T Cell Lymphomas

The Food and Drug Administration requested on July 24 that Allergan pull six brands of textured breast implants and breast expanders from the U.S. market, an action the agency took because of new data that substantially increased the number of women who developed a rare cancer – anaplastic large-cell lymphoma – in association with receiving these textured breast devices.

gorodenkoff/iStock/Getty Images Plus

This is the first product recall the FDA has made to address the issue of breast implant–associated anaplastic large-cell lymphoma (BIA-ALCL), a complication that first came to national attention with a 2011 FDA report that had tallied 60 identified BIA-ALCL cases worldwide. By the end of September 2018, the number of reported worldwide BIA-ALCL cases had jumped to 457 cases reported to the agency via medical device reporting. In July 2019, the FDA cited a total of 573 unique, global case reports for BIA-ALCL sent to the agency through July 6, including 33 episodes that led to death.

It was inclusion of these additional 116 cases since September 2018 and 24 additional deaths that led FDA researchers to conclude that “the risk of BIA-ALCL with Allergan BIOCELL textured implants is approximately six-times the risk of BIA-ALCL with textured implants from other manufacturers marketing in the U.S.,” according to a statement from the agency.

The FDA is not recommending that patients who received one of the six products covered by the recall have the material removed if symptoms have not appeared because of the potential risk from explantation.

The agency also stressed that its investigation of the risk posed by placement of other brands of textured breast implants is ongoing and that overall less than 5% of all breast implants performed in current U.S. practice involve the macrotextured implants of the type specified in the Allergan recall.

This U.S. recall follows similar actions taken in France (and the rest of the European Union), Canada, and Australia, and it contrasts with the agency’s prior decision in May 2019 not to start a recall or ban of textured implants following a advisory committee meeting that discussed BIA-ALCL.

The six products that Allergan agreed to recall from marketing at the FDA’s request are four textured breast implants (Natrelle Saline-Filled Breast Implants, Natrelle Silicone-Filled Breast Implants, Natrelle Inspira Silicone-Filled breast Implants, and Natrelle 410 Highly Cohesive Anatomically Shaped Silicone-Filled Breast Implants) and two tissue expanders used prior to a breast implant (Natrelle 133 Plus Tissue Expander and the Natrelle 133 Tissue Expander with Suture Tabs).

FDA officials said they are considering recommendations for changes to the labeling of breast implant products, including a possible boxed warning and beefed up patient information.

“The recall of these textured implants is a big deal in protecting women from the potential risks of developing, and dying from, this rare type of aggressive lymphoma,” Joshua Brody, MD, a medical oncologist and director of the lymphoma immunotherapy program at Mount Sinai Medical Center in New York said in a statement. “While case reports have suggested a potential link between some types of breast implants and this disease – anaplastic lymphoma – for over 20 years, it has taken time to gain sufficient evidence to suggest, and understand, the causality. Some types of implants induce inflammation, which can both increase the chance of developing cancer, and also help to ‘hide’ developing cancers from the immune system. By preventing further use of these implants, the FDA is helping women to protect themselves from the medically serious and emotionally exhausting effects of these risks.”

Dr. Brody reported having no relevant disclosures.

[email protected]

The Food and Drug Administration requested on July 24 that Allergan pull six brands of textured breast implants and breast expanders from the U.S. market, an action the agency took because of new data that substantially increased the number of women who developed a rare cancer – anaplastic large-cell lymphoma – in association with receiving these textured breast devices.

gorodenkoff/iStock/Getty Images Plus

This is the first product recall the FDA has made to address the issue of breast implant–associated anaplastic large-cell lymphoma (BIA-ALCL), a complication that first came to national attention with a 2011 FDA report that had tallied 60 identified BIA-ALCL cases worldwide. By the end of September 2018, the number of reported worldwide BIA-ALCL cases had jumped to 457 cases reported to the agency via medical device reporting. In July 2019, the FDA cited a total of 573 unique, global case reports for BIA-ALCL sent to the agency through July 6, including 33 episodes that led to death.

It was inclusion of these additional 116 cases since September 2018 and 24 additional deaths that led FDA researchers to conclude that “the risk of BIA-ALCL with Allergan BIOCELL textured implants is approximately six-times the risk of BIA-ALCL with textured implants from other manufacturers marketing in the U.S.,” according to a statement from the agency.

The FDA is not recommending that patients who received one of the six products covered by the recall have the material removed if symptoms have not appeared because of the potential risk from explantation.

The agency also stressed that its investigation of the risk posed by placement of other brands of textured breast implants is ongoing and that overall less than 5% of all breast implants performed in current U.S. practice involve the macrotextured implants of the type specified in the Allergan recall.

This U.S. recall follows similar actions taken in France (and the rest of the European Union), Canada, and Australia, and it contrasts with the agency’s prior decision in May 2019 not to start a recall or ban of textured implants following a advisory committee meeting that discussed BIA-ALCL.

