalleled opportunities in cancer research.

“I am excited about what the future holds for cancer research, and especially for patient care,” she said. 

However, funding commitments are needed to avoid impeding this momentum and losing a “talented and creative young workforce” that has brought new ideas and new technologies to the table.

Continued robust funding will help “to markedly improve cancer care, increase cancer survivorship, spur economic growth, and maintain the United States’ position as the global leader in science and medical research,” she added.

The AACR report specifically calls on Congress to:

• Appropriate at least $51.3 billion in fiscal year 2025 for the base budget of the NIH and at least $7.934 billion for the NCI.
• Provide $3.6 billion in dedicated funding for Cancer Moonshot activities through fiscal year 2026 in addition to other funding, consistent with the President’s fiscal year 2025 budget.
• Appropriate at least $472.4 million in fiscal year 2025 for the CDC’s Division of Cancer Prevention to support comprehensive cancer control, central cancer registries, and screening and awareness programs for specific cancers.
• Allocate $55 million in funding for the Oncology Center of Excellence at FDA in fiscal year 2025 to provide regulators with the staff and tools necessary to conduct expedited review of cancer-related medical products.

By working together with Congress and other stakeholders, “we will be able to accelerate the pace of progress and make major strides toward the lifesaving goal of preventing and curing all cancers at the earliest possible time,” Dr. Foti said. “I believe if we do that ... one day we will win this war on cancer.”

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

Despite the “remarkable progress” in cancer research and care, cancer remains “an ongoing public health challenge,” which requires significant attention and funding, according to the Cancer Progress Report 2024 from the American Association for Cancer Research (AACR).

The AACR’s 216-page report — an annual endeavor now in its 14th year — focused on the “tremendous” strides made in cancer care, prevention, and early detection and highlighted areas where more research and attention are warranted. 

One key area is funding. For the first time since 2016, federal funding for the National Institutes of Health (NIH) and National Cancer Institute (NCI) decreased in the past year. The cuts followed nearly a decade of funding increases that saw the NIH budget expand by nearly $15 billion, and that allowed for a “rapid pace and broad scope” of advances in cancer, AACR’s chief executive officer Margaret Foti, MD, PhD, said during a press briefing.

These recent cuts “threaten to curtail the medical progress seen in recent years and stymie future advancements,” said Dr. Foti, who called on Congress to commit to funding cancer research at significant and consistent levels to “maintain the momentum of progress against cancer.”
 

Inside the Report: Big Progress

Overall, advances in prevention, early detection, and treatment have helped catch more cancers earlier and save lives. 

According to the AACR report, the age-adjusted overall cancer death rate in the United States fell by 33% between 1991 and 2021, meaning about 4.1 million cancer deaths were averted. The overall cancer death rate for children and adolescents has declined by 24% in the past 2 decades. The 5-year relative survival rate for children diagnosed with cancer in the US has improved from 58% for those diagnosed in the mid-1970s to 85% for those diagnosed between 2013 and 2019.

The past fiscal year has seen many new approvals for cancer drugs, diagnostics, and screening tests. From July 1, 2023, to June 30, 2024, the Food and Drug Administration (FDA) approved 15 new anticancer therapeutics, as well as 15 new indications for previously approved agents, one new imaging agent, several artificial intelligence (AI) tools to improve early cancer detection and diagnosis, and two minimally invasive tests for assessing inherited cancer risk or early cancer detection, according to the report.

“Cancer diagnostics are becoming more sophisticated,” AACR president Patricia M. LoRusso, DO, PhD, said during the briefing. “New technologies, such as spatial transcriptomics, are helping us study tumors at a cellular level, and helping to unveil things that we did not initially even begin to understand or think of. AI-based approaches are beginning to transform cancer detection, diagnosis, clinical decision-making, and treatment response monitoring.” 

The report also highlights the significant progress in many childhood and adolescent/young adult cancers, Dr. LoRusso noted. These include FDA approvals for two new molecularly targeted therapeutics: tovorafenib for children with certain types of brain tumor and repotrectinib for children with a wide array of cancer types that have a specific genetic alteration known as NTRK gene fusion. It also includes an expanded approval for eflornithine to reduce the risk for relapse in children with high-risk neuroblastoma.

“Decades — decades — of basic research discoveries, have led to these clinical breakthroughs,” she stressed. “These gains against cancer are because of the rapid progress in our ability to decode the cancer genome, which has opened new and innovative avenues for drug development.”
 

The Gaps

Even with progress in cancer prevention, early detection, and treatment, cancer remains a significant issue.

“In 2024, it is estimated that more than 2 million new cases of cancer will be diagnosed in the United States. More than 611,000 people will die from the disease,” according to the report.

The 2024 report shows that incidence rates for some cancers are increasing in the United States, including vaccine-preventable cancers such as human papillomavirus (HPV)–associated oral cancers and, in young adults, cervical cancers. A recent analysis also found that overall cervical cancer incidence among women aged 30-34 years increased by 2.5% a year between 2012 and 2019.

Furthermore, despite clear evidence demonstrating that the HPV vaccine reduces cervical cancer incidence, uptake has remained poor, with only 38.6% of US children and adolescents aged 9-17 years receiving at least one dose of the vaccine in 2022.

Early-onset cancers are also increasing. Rates of breast, colorectal, and other cancers are on the rise in adults younger than 50 years, the report noted.

The report also pointed to data that 40% of all cancer cases in the United States can be attributed to preventable factors, such as smoking, excess body weight, and alcohol. However, our understanding of these risk factors has improved. Excessive levels of alcohol consumption have, for instance, been shown to increase the risk for six different types of cancer: certain types of head and neck cancer, esophageal squamous cell carcinoma, and breast, colorectal, liver, and stomach cancers.

Financial toxicity remains prevalent as well.

The report explains that financial hardship following a cancer diagnosis is widespread, and the effects can last for years. In fact, more than 40% of patients can spend their entire life savings within the first 2 years of cancer treatment. Among adult survivors of childhood cancers, 20.7% had trouble paying their medical bills, 29.9% said they had been sent to debt collection for unpaid bills, 14.1% had forgone medical care, and 26.8% could not afford nutritious meals.

For young cancer survivors, the lifetime costs associated with a diagnosis of cancer are substantial, reaching an average of $259,324 per person.

On a global level, it is estimated that from 2020 to 2050, the cumulative economic burden of cancer will be $25.2 trillion.
 

The Path Forward

Despite these challenges, Dr. LoRusso said, “it is unquestionable that we are in a time of unparalleled opportunities in cancer research.

“I am excited about what the future holds for cancer research, and especially for patient care,” she said. 

However, funding commitments are needed to avoid impeding this momentum and losing a “talented and creative young workforce” that has brought new ideas and new technologies to the table.

Continued robust funding will help “to markedly improve cancer care, increase cancer survivorship, spur economic growth, and maintain the United States’ position as the global leader in science and medical research,” she added.