The six products that Allergan agreed to recall from marketing at the FDA’s request are four textured breast implants (Natrelle Saline-Filled Breast Implants, Natrelle Silicone-Filled Breast Implants, Natrelle Inspira Silicone-Filled breast Implants, and Natrelle 410 Highly Cohesive Anatomically Shaped Silicone-Filled Breast Implants) and two tissue expanders used prior to a breast implant (Natrelle 133 Plus Tissue Expander and the Natrelle 133 Tissue Expander with Suture Tabs).

FDA officials said they are considering recommendations for changes to the labeling of breast implant products, including a possible boxed warning and beefed up patient information.

“The recall of these textured implants is a big deal in protecting women from the potential risks of developing, and dying from, this rare type of aggressive lymphoma,” Joshua Brody, MD, a medical oncologist and director of the lymphoma immunotherapy program at Mount Sinai Medical Center in New York said in a statement. “While case reports have suggested a potential link between some types of breast implants and this disease – anaplastic lymphoma – for over 20 years, it has taken time to gain sufficient evidence to suggest, and understand, the causality. Some types of implants induce inflammation, which can both increase the chance of developing cancer, and also help to ‘hide’ developing cancers from the immune system. By preventing further use of these implants, the FDA is helping women to protect themselves from the medically serious and emotionally exhausting effects of these risks.”

Dr. Brody reported having no relevant disclosures.

[email protected]

The Food and Drug Administration requested on July 24 that Allergan pull six brands of textured breast implants and breast expanders from the U.S. market, an action the agency took because of new data that substantially increased the number of women who developed a rare cancer – anaplastic large-cell lymphoma – in association with receiving these textured breast devices.

gorodenkoff/iStock/Getty Images Plus

This is the first product recall the FDA has made to address the issue of breast implant–associated anaplastic large-cell lymphoma (BIA-ALCL), a complication that first came to national attention with a 2011 FDA report that had tallied 60 identified BIA-ALCL cases worldwide. By the end of September 2018, the number of reported worldwide BIA-ALCL cases had jumped to 457 cases reported to the agency via medical device reporting. In July 2019, the FDA cited a total of 573 unique, global case reports for BIA-ALCL sent to the agency through July 6, including 33 episodes that led to death.

It was inclusion of these additional 116 cases since September 2018 and 24 additional deaths that led FDA researchers to conclude that “the risk of BIA-ALCL with Allergan BIOCELL textured implants is approximately six-times the risk of BIA-ALCL with textured implants from other manufacturers marketing in the U.S.,” according to a statement from the agency.

The FDA is not recommending that patients who received one of the six products covered by the recall have the material removed if symptoms have not appeared because of the potential risk from explantation.

The agency also stressed that its investigation of the risk posed by placement of other brands of textured breast implants is ongoing and that overall less than 5% of all breast implants performed in current U.S. practice involve the macrotextured implants of the type specified in the Allergan recall.

This U.S. recall follows similar actions taken in France (and the rest of the European Union), Canada, and Australia, and it contrasts with the agency’s prior decision in May 2019 not to start a recall or ban of textured implants following a advisory committee meeting that discussed BIA-ALCL.

The six products that Allergan agreed to recall from marketing at the FDA’s request are four textured breast implants (Natrelle Saline-Filled Breast Implants, Natrelle Silicone-Filled Breast Implants, Natrelle Inspira Silicone-Filled breast Implants, and Natrelle 410 Highly Cohesive Anatomically Shaped Silicone-Filled Breast Implants) and two tissue expanders used prior to a breast implant (Natrelle 133 Plus Tissue Expander and the Natrelle 133 Tissue Expander with Suture Tabs).

FDA officials said they are considering recommendations for changes to the labeling of breast implant products, including a possible boxed warning and beefed up patient information.

“The recall of these textured implants is a big deal in protecting women from the potential risks of developing, and dying from, this rare type of aggressive lymphoma,” Joshua Brody, MD, a medical oncologist and director of the lymphoma immunotherapy program at Mount Sinai Medical Center in New York said in a statement. “While case reports have suggested a potential link between some types of breast implants and this disease – anaplastic lymphoma – for over 20 years, it has taken time to gain sufficient evidence to suggest, and understand, the causality. Some types of implants induce inflammation, which can both increase the chance of developing cancer, and also help to ‘hide’ developing cancers from the immune system. By preventing further use of these implants, the FDA is helping women to protect themselves from the medically serious and emotionally exhausting effects of these risks.”

Dr. Brody reported having no relevant disclosures.

[email protected]

NEWPORT BEACH, CALIF. – Preclinical research has revealed workarounds that may make chimeric antigen receptor (CAR) T-cell therapy feasible for patients with T-cell malignancies.

Researchers have found that using allogeneic cells for CAR T-cell therapy can eliminate contamination by malignant T cells, and editing those allogeneic T cells to delete the target antigen and the T-cell receptor alpha chain (TRAC) can prevent fratricide and graft-versus-host disease (GVHD).

Additionally, an interleukin-7 molecule called NT-I7 has been shown to enhance CAR T-cell proliferation, differentiation, and tumor killing in a mouse model of a T-cell malignancy.

John F. DiPersio, MD, PhD, of Washington University in St. Louis, described this work in a presentation at the Acute Leukemia Forum of Hemedicus.
 

Obstacles to development

“The primary obstacle for targeting T-cell malignancies with a T cell is that all of the targets that are on the [malignant] T cells are also expressed on the normal T cells,” Dr. DiPersio said. “So when you put a CAR into a normal T cell, it just kills itself. It’s called fratricide.”

A second issue that has limited development is that the phenotype of the malignant T cell in the blood is similar to a normal T cell, so they can’t be separated, he explained.

“So if you were to do anything to a normal T cell, you would also be doing it, in theory, to the malignant T cell – in theory, making it resistant to therapy,” he said.

A third obstacle, which has been seen in patients with B-cell malignancies as well, is the inability to harvest enough T cells to generate effective CAR T-cell therapy.

And a fourth obstacle is that T cells from patients with malignancies may not function normally because they have been exposed to prior therapies.

Dr. DiPersio and his colleagues believe these obstacles can be overcome by creating CAR T-cell therapies using T cells derived from healthy donors or cord blood, using gene editing to remove the target antigen and TRAC, and using NT-I7 to enhance the efficacy of these universal, “off-the-shelf” CAR T cells.

The researchers have tested these theories, and achieved successes, in preclinical models. The team is now planning a clinical trial in patients at Washington University. Dr. DiPersio and his colleagues also created a company called WUGEN that will develop the universal CAR T-cell therapies if the initial proof-of-principle trial proves successful.
 

UCART7

One of the universal CAR T-cell therapies Dr. DiPersio and his colleagues have tested is UCART7, which targets CD7. Dr. DiPersio noted that CD7 is expressed on 98% of T-cell acute lymphoblastic leukemias (T-ALLs), 24% of acute myeloid leukemias, natural killer (NK) cells, and T cells.

The researchers created UCART7 by using CRISPR/Cas9 to delete CD7 and TRAC from allogeneic T cells and following this with lentiviral transduction with a third-generation CD7-CAR. The team found a way to delete both TRAC and CD7 in a single day with 95% efficiency, Dr. DiPersio noted.

“Knocking out CD7 doesn’t seem to have any impact on the expansion or trafficking of these T cells in vivo,” Dr. DiPersio said. “So we think that deleting that target in a normal T cell will not affect its overall ability to kill a target when we put a CAR into those T cells.”

In fact, the researchers’ experiments showed that UCART7 can kill T-ALL cells in vitro and target primary T-ALL in vivo without inducing GVHD (Leukemia. 2018 Sep;32[9]:1970-83.)
 

UCART2 and NT-I7

Dr. DiPersio and his colleagues have also tested UCART2, an allogeneic CAR T-cell therapy in which CD2 and TRAC are deleted. The therapy targets CD2 because this antigen is expressed on T-ALL and other T-cell and NK-cell malignancies. Experiments showed that UCART2 targets T-cell malignancies, including T-ALL and cutaneous T-cell lymphoma, in vitro.

The researchers also tested UCART2 in a mouse model of Sézary syndrome. In these experiments, UCART2 was combined with NT-I7.

NT-I7 enhanced the proliferation, persistence, and tumor killing ability of UCART2. Sézary mice that received UCART2 and NT-I7 had “virtually no tumor burden,” according to researchers, and survived longer than mice treated with UCART2 alone (Blood. 2018;132:340).

Dr. DiPersio noted that there was no cytokine release syndrome because these were immunodeficient mice. However, cytokine release syndrome may be a side effect of NT-I7 in patients as NT-I7 induces rapid expansion of CAR T cells.

Dr. DiPersio reported ownership and investment in WUGEN and Magenta Therapeutics. He also has relationships with Cellworks Group, Tioma Therapeutics, RiverVest Venture Partners, Bioline, Asterias Biotherapeutics, Amphivena Therapeutics, Bluebird Bio, Celgene, Incyte, NeoImuneTech, and MacroGenics.

The Acute Leukemia Forum is organized by Hemedicus, which is owned by the same company as this news organization.

[email protected]

NEWPORT BEACH, CALIF. – Preclinical research has revealed workarounds that may make chimeric antigen receptor (CAR) T-cell therapy feasible for patients with T-cell malignancies.

Researchers have found that using allogeneic cells for CAR T-cell therapy can eliminate contamination by malignant T cells, and editing those allogeneic T cells to delete the target antigen and the T-cell receptor alpha chain (TRAC) can prevent fratricide and graft-versus-host disease (GVHD).

Additionally, an interleukin-7 molecule called NT-I7 has been shown to enhance CAR T-cell proliferation, differentiation, and tumor killing in a mouse model of a T-cell malignancy.