The AACR report specifically calls on Congress to:

• Appropriate at least $51.3 billion in fiscal year 2025 for the base budget of the NIH and at least $7.934 billion for the NCI.
• Provide $3.6 billion in dedicated funding for Cancer Moonshot activities through fiscal year 2026 in addition to other funding, consistent with the President’s fiscal year 2025 budget.
• Appropriate at least $472.4 million in fiscal year 2025 for the CDC’s Division of Cancer Prevention to support comprehensive cancer control, central cancer registries, and screening and awareness programs for specific cancers.
• Allocate $55 million in funding for the Oncology Center of Excellence at FDA in fiscal year 2025 to provide regulators with the staff and tools necessary to conduct expedited review of cancer-related medical products.

By working together with Congress and other stakeholders, “we will be able to accelerate the pace of progress and make major strides toward the lifesaving goal of preventing and curing all cancers at the earliest possible time,” Dr. Foti said. “I believe if we do that ... one day we will win this war on cancer.”

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

At a conference on hematologic oncology, two sickle cell experts faced off in a debate about whether gene therapy or alternative stem-cell transplant is the best option for patients who don’t have an available matched sibling donor. 

“If there is an indication for intervention, for a curative therapy, in the absence of a matched sibling donor, gene therapy is the first choice,” Jaap-Jan Boelens, MD, PhD, of Memorial Sloan Kettering Cancer Center, New York City, argued in a presentation at the annual meeting of the Society of Hematologic Oncology (SOHO) in Houston.

“In the registries, alternative transplant outcomes are pretty poor, although there is some encouraging data coming up. The time is not there yet when this is the [best] choice.”

But Adetola Kassim, MBBS, of Vanderbilt University Medical Center in Nashville, Tennessee, said patients with sickle cell disease (SCD) who don’t qualify for a matched sibling donor transplant can still have good transplant options. And the results can be impressive.

“Once you’re engrafted, and you don’t lose your graft, the effect in transplant is lifelong,” he said. When it comes to long-lasting effects, he added, “we’re not sure yet about gene therapy.”

As Dr. Kassim noted, SCD continues to take a huge toll.

“Median survival for patients with sickle cell anemia remains stuck in the fifth decade of life with no change in 25 years,” he said. Heart, lung, and kidney complications account for 50% of identifiable causes of death, followed by about 26% attributed to cardiovascular disease, he said. “The question here is about which therapy can impact the most debilitating complication in children, which is stroke, and improve survival in adults with progressive organ dysfunction.”

Dr. Boelens said there are “huge barriers” to stem cell transplant in SCD because only 15% of patients eligible for the treatment have a matched related donor, and only 10% have a matched related or unrelated donor.

“There’s also a lack of financial and psychosocial support in many of the families. There is also parental refusal because of the mortality risk, and there’s also physician refusal because hematologists aren’t always in the same hospitals as the transplant programs.”

Dr. Boelens highlighted a 2019 study of data from 2008-2017 that found outcomes in unmatched donor transplantations are “not great,” with higher risk for mortality and graft failure.

As an alternative, he said, two gene therapies, both gene “additions,” are now approved by the US Food and Drug Administration (FDA). They are exagamglogene autotemcel (exa-cel, Casgevy) and betibeglogene autotemcel (LentiGlobin, Zynteglo). There’s also a gene “correction” option in the works, but it’s not yet ready for prime time, he said.

In the two approved gene therapy treatments, stem cells are removed from the patient, modified/manufactured in an outside facility, and then engrafted.

The advantages of gene therapy include no need to find a donor or worry about graft resistance, and there’s no need for immunosuppression, he said. However, the process takes a long time, there’s limited long-term data, and there’s a risk for loss of fertility and other chemotherapy-related adverse effects.

For his part, Dr. Kassim noted how several groups are excluded from the strong outcomes in matched sibling donor stem-cell transplants: Children with strokes and no eligible donors, others without eligible donors, and adults with severe disease and organ dysfunction who are typically excluded.

“We need transplants with less toxicity and alternative donors,” he said. Another challenge: “How do we decrease graft failure without increasing transplant-related mortality?”

Researchers are exploring several strategies to adjust drug therapy during conditioning, Dr. Kassim said, and he led a promising phase II study that explored one approach. The results of that study were recently published in the journal Blood. Graft failures were very low in both adults and children, he said, and 2-year survival among 70 patients was 94.8%. The five deaths were related to infection.

The evidence about the various strategies shows that “virtually all SCD patients, except those with severe heart, lung, or kidney disease” can benefit from a curative transplant, Dr. Kassim said.

Dr. Boelens had no disclosures. Disclosures for Dr. Kassim were not provided, but he recently reported no disclosures in a report about transplants in SCD.
 

A version of this article appeared on Medscape.com.

At a conference on hematologic oncology, two sickle cell experts faced off in a debate about whether gene therapy or alternative stem-cell transplant is the best option for patients who don’t have an available matched sibling donor. 

“If there is an indication for intervention, for a curative therapy, in the absence of a matched sibling donor, gene therapy is the first choice,” Jaap-Jan Boelens, MD, PhD, of Memorial Sloan Kettering Cancer Center, New York City, argued in a presentation at the annual meeting of the Society of Hematologic Oncology (SOHO) in Houston.

“In the registries, alternative transplant outcomes are pretty poor, although there is some encouraging data coming up. The time is not there yet when this is the [best] choice.”

But Adetola Kassim, MBBS, of Vanderbilt University Medical Center in Nashville, Tennessee, said patients with sickle cell disease (SCD) who don’t qualify for a matched sibling donor transplant can still have good transplant options. And the results can be impressive.

“Once you’re engrafted, and you don’t lose your graft, the effect in transplant is lifelong,” he said. When it comes to long-lasting effects, he added, “we’re not sure yet about gene therapy.”

As Dr. Kassim noted, SCD continues to take a huge toll.

“Median survival for patients with sickle cell anemia remains stuck in the fifth decade of life with no change in 25 years,” he said. Heart, lung, and kidney complications account for 50% of identifiable causes of death, followed by about 26% attributed to cardiovascular disease, he said. “The question here is about which therapy can impact the most debilitating complication in children, which is stroke, and improve survival in adults with progressive organ dysfunction.”

Dr. Boelens said there are “huge barriers” to stem cell transplant in SCD because only 15% of patients eligible for the treatment have a matched related donor, and only 10% have a matched related or unrelated donor.

“There’s also a lack of financial and psychosocial support in many of the families. There is also parental refusal because of the mortality risk, and there’s also physician refusal because hematologists aren’t always in the same hospitals as the transplant programs.”

Dr. Boelens highlighted a 2019 study of data from 2008-2017 that found outcomes in unmatched donor transplantations are “not great,” with higher risk for mortality and graft failure.

As an alternative, he said, two gene therapies, both gene “additions,” are now approved by the US Food and Drug Administration (FDA). They are exagamglogene autotemcel (exa-cel, Casgevy) and betibeglogene autotemcel (LentiGlobin, Zynteglo). There’s also a gene “correction” option in the works, but it’s not yet ready for prime time, he said.

In the two approved gene therapy treatments, stem cells are removed from the patient, modified/manufactured in an outside facility, and then engrafted.