John F. DiPersio, MD, PhD, of Washington University in St. Louis, described this work in a presentation at the Acute Leukemia Forum of Hemedicus.
 

Obstacles to development

“The primary obstacle for targeting T-cell malignancies with a T cell is that all of the targets that are on the [malignant] T cells are also expressed on the normal T cells,” Dr. DiPersio said. “So when you put a CAR into a normal T cell, it just kills itself. It’s called fratricide.”

A second issue that has limited development is that the phenotype of the malignant T cell in the blood is similar to a normal T cell, so they can’t be separated, he explained.

“So if you were to do anything to a normal T cell, you would also be doing it, in theory, to the malignant T cell – in theory, making it resistant to therapy,” he said.

A third obstacle, which has been seen in patients with B-cell malignancies as well, is the inability to harvest enough T cells to generate effective CAR T-cell therapy.

And a fourth obstacle is that T cells from patients with malignancies may not function normally because they have been exposed to prior therapies.

Dr. DiPersio and his colleagues believe these obstacles can be overcome by creating CAR T-cell therapies using T cells derived from healthy donors or cord blood, using gene editing to remove the target antigen and TRAC, and using NT-I7 to enhance the efficacy of these universal, “off-the-shelf” CAR T cells.

The researchers have tested these theories, and achieved successes, in preclinical models. The team is now planning a clinical trial in patients at Washington University. Dr. DiPersio and his colleagues also created a company called WUGEN that will develop the universal CAR T-cell therapies if the initial proof-of-principle trial proves successful.
 

UCART7

One of the universal CAR T-cell therapies Dr. DiPersio and his colleagues have tested is UCART7, which targets CD7. Dr. DiPersio noted that CD7 is expressed on 98% of T-cell acute lymphoblastic leukemias (T-ALLs), 24% of acute myeloid leukemias, natural killer (NK) cells, and T cells.

The researchers created UCART7 by using CRISPR/Cas9 to delete CD7 and TRAC from allogeneic T cells and following this with lentiviral transduction with a third-generation CD7-CAR. The team found a way to delete both TRAC and CD7 in a single day with 95% efficiency, Dr. DiPersio noted.

“Knocking out CD7 doesn’t seem to have any impact on the expansion or trafficking of these T cells in vivo,” Dr. DiPersio said. “So we think that deleting that target in a normal T cell will not affect its overall ability to kill a target when we put a CAR into those T cells.”

In fact, the researchers’ experiments showed that UCART7 can kill T-ALL cells in vitro and target primary T-ALL in vivo without inducing GVHD (Leukemia. 2018 Sep;32[9]:1970-83.)
 

UCART2 and NT-I7

Dr. DiPersio and his colleagues have also tested UCART2, an allogeneic CAR T-cell therapy in which CD2 and TRAC are deleted. The therapy targets CD2 because this antigen is expressed on T-ALL and other T-cell and NK-cell malignancies. Experiments showed that UCART2 targets T-cell malignancies, including T-ALL and cutaneous T-cell lymphoma, in vitro.

The researchers also tested UCART2 in a mouse model of Sézary syndrome. In these experiments, UCART2 was combined with NT-I7.

NT-I7 enhanced the proliferation, persistence, and tumor killing ability of UCART2. Sézary mice that received UCART2 and NT-I7 had “virtually no tumor burden,” according to researchers, and survived longer than mice treated with UCART2 alone (Blood. 2018;132:340).

Dr. DiPersio noted that there was no cytokine release syndrome because these were immunodeficient mice. However, cytokine release syndrome may be a side effect of NT-I7 in patients as NT-I7 induces rapid expansion of CAR T cells.

Dr. DiPersio reported ownership and investment in WUGEN and Magenta Therapeutics. He also has relationships with Cellworks Group, Tioma Therapeutics, RiverVest Venture Partners, Bioline, Asterias Biotherapeutics, Amphivena Therapeutics, Bluebird Bio, Celgene, Incyte, NeoImuneTech, and MacroGenics.

The Acute Leukemia Forum is organized by Hemedicus, which is owned by the same company as this news organization.

[email protected]

NEWPORT BEACH, CALIF. – Preclinical research has revealed workarounds that may make chimeric antigen receptor (CAR) T-cell therapy feasible for patients with T-cell malignancies.

Researchers have found that using allogeneic cells for CAR T-cell therapy can eliminate contamination by malignant T cells, and editing those allogeneic T cells to delete the target antigen and the T-cell receptor alpha chain (TRAC) can prevent fratricide and graft-versus-host disease (GVHD).

Additionally, an interleukin-7 molecule called NT-I7 has been shown to enhance CAR T-cell proliferation, differentiation, and tumor killing in a mouse model of a T-cell malignancy.

John F. DiPersio, MD, PhD, of Washington University in St. Louis, described this work in a presentation at the Acute Leukemia Forum of Hemedicus.
 