The advantages of gene therapy include no need to find a donor or worry about graft resistance, and there’s no need for immunosuppression, he said. However, the process takes a long time, there’s limited long-term data, and there’s a risk for loss of fertility and other chemotherapy-related adverse effects.

For his part, Dr. Kassim noted how several groups are excluded from the strong outcomes in matched sibling donor stem-cell transplants: Children with strokes and no eligible donors, others without eligible donors, and adults with severe disease and organ dysfunction who are typically excluded.

“We need transplants with less toxicity and alternative donors,” he said. Another challenge: “How do we decrease graft failure without increasing transplant-related mortality?”

Researchers are exploring several strategies to adjust drug therapy during conditioning, Dr. Kassim said, and he led a promising phase II study that explored one approach. The results of that study were recently published in the journal Blood. Graft failures were very low in both adults and children, he said, and 2-year survival among 70 patients was 94.8%. The five deaths were related to infection.

The evidence about the various strategies shows that “virtually all SCD patients, except those with severe heart, lung, or kidney disease” can benefit from a curative transplant, Dr. Kassim said.

Dr. Boelens had no disclosures. Disclosures for Dr. Kassim were not provided, but he recently reported no disclosures in a report about transplants in SCD.
 

A version of this article appeared on Medscape.com.

At a conference on hematologic oncology, two sickle cell experts faced off in a debate about whether gene therapy or alternative stem-cell transplant is the best option for patients who don’t have an available matched sibling donor. 

“If there is an indication for intervention, for a curative therapy, in the absence of a matched sibling donor, gene therapy is the first choice,” Jaap-Jan Boelens, MD, PhD, of Memorial Sloan Kettering Cancer Center, New York City, argued in a presentation at the annual meeting of the Society of Hematologic Oncology (SOHO) in Houston.

“In the registries, alternative transplant outcomes are pretty poor, although there is some encouraging data coming up. The time is not there yet when this is the [best] choice.”

But Adetola Kassim, MBBS, of Vanderbilt University Medical Center in Nashville, Tennessee, said patients with sickle cell disease (SCD) who don’t qualify for a matched sibling donor transplant can still have good transplant options. And the results can be impressive.

“Once you’re engrafted, and you don’t lose your graft, the effect in transplant is lifelong,” he said. When it comes to long-lasting effects, he added, “we’re not sure yet about gene therapy.”

As Dr. Kassim noted, SCD continues to take a huge toll.

“Median survival for patients with sickle cell anemia remains stuck in the fifth decade of life with no change in 25 years,” he said. Heart, lung, and kidney complications account for 50% of identifiable causes of death, followed by about 26% attributed to cardiovascular disease, he said. “The question here is about which therapy can impact the most debilitating complication in children, which is stroke, and improve survival in adults with progressive organ dysfunction.”

Dr. Boelens said there are “huge barriers” to stem cell transplant in SCD because only 15% of patients eligible for the treatment have a matched related donor, and only 10% have a matched related or unrelated donor.

“There’s also a lack of financial and psychosocial support in many of the families. There is also parental refusal because of the mortality risk, and there’s also physician refusal because hematologists aren’t always in the same hospitals as the transplant programs.”

Dr. Boelens highlighted a 2019 study of data from 2008-2017 that found outcomes in unmatched donor transplantations are “not great,” with higher risk for mortality and graft failure.

As an alternative, he said, two gene therapies, both gene “additions,” are now approved by the US Food and Drug Administration (FDA). They are exagamglogene autotemcel (exa-cel, Casgevy) and betibeglogene autotemcel (LentiGlobin, Zynteglo). There’s also a gene “correction” option in the works, but it’s not yet ready for prime time, he said.

In the two approved gene therapy treatments, stem cells are removed from the patient, modified/manufactured in an outside facility, and then engrafted.

The advantages of gene therapy include no need to find a donor or worry about graft resistance, and there’s no need for immunosuppression, he said. However, the process takes a long time, there’s limited long-term data, and there’s a risk for loss of fertility and other chemotherapy-related adverse effects.

For his part, Dr. Kassim noted how several groups are excluded from the strong outcomes in matched sibling donor stem-cell transplants: Children with strokes and no eligible donors, others without eligible donors, and adults with severe disease and organ dysfunction who are typically excluded.

“We need transplants with less toxicity and alternative donors,” he said. Another challenge: “How do we decrease graft failure without increasing transplant-related mortality?”

Researchers are exploring several strategies to adjust drug therapy during conditioning, Dr. Kassim said, and he led a promising phase II study that explored one approach. The results of that study were recently published in the journal Blood. Graft failures were very low in both adults and children, he said, and 2-year survival among 70 patients was 94.8%. The five deaths were related to infection.

The evidence about the various strategies shows that “virtually all SCD patients, except those with severe heart, lung, or kidney disease” can benefit from a curative transplant, Dr. Kassim said.

Dr. Boelens had no disclosures. Disclosures for Dr. Kassim were not provided, but he recently reported no disclosures in a report about transplants in SCD.
 

A version of this article appeared on Medscape.com.

Research offers promising insights into the ideal frontline therapies for mantle cell lymphoma (MCL), but there are continued unmet needs in the relapsed/refractory setting, blood cancer specialists told colleagues. 

In the frontline setting, findings suggest that regimens should differ significantly on the basis of whether patients are older or younger, whereas more data are needed to understand whether treatment can overcome poor prognoses in patients with TP53 mutations, lymphoma specialist Nina Wagner-Johnston, MD, of Johns Hopkins University School of Medicine, Baltimore, said in a presentation at the annual meeting of the Society of Hematologic Oncology (SOHO) 2024 in Houston, Texas.

On the relapsed/refractory front, patients need better options after treatment with Bruton tyrosine kinase inhibitors or chimeric antigen receptor (CAR) T-cell therapy, Krish Patel, MD, a lymphoma specialist with Swedish Cancer Institute in Seattle, said in an adjoining presentation. Fortunately, he said, some treatments are showing early promise.

Here’s a closer look at the presentations by Dr. Wagner-Johnston and Dr. Patel.
 

Frontline MCL: Age Helps Determine Best Approach

“For older and less fit patients, the standard approach has typically been bendamustine (Bendeka, Treanda) and rituximab (Rituxan), and the median progression-free survival is about 4 years, with overall survival not reached at a median 5 years of follow-up,” Dr. Wagner-Johnston said. 

Low doses of the chemotherapy drug cytarabine have been added to the bendamustine-rituximab regimen, with encouraging results, she said. “Certainly there’s more toxicity associated even with lower doses, but those data look fairly promising.”

For younger and fit patients, “the standard of care approach has been to administer intensive chemoimmunotherapy that contains high-dose cytarabine, and then that’s typically followed with an autologous stem cell transplant,” she said. A 2016 study reported median progression-free survival of 8.5 years and median overall survival of 12.7 years.

Now, second-generation Bruton tyrosine kinase inhibitors “look very promising” in the frontline setting, Dr. Wagner-Johnston said.