Obstacles to development

“The primary obstacle for targeting T-cell malignancies with a T cell is that all of the targets that are on the [malignant] T cells are also expressed on the normal T cells,” Dr. DiPersio said. “So when you put a CAR into a normal T cell, it just kills itself. It’s called fratricide.”

A second issue that has limited development is that the phenotype of the malignant T cell in the blood is similar to a normal T cell, so they can’t be separated, he explained.

“So if you were to do anything to a normal T cell, you would also be doing it, in theory, to the malignant T cell – in theory, making it resistant to therapy,” he said.

A third obstacle, which has been seen in patients with B-cell malignancies as well, is the inability to harvest enough T cells to generate effective CAR T-cell therapy.

And a fourth obstacle is that T cells from patients with malignancies may not function normally because they have been exposed to prior therapies.

Dr. DiPersio and his colleagues believe these obstacles can be overcome by creating CAR T-cell therapies using T cells derived from healthy donors or cord blood, using gene editing to remove the target antigen and TRAC, and using NT-I7 to enhance the efficacy of these universal, “off-the-shelf” CAR T cells.

The researchers have tested these theories, and achieved successes, in preclinical models. The team is now planning a clinical trial in patients at Washington University. Dr. DiPersio and his colleagues also created a company called WUGEN that will develop the universal CAR T-cell therapies if the initial proof-of-principle trial proves successful.
 

UCART7

One of the universal CAR T-cell therapies Dr. DiPersio and his colleagues have tested is UCART7, which targets CD7. Dr. DiPersio noted that CD7 is expressed on 98% of T-cell acute lymphoblastic leukemias (T-ALLs), 24% of acute myeloid leukemias, natural killer (NK) cells, and T cells.

The researchers created UCART7 by using CRISPR/Cas9 to delete CD7 and TRAC from allogeneic T cells and following this with lentiviral transduction with a third-generation CD7-CAR. The team found a way to delete both TRAC and CD7 in a single day with 95% efficiency, Dr. DiPersio noted.

“Knocking out CD7 doesn’t seem to have any impact on the expansion or trafficking of these T cells in vivo,” Dr. DiPersio said. “So we think that deleting that target in a normal T cell will not affect its overall ability to kill a target when we put a CAR into those T cells.”

In fact, the researchers’ experiments showed that UCART7 can kill T-ALL cells in vitro and target primary T-ALL in vivo without inducing GVHD (Leukemia. 2018 Sep;32[9]:1970-83.)
 

UCART2 and NT-I7

Dr. DiPersio and his colleagues have also tested UCART2, an allogeneic CAR T-cell therapy in which CD2 and TRAC are deleted. The therapy targets CD2 because this antigen is expressed on T-ALL and other T-cell and NK-cell malignancies. Experiments showed that UCART2 targets T-cell malignancies, including T-ALL and cutaneous T-cell lymphoma, in vitro.

The researchers also tested UCART2 in a mouse model of Sézary syndrome. In these experiments, UCART2 was combined with NT-I7.

NT-I7 enhanced the proliferation, persistence, and tumor killing ability of UCART2. Sézary mice that received UCART2 and NT-I7 had “virtually no tumor burden,” according to researchers, and survived longer than mice treated with UCART2 alone (Blood. 2018;132:340).

Dr. DiPersio noted that there was no cytokine release syndrome because these were immunodeficient mice. However, cytokine release syndrome may be a side effect of NT-I7 in patients as NT-I7 induces rapid expansion of CAR T cells.

Dr. DiPersio reported ownership and investment in WUGEN and Magenta Therapeutics. He also has relationships with Cellworks Group, Tioma Therapeutics, RiverVest Venture Partners, Bioline, Asterias Biotherapeutics, Amphivena Therapeutics, Bluebird Bio, Celgene, Incyte, NeoImuneTech, and MacroGenics.

The Acute Leukemia Forum is organized by Hemedicus, which is owned by the same company as this news organization.

[email protected]

Patients with textured silicone gluteal implants could be at risk of anaplastic large cell lymphoma, based on a possible case of ALCL in a patient diagnosed 1 year after implant placement.

The 49-year-old woman was initially diagnosed with anaplastic lymphoma kinase–negative ALCL via a lung mass and pleural fluid before bilateral gluteal ulceration occurred 1 month later, reported Orr Shauly of the University of Southern California in Los Angeles, and his colleagues.

Soft-tissue disease and fluid accumulation around the gluteal implants suggested that the lung mass had metastasized from primary neoplasia in the gluteal region. If ALCL did originate at the site of the gluteal implants, it would represent a first for silicone implant–associated ALCL, which has historically been associated exclusively with breast implants.

“As many as 200 cases of [breast implant-associated ALCL] have been described worldwide, with a majority in the context of cosmetic primary breast augmentation or cancer-related breast reconstruction with the use of a textured implant (57% of all cases),” the investigators wrote in Aesthetic Surgery Journal. “Recently however, it has been hypothesized that the relationship of ALCL with the placement of textured silicone implants may not [be] limited to the breast due to its multifactorial nature and association with texturization of the implant surface.”

During the initial work-up, a CT showed fluid collection and enhancement around the gluteal implants. Following ALCL diagnosis via lung mass biopsy and histopathology, the patient was transferred to a different facility for chemotherapy. When the patient presented 1 month later to the original facility with gluteal ulceration, the oncology team suspected infection; however, all cultures from fluid around the implants were negative.

Because of the possibility of false-negative tests, the patient was started on a regimen of acyclovir, vancomycin, metronidazole, and isavuconazole. Explantation was planned, but before this could occur, the patient deteriorated rapidly and died of respiratory and renal failure.

ALCL was not confirmed via cytology or histopathology in the gluteal region, and the patient’s family did not consent to autopsy, so a definitive diagnosis of gluteal implant–associated ALCL remained elusive.

“In this instance, it can only be concluded that the patient’s condition may have been associated with placement of textured silicone gluteal implants, but [we] still lack evidence of causation,” the investigators wrote. “It should also be noted that ALCL does not typically present with skin ulceration, and this may be a unique disease process in this patient or as a result of her bedridden state given the late stage of her disease. Furthermore, this presentation was uniquely aggressive and presented extremely quickly after placement of the gluteal implants. In most patients, ALCL develops and presents approximately 10 years after implantation.”

The investigators cautioned that “care should be taken to avoid sensationalizing all implant-associated ALCL.”

The authors reported having no conflicts of interest and the study did not receive funding.

SOURCE: Shauly O et al. Aesthet Surg J. 2019 Feb 15. doi: 10.1093/asj/sjz044.

Patients with textured silicone gluteal implants could be at risk of anaplastic large cell lymphoma, based on a possible case of ALCL in a patient diagnosed 1 year after implant placement.

The 49-year-old woman was initially diagnosed with anaplastic lymphoma kinase–negative ALCL via a lung mass and pleural fluid before bilateral gluteal ulceration occurred 1 month later, reported Orr Shauly of the University of Southern California in Los Angeles, and his colleagues.

Soft-tissue disease and fluid accumulation around the gluteal implants suggested that the lung mass had metastasized from primary neoplasia in the gluteal region. If ALCL did originate at the site of the gluteal implants, it would represent a first for silicone implant–associated ALCL, which has historically been associated exclusively with breast implants.

“As many as 200 cases of [breast implant-associated ALCL] have been described worldwide, with a majority in the context of cosmetic primary breast augmentation or cancer-related breast reconstruction with the use of a textured implant (57% of all cases),” the investigators wrote in Aesthetic Surgery Journal. “Recently however, it has been hypothesized that the relationship of ALCL with the placement of textured silicone implants may not [be] limited to the breast due to its multifactorial nature and association with texturization of the implant surface.”

During the initial work-up, a CT showed fluid collection and enhancement around the gluteal implants. Following ALCL diagnosis via lung mass biopsy and histopathology, the patient was transferred to a different facility for chemotherapy. When the patient presented 1 month later to the original facility with gluteal ulceration, the oncology team suspected infection; however, all cultures from fluid around the implants were negative.

Because of the possibility of false-negative tests, the patient was started on a regimen of acyclovir, vancomycin, metronidazole, and isavuconazole. Explantation was planned, but before this could occur, the patient deteriorated rapidly and died of respiratory and renal failure.

ALCL was not confirmed via cytology or histopathology in the gluteal region, and the patient’s family did not consent to autopsy, so a definitive diagnosis of gluteal implant–associated ALCL remained elusive.

“In this instance, it can only be concluded that the patient’s condition may have been associated with placement of textured silicone gluteal implants, but [we] still lack evidence of causation,” the investigators wrote. “It should also be noted that ALCL does not typically present with skin ulceration, and this may be a unique disease process in this patient or as a result of her bedridden state given the late stage of her disease. Furthermore, this presentation was uniquely aggressive and presented extremely quickly after placement of the gluteal implants. In most patients, ALCL develops and presents approximately 10 years after implantation.”

The investigators cautioned that “care should be taken to avoid sensationalizing all implant-associated ALCL.”

The authors reported having no conflicts of interest and the study did not receive funding.

SOURCE: Shauly O et al. Aesthet Surg J. 2019 Feb 15. doi: 10.1093/asj/sjz044.

Patients with textured silicone gluteal implants could be at risk of anaplastic large cell lymphoma, based on a possible case of ALCL in a patient diagnosed 1 year after implant placement.

The 49-year-old woman was initially diagnosed with anaplastic lymphoma kinase–negative ALCL via a lung mass and pleural fluid before bilateral gluteal ulceration occurred 1 month later, reported Orr Shauly of the University of Southern California in Los Angeles, and his colleagues.

Soft-tissue disease and fluid accumulation around the gluteal implants suggested that the lung mass had metastasized from primary neoplasia in the gluteal region. If ALCL did originate at the site of the gluteal implants, it would represent a first for silicone implant–associated ALCL, which has historically been associated exclusively with breast implants.