The road has been rocky, however. The SHINE trial of more than 500 patients aged over 65 found that adding ibrutinib to bendamustine-rituximab improved progression-free survival. “However, progression-free survival did not [connect] to an overall survival benefit, and that’s likely due to the toxicity seen with ibrutinib,” she said. 

“It’s not surprising to many of you that ibrutinib has been removed from the FDA label for mantle cell lymphoma,” she said. However, “second-generation [Bruton tyrosine kinase inhibitors] are known to be associated with less toxicity and potentially increased potency.”

What about Bruton tyrosine kinase inhibitors in younger and fitter patients? The TRIANGLE trial demonstrated their benefit, Dr. Wagner-Johnston said, linking ibrutinib to improvement in progression-free survival. 

However, “it’s really too early to evaluate the statistical significance for overall survival.” And while the study looks at therapy without stem cell transplant, she believes it’s too early to know whether that’s a good option. 

Dr. Wagner-Johnston tackled another topic: Can Bruton tyrosine kinase inhibitors overcome the poor prognosis seen with MCL with TP53 mutation? For now, the limitations of research makes it “hard to know,” she said, although early results of the BOVen trial are promising. 
 

Relapsed/Refractory MCL: Better Options Are Still Needed

In his presentation, Dr. Patel spoke about therapy in patients with MCL and relapsed/refractory disease. “We know that outcomes for patients who progress on covalent [Bruton tyrosine kinase inhibitors] is really dismal,” he said. “This has been shown by multiple groups now across the globe.”

Noncovalent Bruton tyrosine kinase inhibitors are now an option, he noted. “We do understand that they work for some patients, and it can be quite useful, but even noncovalent [Bruton tyrosine kinase inhibitors] themselves are susceptible to resistance mutations. We’ve seen that in the [chronic lymphocytic leukemia] world.”

Dr. Patel asked the audience, “Why not just give everybody CAR T-cells, post-[Bruton tyrosine kinase inhibitors]? You get a CAR T-cell! You get a CAR T-cell! Everybody gets one.”

However, he noted, “Unfortunately, mantle cell lymphoma patients experience the worst high-grade toxicity when receiving CD19[-targeted] CAR T-cells.” 

Are there better options? At the moment, “really, really early data” suggest benefits from molecular glues and degraders, novel inhibitors, antibody-drug conjugates, novel CAR T-cells, and bispecific antibodies, Dr. Patel said.

“All of these tools are in clinical trials, and hopefully some of them will help,” he said.

Disclosures were not provided. Dr. Wagner-Johnston recently disclosed advisory committee/board of directors’ relationships with ADC Therapeutics, Regeneron, Calibr, and Verastem. Dr. Patel recently disclosed ties with a long list of pharmaceutical companies, including AbbVie, AstraZeneca, BeiGene, Bristol Myers Squibb, Genentech, Janssen, Merck, and others.
 

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

Research offers promising insights into the ideal frontline therapies for mantle cell lymphoma (MCL), but there are continued unmet needs in the relapsed/refractory setting, blood cancer specialists told colleagues. 

In the frontline setting, findings suggest that regimens should differ significantly on the basis of whether patients are older or younger, whereas more data are needed to understand whether treatment can overcome poor prognoses in patients with TP53 mutations, lymphoma specialist Nina Wagner-Johnston, MD, of Johns Hopkins University School of Medicine, Baltimore, said in a presentation at the annual meeting of the Society of Hematologic Oncology (SOHO) 2024 in Houston, Texas.

On the relapsed/refractory front, patients need better options after treatment with Bruton tyrosine kinase inhibitors or chimeric antigen receptor (CAR) T-cell therapy, Krish Patel, MD, a lymphoma specialist with Swedish Cancer Institute in Seattle, said in an adjoining presentation. Fortunately, he said, some treatments are showing early promise.

Here’s a closer look at the presentations by Dr. Wagner-Johnston and Dr. Patel.
 

Frontline MCL: Age Helps Determine Best Approach

“For older and less fit patients, the standard approach has typically been bendamustine (Bendeka, Treanda) and rituximab (Rituxan), and the median progression-free survival is about 4 years, with overall survival not reached at a median 5 years of follow-up,” Dr. Wagner-Johnston said. 

Low doses of the chemotherapy drug cytarabine have been added to the bendamustine-rituximab regimen, with encouraging results, she said. “Certainly there’s more toxicity associated even with lower doses, but those data look fairly promising.”

For younger and fit patients, “the standard of care approach has been to administer intensive chemoimmunotherapy that contains high-dose cytarabine, and then that’s typically followed with an autologous stem cell transplant,” she said. A 2016 study reported median progression-free survival of 8.5 years and median overall survival of 12.7 years.

Now, second-generation Bruton tyrosine kinase inhibitors “look very promising” in the frontline setting, Dr. Wagner-Johnston said.

The road has been rocky, however. The SHINE trial of more than 500 patients aged over 65 found that adding ibrutinib to bendamustine-rituximab improved progression-free survival. “However, progression-free survival did not [connect] to an overall survival benefit, and that’s likely due to the toxicity seen with ibrutinib,” she said. 

“It’s not surprising to many of you that ibrutinib has been removed from the FDA label for mantle cell lymphoma,” she said. However, “second-generation [Bruton tyrosine kinase inhibitors] are known to be associated with less toxicity and potentially increased potency.”

What about Bruton tyrosine kinase inhibitors in younger and fitter patients? The TRIANGLE trial demonstrated their benefit, Dr. Wagner-Johnston said, linking ibrutinib to improvement in progression-free survival. 

However, “it’s really too early to evaluate the statistical significance for overall survival.” And while the study looks at therapy without stem cell transplant, she believes it’s too early to know whether that’s a good option. 

Dr. Wagner-Johnston tackled another topic: Can Bruton tyrosine kinase inhibitors overcome the poor prognosis seen with MCL with TP53 mutation? For now, the limitations of research makes it “hard to know,” she said, although early results of the BOVen trial are promising. 
 

Relapsed/Refractory MCL: Better Options Are Still Needed

In his presentation, Dr. Patel spoke about therapy in patients with MCL and relapsed/refractory disease. “We know that outcomes for patients who progress on covalent [Bruton tyrosine kinase inhibitors] is really dismal,” he said. “This has been shown by multiple groups now across the globe.”

Noncovalent Bruton tyrosine kinase inhibitors are now an option, he noted. “We do understand that they work for some patients, and it can be quite useful, but even noncovalent [Bruton tyrosine kinase inhibitors] themselves are susceptible to resistance mutations. We’ve seen that in the [chronic lymphocytic leukemia] world.”

Dr. Patel asked the audience, “Why not just give everybody CAR T-cells, post-[Bruton tyrosine kinase inhibitors]? You get a CAR T-cell! You get a CAR T-cell! Everybody gets one.”

However, he noted, “Unfortunately, mantle cell lymphoma patients experience the worst high-grade toxicity when receiving CD19[-targeted] CAR T-cells.” 

Are there better options? At the moment, “really, really early data” suggest benefits from molecular glues and degraders, novel inhibitors, antibody-drug conjugates, novel CAR T-cells, and bispecific antibodies, Dr. Patel said.

“All of these tools are in clinical trials, and hopefully some of them will help,” he said.

Disclosures were not provided. Dr. Wagner-Johnston recently disclosed advisory committee/board of directors’ relationships with ADC Therapeutics, Regeneron, Calibr, and Verastem. Dr. Patel recently disclosed ties with a long list of pharmaceutical companies, including AbbVie, AstraZeneca, BeiGene, Bristol Myers Squibb, Genentech, Janssen, Merck, and others.
 

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

Research offers promising insights into the ideal frontline therapies for mantle cell lymphoma (MCL), but there are continued unmet needs in the relapsed/refractory setting, blood cancer specialists told colleagues. 

In the frontline setting, findings suggest that regimens should differ significantly on the basis of whether patients are older or younger, whereas more data are needed to understand whether treatment can overcome poor prognoses in patients with TP53 mutations, lymphoma specialist Nina Wagner-Johnston, MD, of Johns Hopkins University School of Medicine, Baltimore, said in a presentation at the annual meeting of the Society of Hematologic Oncology (SOHO) 2024 in Houston, Texas.

On the relapsed/refractory front, patients need better options after treatment with Bruton tyrosine kinase inhibitors or chimeric antigen receptor (CAR) T-cell therapy, Krish Patel, MD, a lymphoma specialist with Swedish Cancer Institute in Seattle, said in an adjoining presentation. Fortunately, he said, some treatments are showing early promise.

Here’s a closer look at the presentations by Dr. Wagner-Johnston and Dr. Patel.
 

Frontline MCL: Age Helps Determine Best Approach

“For older and less fit patients, the standard approach has typically been bendamustine (Bendeka, Treanda) and rituximab (Rituxan), and the median progression-free survival is about 4 years, with overall survival not reached at a median 5 years of follow-up,” Dr. Wagner-Johnston said. 

Low doses of the chemotherapy drug cytarabine have been added to the bendamustine-rituximab regimen, with encouraging results, she said. “Certainly there’s more toxicity associated even with lower doses, but those data look fairly promising.”

For younger and fit patients, “the standard of care approach has been to administer intensive chemoimmunotherapy that contains high-dose cytarabine, and then that’s typically followed with an autologous stem cell transplant,” she said. A 2016 study reported median progression-free survival of 8.5 years and median overall survival of 12.7 years.

Now, second-generation Bruton tyrosine kinase inhibitors “look very promising” in the frontline setting, Dr. Wagner-Johnston said.

The road has been rocky, however. The SHINE trial of more than 500 patients aged over 65 found that adding ibrutinib to bendamustine-rituximab improved progression-free survival. “However, progression-free survival did not [connect] to an overall survival benefit, and that’s likely due to the toxicity seen with ibrutinib,” she said. 

“It’s not surprising to many of you that ibrutinib has been removed from the FDA label for mantle cell lymphoma,” she said. However, “second-generation [Bruton tyrosine kinase inhibitors] are known to be associated with less toxicity and potentially increased potency.”

What about Bruton tyrosine kinase inhibitors in younger and fitter patients? The TRIANGLE trial demonstrated their benefit, Dr. Wagner-Johnston said, linking ibrutinib to improvement in progression-free survival. 

However, “it’s really too early to evaluate the statistical significance for overall survival.” And while the study looks at therapy without stem cell transplant, she believes it’s too early to know whether that’s a good option. 

Dr. Wagner-Johnston tackled another topic: Can Bruton tyrosine kinase inhibitors overcome the poor prognosis seen with MCL with TP53 mutation? For now, the limitations of research makes it “hard to know,” she said, although early results of the BOVen trial are promising. 
 

Relapsed/Refractory MCL: Better Options Are Still Needed

In his presentation, Dr. Patel spoke about therapy in patients with MCL and relapsed/refractory disease. “We know that outcomes for patients who progress on covalent [Bruton tyrosine kinase inhibitors] is really dismal,” he said. “This has been shown by multiple groups now across the globe.”

Noncovalent Bruton tyrosine kinase inhibitors are now an option, he noted. “We do understand that they work for some patients, and it can be quite useful, but even noncovalent [Bruton tyrosine kinase inhibitors] themselves are susceptible to resistance mutations. We’ve seen that in the [chronic lymphocytic leukemia] world.”

Dr. Patel asked the audience, “Why not just give everybody CAR T-cells, post-[Bruton tyrosine kinase inhibitors]? You get a CAR T-cell! You get a CAR T-cell! Everybody gets one.”

However, he noted, “Unfortunately, mantle cell lymphoma patients experience the worst high-grade toxicity when receiving CD19[-targeted] CAR T-cells.” 

Are there better options? At the moment, “really, really early data” suggest benefits from molecular glues and degraders, novel inhibitors, antibody-drug conjugates, novel CAR T-cells, and bispecific antibodies, Dr. Patel said.

“All of these tools are in clinical trials, and hopefully some of them will help,” he said.

Disclosures were not provided. Dr. Wagner-Johnston recently disclosed advisory committee/board of directors’ relationships with ADC Therapeutics, Regeneron, Calibr, and Verastem. Dr. Patel recently disclosed ties with a long list of pharmaceutical companies, including AbbVie, AstraZeneca, BeiGene, Bristol Myers Squibb, Genentech, Janssen, Merck, and others.
 

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

Chimeric antigen receptor (CAR) T-cell therapy has emerged as a game changer for the treatment of multiple myeloma (MM), but questions remain as to how — and when — the immunotherapy will best be used for patients who experience disease relapse.

Will CAR T be best used in early relapse? Experts debated this question at the annual meeting of the Society of Hematologic Oncology. Based on attendees’ votes, at least one side of the debate emerged victorious.

Krina Patel, MD, an associate professor at the University of Texas MD Anderson Cancer Center, Houston, came out swinging with earnest support for using CAR T in early relapse. Saad Z. Usmani, of Memorial Sloan Kettering Cancer Center and Weill Cornell Medical College, New York City, and Cornell University, Ithaca, New York, argued in favor of being “a little more circumspect.”
 

Dr. Patel: Yes, Earlier Is Better

A pre-debate audience poll leaned Dr. Patel’s way, with about 59% of 73 votes favoring CAR T in early relapse, 33% favoring reserving CAR T for patients who relapse after three or more lines of therapy, and 8% undecided.

“CAR T is not just a drug — it’s an actual therapy that takes a lot of logistics, as well as bridging therapy and all these other things to take into account,” said Dr. Patel. “And again, when I can go earlier, I have control over some of this.”

Furthermore, randomized phase 3 data from the KarMMA-3 study and the CARTITUDE-4 study showed that multiple standard therapies were not as good as CAR T in the early relapse setting, she said, pointing to the respective hazard ratios for disease progression or death with CAR T vs standard therapies of 0.49 and 0.26.

CARTITUDE-4 also suggested that manufacturing failures are more likely in later relapse — when time is already of greater essence, she said, noting that it can take an additional 3 months when restarting the process.

When it comes to toxicity, yes, it is a concern, she said.