“As many as 200 cases of [breast implant-associated ALCL] have been described worldwide, with a majority in the context of cosmetic primary breast augmentation or cancer-related breast reconstruction with the use of a textured implant (57% of all cases),” the investigators wrote in Aesthetic Surgery Journal. “Recently however, it has been hypothesized that the relationship of ALCL with the placement of textured silicone implants may not [be] limited to the breast due to its multifactorial nature and association with texturization of the implant surface.”

During the initial work-up, a CT showed fluid collection and enhancement around the gluteal implants. Following ALCL diagnosis via lung mass biopsy and histopathology, the patient was transferred to a different facility for chemotherapy. When the patient presented 1 month later to the original facility with gluteal ulceration, the oncology team suspected infection; however, all cultures from fluid around the implants were negative.

Because of the possibility of false-negative tests, the patient was started on a regimen of acyclovir, vancomycin, metronidazole, and isavuconazole. Explantation was planned, but before this could occur, the patient deteriorated rapidly and died of respiratory and renal failure.

ALCL was not confirmed via cytology or histopathology in the gluteal region, and the patient’s family did not consent to autopsy, so a definitive diagnosis of gluteal implant–associated ALCL remained elusive.

“In this instance, it can only be concluded that the patient’s condition may have been associated with placement of textured silicone gluteal implants, but [we] still lack evidence of causation,” the investigators wrote. “It should also be noted that ALCL does not typically present with skin ulceration, and this may be a unique disease process in this patient or as a result of her bedridden state given the late stage of her disease. Furthermore, this presentation was uniquely aggressive and presented extremely quickly after placement of the gluteal implants. In most patients, ALCL develops and presents approximately 10 years after implantation.”

The investigators cautioned that “care should be taken to avoid sensationalizing all implant-associated ALCL.”

The authors reported having no conflicts of interest and the study did not receive funding.

SOURCE: Shauly O et al. Aesthet Surg J. 2019 Feb 15. doi: 10.1093/asj/sjz044.

An open-label randomized phase 3 trial of oral alisertib for relapsed/refractory peripheral T-cell lymphoma (rrPTCL) was terminated in 2015 after it became clear that it was not going to prove significantly superior to options already on the market.

A new report explains what happened. Oral Alisertib was compared to two agents approved for rrPTCL: intravenous pralatrexate (Folotyn) and romidepsin (Istodax), as well as a common off-label option, intravenous gemcitabine (Gemzar). In all, 138 adults were randomized to alisertib 50 mg two times per day on days 1-7, with a median of four 21-day cycles; 133 were randomized to a comparator, the majority to gemcitabine, and again with repeated cycles as tolerated (J Clin Oncol. 2019 Feb 1. doi: 10.1200/JCO.18.00899).

Overall response rate (ORR) was 33% for alisertib versus 45% for the comparator arm (odds ratio, 0.60; 95% confidence interval, 0.33-1.08). Median progression-free survival was 115 days for alisertib versus 104 days for the comparators, a non–statistically significant difference (hazard ratio, 0.87; 95% CI, 0.637-1.178). Median overall survival was 415 days in the alisertib arm versus 367 days in the comparator arm, also not statistically significant (HR, 0.98; 95% CI, 0.707-1.369).

In patients with rrPTCL, alisertib “did not demonstrate superior efficacy over comparators,” concluded investigators led by oncologist Owen A. O’Connor, MD, PhD, of the Columbia University Medical Center, New York.

Another downside to this drug is that it was associated with adverse events in more than half of patients who took it. While 53% of alisertib patients developed anemia and 47% became neutropenic, in the comparator arm, only 34% and 31% developed anemia and neutropenia, respectively. Further, three deaths in the trial were judged to have be related to alisertib. An additional two deaths occurred in this trial; those were judged to have been related to the rival treatments.

[email protected]

SOURCE: O’Connor OA et al. J Clin Oncol. 2019 Feb 1. doi: 10.1200/JCO.18.00899.

An open-label randomized phase 3 trial of oral alisertib for relapsed/refractory peripheral T-cell lymphoma (rrPTCL) was terminated in 2015 after it became clear that it was not going to prove significantly superior to options already on the market.

A new report explains what happened. Oral Alisertib was compared to two agents approved for rrPTCL: intravenous pralatrexate (Folotyn) and romidepsin (Istodax), as well as a common off-label option, intravenous gemcitabine (Gemzar). In all, 138 adults were randomized to alisertib 50 mg two times per day on days 1-7, with a median of four 21-day cycles; 133 were randomized to a comparator, the majority to gemcitabine, and again with repeated cycles as tolerated (J Clin Oncol. 2019 Feb 1. doi: 10.1200/JCO.18.00899).