“But we know how to decrease toxicity,” she stressed. “And again, with our second- and third-line approaches, we actually have better therapies to give for bridging.”

Quality of life is another important consideration, Dr. Patel said, noting only CAR T offers a “one-and-done” therapy that helps patients “truly feel better.”

“They’re not having to come into hospitals as often, and this is not just for months; it’s for years,” she said. “To be able to give that to somebody is huge, and again, we have objective data that show that compared to our standard of care therapies, patients do better in almost every realm of quality of life metrics.”

Dr. Patel also pointed to recent data from a retrospective study showing that for bridging therapy, less is more when disease is controlled, and in the early-line setting, more and safer options are available for reducing tumor burden.

Early CAR T is better for older or frail patients as well, she argued, noting that these patients don’t have time to wait, and a new study demonstrates that they tend to do well with CAR T in the early relapse setting.

The choice for early CAR T is clear in patients with high-risk disease, but Dr. Patel stressed that it shouldn’t be reserved for those patients, asking, “When has anything worked well for patients with high-risk disease and not [also] better for standard-risk patients?”

“And why give only 20%-25% of your patients [who actually reach fifth-line treatment] access to something that we know has really revolutionized myeloma therapy?” she said.

Many patients don’t have access, and that’s an issue, she acknowledged, adding: “But for those who do, we really should be giving it to them as soon as possible.”
 

Dr. Usmani: Reserve CAR T for Later Relapse

Not so fast, said Dr. Usmani. “All of these therapies are doing wonders for our patients, and we believe in them, but we have to be a little circumspect in looking at this data more closely and not just with emotions,” he added, noting that many options exist for patients in a first or second relapse, and new options are emerging.

There is also a “harsh reality” in terms of CAR T availability, he noted, explaining that, in 2021, about 180,000 people were living with MM, and about two thirds of those had relapsed disease. Meanwhile, fewer than 1000 CAR T products have been delivered each year for patients with relapsed MM since they were approved in this setting in the United States.

“So, it’s a pipe dream, seriously, that we will be able to utilize CAR T for all patients in early relapsed disease,” he said, adding that capacity will remain an issue because of limited resources.

The existing data, including from KarMMa-3 and CARTITUDE-4, show little potential for long-term benefit with early vs later CAR T.

“There is no plateau,” he said of the survival curves in KarMMa-3, underscoring the lack of a difference in overall survival benefit based on CAR T timing.

The CARTITUDE-4 curves “look great,” and it may be that a “small plateau emerges,” but they don’t demonstrate a benefit of earlier vs later CAR T, he said.

As Dr. Patel noted, there are few treatment options for patients with anti-CD38 monoclonal antibody and immunomodulatory drug resistance at first relapse. However, that situation will soon change, Dr. Usmani stated.

“Guess what? Belamaf is coming to the rescue!” he said of the off-the-shelf and more accessible B-cell maturation antigen-targeted antibody-drug conjugate belantamab mafodotin, which has recently been evaluated in the DREAMM 7 and DREAMM 8 trials.

DREAMM 7 demonstrated improved survival vs daratumumab, bortezomib, and dexamethasone in the relapsed/refractory MM setting when used in combination with bortezomib and dexamethasone. DREAMM 8 shows similar benefit with belantamab mafodotin, pomalidomide, and dexamethasone vs pomalidomide, bortezomib, and dexamethasone in lenalidomide-exposed patients with relapsed or refractory MM.

“Belamaf combinations in the one to three lines [of prior therapy] setting look really good,” he said, noting a particular benefit for progression-free survival and a trend toward improved overall survival.

Considering these factors, as well as the risk for cytopenias and the subsequent risk for infection in most patients who undergo CAR T-cell therapy and the known potential risk for secondary malignancies, Dr. Usmani said that he will remain “in the camp of being really careful in selecting CAR T patients for early relapse” until more is known about the risks.

“CAR T for all is not the answer. I think we have to be careful in picking CAR T patients; it’s not a zero-sum game here,” he said, stressing that “there are too many unknowns with the use of early CAR T therapy.”

“It makes sense in some, but not for everyone,” he said, emphasizing the importance of including patients in the discussion.

“The great thing is we have all these options for our patients,” he said.

Dr. Usmani persuaded at least a few colleagues: The final vote showed 42% of 124 voters supported early CAR T, compared with 52% who supported CAR T after three or more lines of therapy and 6% who remained undecided.

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

Chimeric antigen receptor (CAR) T-cell therapy has emerged as a game changer for the treatment of multiple myeloma (MM), but questions remain as to how — and when — the immunotherapy will best be used for patients who experience disease relapse.

Will CAR T be best used in early relapse? Experts debated this question at the annual meeting of the Society of Hematologic Oncology. Based on attendees’ votes, at least one side of the debate emerged victorious.

Krina Patel, MD, an associate professor at the University of Texas MD Anderson Cancer Center, Houston, came out swinging with earnest support for using CAR T in early relapse. Saad Z. Usmani, of Memorial Sloan Kettering Cancer Center and Weill Cornell Medical College, New York City, and Cornell University, Ithaca, New York, argued in favor of being “a little more circumspect.”
 

Dr. Patel: Yes, Earlier Is Better

A pre-debate audience poll leaned Dr. Patel’s way, with about 59% of 73 votes favoring CAR T in early relapse, 33% favoring reserving CAR T for patients who relapse after three or more lines of therapy, and 8% undecided.

“CAR T is not just a drug — it’s an actual therapy that takes a lot of logistics, as well as bridging therapy and all these other things to take into account,” said Dr. Patel. “And again, when I can go earlier, I have control over some of this.”

Furthermore, randomized phase 3 data from the KarMMA-3 study and the CARTITUDE-4 study showed that multiple standard therapies were not as good as CAR T in the early relapse setting, she said, pointing to the respective hazard ratios for disease progression or death with CAR T vs standard therapies of 0.49 and 0.26.

CARTITUDE-4 also suggested that manufacturing failures are more likely in later relapse — when time is already of greater essence, she said, noting that it can take an additional 3 months when restarting the process.

When it comes to toxicity, yes, it is a concern, she said.

“But we know how to decrease toxicity,” she stressed. “And again, with our second- and third-line approaches, we actually have better therapies to give for bridging.”

Quality of life is another important consideration, Dr. Patel said, noting only CAR T offers a “one-and-done” therapy that helps patients “truly feel better.”

“They’re not having to come into hospitals as often, and this is not just for months; it’s for years,” she said. “To be able to give that to somebody is huge, and again, we have objective data that show that compared to our standard of care therapies, patients do better in almost every realm of quality of life metrics.”

Dr. Patel also pointed to recent data from a retrospective study showing that for bridging therapy, less is more when disease is controlled, and in the early-line setting, more and safer options are available for reducing tumor burden.

Early CAR T is better for older or frail patients as well, she argued, noting that these patients don’t have time to wait, and a new study demonstrates that they tend to do well with CAR T in the early relapse setting.

The choice for early CAR T is clear in patients with high-risk disease, but Dr. Patel stressed that it shouldn’t be reserved for those patients, asking, “When has anything worked well for patients with high-risk disease and not [also] better for standard-risk patients?”

“And why give only 20%-25% of your patients [who actually reach fifth-line treatment] access to something that we know has really revolutionized myeloma therapy?” she said.

Many patients don’t have access, and that’s an issue, she acknowledged, adding: “But for those who do, we really should be giving it to them as soon as possible.”
 

Dr. Usmani: Reserve CAR T for Later Relapse

Not so fast, said Dr. Usmani. “All of these therapies are doing wonders for our patients, and we believe in them, but we have to be a little circumspect in looking at this data more closely and not just with emotions,” he added, noting that many options exist for patients in a first or second relapse, and new options are emerging.

There is also a “harsh reality” in terms of CAR T availability, he noted, explaining that, in 2021, about 180,000 people were living with MM, and about two thirds of those had relapsed disease. Meanwhile, fewer than 1000 CAR T products have been delivered each year for patients with relapsed MM since they were approved in this setting in the United States.

“So, it’s a pipe dream, seriously, that we will be able to utilize CAR T for all patients in early relapsed disease,” he said, adding that capacity will remain an issue because of limited resources.

The existing data, including from KarMMa-3 and CARTITUDE-4, show little potential for long-term benefit with early vs later CAR T.

“There is no plateau,” he said of the survival curves in KarMMa-3, underscoring the lack of a difference in overall survival benefit based on CAR T timing.

The CARTITUDE-4 curves “look great,” and it may be that a “small plateau emerges,” but they don’t demonstrate a benefit of earlier vs later CAR T, he said.

As Dr. Patel noted, there are few treatment options for patients with anti-CD38 monoclonal antibody and immunomodulatory drug resistance at first relapse. However, that situation will soon change, Dr. Usmani stated.

“Guess what? Belamaf is coming to the rescue!” he said of the off-the-shelf and more accessible B-cell maturation antigen-targeted antibody-drug conjugate belantamab mafodotin, which has recently been evaluated in the DREAMM 7 and DREAMM 8 trials.

DREAMM 7 demonstrated improved survival vs daratumumab, bortezomib, and dexamethasone in the relapsed/refractory MM setting when used in combination with bortezomib and dexamethasone. DREAMM 8 shows similar benefit with belantamab mafodotin, pomalidomide, and dexamethasone vs pomalidomide, bortezomib, and dexamethasone in lenalidomide-exposed patients with relapsed or refractory MM.

“Belamaf combinations in the one to three lines [of prior therapy] setting look really good,” he said, noting a particular benefit for progression-free survival and a trend toward improved overall survival.

Considering these factors, as well as the risk for cytopenias and the subsequent risk for infection in most patients who undergo CAR T-cell therapy and the known potential risk for secondary malignancies, Dr. Usmani said that he will remain “in the camp of being really careful in selecting CAR T patients for early relapse” until more is known about the risks.

“CAR T for all is not the answer. I think we have to be careful in picking CAR T patients; it’s not a zero-sum game here,” he said, stressing that “there are too many unknowns with the use of early CAR T therapy.”

“It makes sense in some, but not for everyone,” he said, emphasizing the importance of including patients in the discussion.

“The great thing is we have all these options for our patients,” he said.

Dr. Usmani persuaded at least a few colleagues: The final vote showed 42% of 124 voters supported early CAR T, compared with 52% who supported CAR T after three or more lines of therapy and 6% who remained undecided.

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

Chimeric antigen receptor (CAR) T-cell therapy has emerged as a game changer for the treatment of multiple myeloma (MM), but questions remain as to how — and when — the immunotherapy will best be used for patients who experience disease relapse.

Will CAR T be best used in early relapse? Experts debated this question at the annual meeting of the Society of Hematologic Oncology. Based on attendees’ votes, at least one side of the debate emerged victorious.

Krina Patel, MD, an associate professor at the University of Texas MD Anderson Cancer Center, Houston, came out swinging with earnest support for using CAR T in early relapse. Saad Z. Usmani, of Memorial Sloan Kettering Cancer Center and Weill Cornell Medical College, New York City, and Cornell University, Ithaca, New York, argued in favor of being “a little more circumspect.”
 

Dr. Patel: Yes, Earlier Is Better

A pre-debate audience poll leaned Dr. Patel’s way, with about 59% of 73 votes favoring CAR T in early relapse, 33% favoring reserving CAR T for patients who relapse after three or more lines of therapy, and 8% undecided.

“CAR T is not just a drug — it’s an actual therapy that takes a lot of logistics, as well as bridging therapy and all these other things to take into account,” said Dr. Patel. “And again, when I can go earlier, I have control over some of this.”

Furthermore, randomized phase 3 data from the KarMMA-3 study and the CARTITUDE-4 study showed that multiple standard therapies were not as good as CAR T in the early relapse setting, she said, pointing to the respective hazard ratios for disease progression or death with CAR T vs standard therapies of 0.49 and 0.26.

CARTITUDE-4 also suggested that manufacturing failures are more likely in later relapse — when time is already of greater essence, she said, noting that it can take an additional 3 months when restarting the process.

When it comes to toxicity, yes, it is a concern, she said.

“But we know how to decrease toxicity,” she stressed. “And again, with our second- and third-line approaches, we actually have better therapies to give for bridging.”

Quality of life is another important consideration, Dr. Patel said, noting only CAR T offers a “one-and-done” therapy that helps patients “truly feel better.”

“They’re not having to come into hospitals as often, and this is not just for months; it’s for years,” she said. “To be able to give that to somebody is huge, and again, we have objective data that show that compared to our standard of care therapies, patients do better in almost every realm of quality of life metrics.”

Dr. Patel also pointed to recent data from a retrospective study showing that for bridging therapy, less is more when disease is controlled, and in the early-line setting, more and safer options are available for reducing tumor burden.

Early CAR T is better for older or frail patients as well, she argued, noting that these patients don’t have time to wait, and a new study demonstrates that they tend to do well with CAR T in the early relapse setting.

The choice for early CAR T is clear in patients with high-risk disease, but Dr. Patel stressed that it shouldn’t be reserved for those patients, asking, “When has anything worked well for patients with high-risk disease and not [also] better for standard-risk patients?”

“And why give only 20%-25% of your patients [who actually reach fifth-line treatment] access to something that we know has really revolutionized myeloma therapy?” she said.

Many patients don’t have access, and that’s an issue, she acknowledged, adding: “But for those who do, we really should be giving it to them as soon as possible.”
 

Dr. Usmani: Reserve CAR T for Later Relapse

Not so fast, said Dr. Usmani. “All of these therapies are doing wonders for our patients, and we believe in them, but we have to be a little circumspect in looking at this data more closely and not just with emotions,” he added, noting that many options exist for patients in a first or second relapse, and new options are emerging.

There is also a “harsh reality” in terms of CAR T availability, he noted, explaining that, in 2021, about 180,000 people were living with MM, and about two thirds of those had relapsed disease. Meanwhile, fewer than 1000 CAR T products have been delivered each year for patients with relapsed MM since they were approved in this setting in the United States.

“So, it’s a pipe dream, seriously, that we will be able to utilize CAR T for all patients in early relapsed disease,” he said, adding that capacity will remain an issue because of limited resources.

The existing data, including from KarMMa-3 and CARTITUDE-4, show little potential for long-term benefit with early vs later CAR T.

“There is no plateau,” he said of the survival curves in KarMMa-3, underscoring the lack of a difference in overall survival benefit based on CAR T timing.

The CARTITUDE-4 curves “look great,” and it may be that a “small plateau emerges,” but they don’t demonstrate a benefit of earlier vs later CAR T, he said.

As Dr. Patel noted, there are few treatment options for patients with anti-CD38 monoclonal antibody and immunomodulatory drug resistance at first relapse. However, that situation will soon change, Dr. Usmani stated.

“Guess what? Belamaf is coming to the rescue!” he said of the off-the-shelf and more accessible B-cell maturation antigen-targeted antibody-drug conjugate belantamab mafodotin, which has recently been evaluated in the DREAMM 7 and DREAMM 8 trials.

DREAMM 7 demonstrated improved survival vs daratumumab, bortezomib, and dexamethasone in the relapsed/refractory MM setting when used in combination with bortezomib and dexamethasone. DREAMM 8 shows similar benefit with belantamab mafodotin, pomalidomide, and dexamethasone vs pomalidomide, bortezomib, and dexamethasone in lenalidomide-exposed patients with relapsed or refractory MM.

“Belamaf combinations in the one to three lines [of prior therapy] setting look really good,” he said, noting a particular benefit for progression-free survival and a trend toward improved overall survival.

Considering these factors, as well as the risk for cytopenias and the subsequent risk for infection in most patients who undergo CAR T-cell therapy and the known potential risk for secondary malignancies, Dr. Usmani said that he will remain “in the camp of being really careful in selecting CAR T patients for early relapse” until more is known about the risks.

“CAR T for all is not the answer. I think we have to be careful in picking CAR T patients; it’s not a zero-sum game here,” he said, stressing that “there are too many unknowns with the use of early CAR T therapy.”

“It makes sense in some, but not for everyone,” he said, emphasizing the importance of including patients in the discussion.

“The great thing is we have all these options for our patients,” he said.

Dr. Usmani persuaded at least a few colleagues: The final vote showed 42% of 124 voters supported early CAR T, compared with 52% who supported CAR T after three or more lines of therapy and 6% who remained undecided.

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

Recent research on popular weight loss drugs has uncovered surprising benefits beyond their intended use, like lowering the risk of fatal heart attacks. And now there may be another unforeseen advantage: People with type 2 diabetes who took these drugs had a lower risk of having 10 out of 13 obesity-related cancers, compared to those who used insulin therapy.

That’s according to a study published July 5 in JAMA Network Open where researchers studied glucagon-like peptide receptor agonists (known as GLP-1RAs), a class of drugs used to treat diabetes and obesity. Ozempic, Wegovy, Mounjaro, and Zepbound, which have become well-known recently because they are linked to rapid weight loss, contain GLP-1RAs.

For the study, they looked at electronic health records of 1.7 million patients who had type 2 diabetes, no prior diagnosis of obesity-related cancers, and had been prescribed GLP-1RAs, insulins, or metformin from March 2005 to November 2018.

The scientists found that compared to patients who took insulin, people who took GLP-1RAs had a “significant risk reduction” in 10 of 13 obesity-related cancers. Those 10 cancers were esophageal, colorectal, endometrial, gallbladder, kidney, liver, ovarian, and pancreatic cancers, as well as meningioma and multiple myeloma.

Compared with patients taking insulin, patients taking GLP-1RAs showed no statistically significant reduction in stomach cancer and no reduced risk of breast and thyroid cancers, the study said.

But the study found no decrease in cancer risk with GLP-1RAs compared with metformin.

While the study results suggest that these drugs may reduce the risk of certain obesity-related cancers better than insulins, more research is needed, they said.

A version of this article appeared on WebMD.com.

Recent research on popular weight loss drugs has uncovered surprising benefits beyond their intended use, like lowering the risk of fatal heart attacks. And now there may be another unforeseen advantage: People with type 2 diabetes who took these drugs had a lower risk of having 10 out of 13 obesity-related cancers, compared to those who used insulin therapy.

That’s according to a study published July 5 in JAMA Network Open where researchers studied glucagon-like peptide receptor agonists (known as GLP-1RAs), a class of drugs used to treat diabetes and obesity. Ozempic, Wegovy, Mounjaro, and Zepbound, which have become well-known recently because they are linked to rapid weight loss, contain GLP-1RAs.

For the study, they looked at electronic health records of 1.7 million patients who had type 2 diabetes, no prior diagnosis of obesity-related cancers, and had been prescribed GLP-1RAs, insulins, or metformin from March 2005 to November 2018.

The scientists found that compared to patients who took insulin, people who took GLP-1RAs had a “significant risk reduction” in 10 of 13 obesity-related cancers. Those 10 cancers were esophageal, colorectal, endometrial, gallbladder, kidney, liver, ovarian, and pancreatic cancers, as well as meningioma and multiple myeloma.

Compared with patients taking insulin, patients taking GLP-1RAs showed no statistically significant reduction in stomach cancer and no reduced risk of breast and thyroid cancers, the study said.

But the study found no decrease in cancer risk with GLP-1RAs compared with metformin.

While the study results suggest that these drugs may reduce the risk of certain obesity-related cancers better than insulins, more research is needed, they said.

A version of this article appeared on WebMD.com.

Recent research on popular weight loss drugs has uncovered surprising benefits beyond their intended use, like lowering the risk of fatal heart attacks. And now there may be another unforeseen advantage: People with type 2 diabetes who took these drugs had a lower risk of having 10 out of 13 obesity-related cancers, compared to those who used insulin therapy.

That’s according to a study published July 5 in JAMA Network Open where researchers studied glucagon-like peptide receptor agonists (known as GLP-1RAs), a class of drugs used to treat diabetes and obesity. Ozempic, Wegovy, Mounjaro, and Zepbound, which have become well-known recently because they are linked to rapid weight loss, contain GLP-1RAs.

For the study, they looked at electronic health records of 1.7 million patients who had type 2 diabetes, no prior diagnosis of obesity-related cancers, and had been prescribed GLP-1RAs, insulins, or metformin from March 2005 to November 2018.

The scientists found that compared to patients who took insulin, people who took GLP-1RAs had a “significant risk reduction” in 10 of 13 obesity-related cancers. Those 10 cancers were esophageal, colorectal, endometrial, gallbladder, kidney, liver, ovarian, and pancreatic cancers, as well as meningioma and multiple myeloma.

Compared with patients taking insulin, patients taking GLP-1RAs showed no statistically significant reduction in stomach cancer and no reduced risk of breast and thyroid cancers, the study said.

But the study found no decrease in cancer risk with GLP-1RAs compared with metformin.

While the study results suggest that these drugs may reduce the risk of certain obesity-related cancers better than insulins, more research is needed, they said.

A version of this article appeared on WebMD.com.