Overall response rate (ORR) was 33% for alisertib versus 45% for the comparator arm (odds ratio, 0.60; 95% confidence interval, 0.33-1.08). Median progression-free survival was 115 days for alisertib versus 104 days for the comparators, a non–statistically significant difference (hazard ratio, 0.87; 95% CI, 0.637-1.178). Median overall survival was 415 days in the alisertib arm versus 367 days in the comparator arm, also not statistically significant (HR, 0.98; 95% CI, 0.707-1.369).

In patients with rrPTCL, alisertib “did not demonstrate superior efficacy over comparators,” concluded investigators led by oncologist Owen A. O’Connor, MD, PhD, of the Columbia University Medical Center, New York.

Another downside to this drug is that it was associated with adverse events in more than half of patients who took it. While 53% of alisertib patients developed anemia and 47% became neutropenic, in the comparator arm, only 34% and 31% developed anemia and neutropenia, respectively. Further, three deaths in the trial were judged to have be related to alisertib. An additional two deaths occurred in this trial; those were judged to have been related to the rival treatments.

[email protected]

SOURCE: O’Connor OA et al. J Clin Oncol. 2019 Feb 1. doi: 10.1200/JCO.18.00899.

An open-label randomized phase 3 trial of oral alisertib for relapsed/refractory peripheral T-cell lymphoma (rrPTCL) was terminated in 2015 after it became clear that it was not going to prove significantly superior to options already on the market.

A new report explains what happened. Oral Alisertib was compared to two agents approved for rrPTCL: intravenous pralatrexate (Folotyn) and romidepsin (Istodax), as well as a common off-label option, intravenous gemcitabine (Gemzar). In all, 138 adults were randomized to alisertib 50 mg two times per day on days 1-7, with a median of four 21-day cycles; 133 were randomized to a comparator, the majority to gemcitabine, and again with repeated cycles as tolerated (J Clin Oncol. 2019 Feb 1. doi: 10.1200/JCO.18.00899).

Overall response rate (ORR) was 33% for alisertib versus 45% for the comparator arm (odds ratio, 0.60; 95% confidence interval, 0.33-1.08). Median progression-free survival was 115 days for alisertib versus 104 days for the comparators, a non–statistically significant difference (hazard ratio, 0.87; 95% CI, 0.637-1.178). Median overall survival was 415 days in the alisertib arm versus 367 days in the comparator arm, also not statistically significant (HR, 0.98; 95% CI, 0.707-1.369).

In patients with rrPTCL, alisertib “did not demonstrate superior efficacy over comparators,” concluded investigators led by oncologist Owen A. O’Connor, MD, PhD, of the Columbia University Medical Center, New York.

Another downside to this drug is that it was associated with adverse events in more than half of patients who took it. While 53% of alisertib patients developed anemia and 47% became neutropenic, in the comparator arm, only 34% and 31% developed anemia and neutropenia, respectively. Further, three deaths in the trial were judged to have be related to alisertib. An additional two deaths occurred in this trial; those were judged to have been related to the rival treatments.

[email protected]

SOURCE: O’Connor OA et al. J Clin Oncol. 2019 Feb 1. doi: 10.1200/JCO.18.00899.

Lymphomas appear to be up to four times more likely in patients with hidradenitis suppurativa than among the general population, Rachel Tannenbaum and her colleagues reported in a Research Letter in JAMA Dermatology.

The risks of Hodgkin (HL), non-Hodgkin (NHL), and cutaneous T-cell lymphoma (CTCL) all were significantly higher among patients with HS, wrote Ms. Tannenbaum, Andrew Strunk, and Amit Garg, MD. Males and older patients carried higher risks than females and younger patients, they found.

The team members, of Hofstra University, Hempstead, N.Y., conducted a health care database study comprising 55 million patients included in 27 integrated U.S. health care systems. All the subjects were at least 18 years old; records indicated active HS during the study period of 2013-2018. A regression analysis controlled for age and sex.

The database contained 62,690 patients with HS. The majority (74%) were female and were aged 44 years or younger (57%).

All three lymphomas were more common among HS patients than patients without HS, including non-Hodgkin lymphoma (0.40% vs. 0.35%,) Hodgkin lymphoma (0.17% vs. 0.09%), and cutaneous T-cell lymphoma (0.06% vs. 0.02%).

The multivariate analysis determined that HS patients were twice as likely to develop both non-Hodgkin and Hodgkin lymphoma (odds ratio, 2.0 and 2.21, respectively). They were four times more likely to develop cutaneous T-cell lymphoma (OR, 4.31).

All three lymphomas were more common among males than females: NHL, 0.62% vs. 0.32%; HL, 0.28% vs. 0.13%; and CTCL, 0.09% vs. 0.04%. This translated into significantly increased HS-associated risks, Ms. Tannenbaum and her coauthors noted. “For example, the [odds ratios] for the association between HS and HL were higher in males (OR, 2.97; 95% confidence interval, 2.22-3.99) than in females (OR, 1.86; 95% CI, 1.44-2.39) (P = .02),” they wrote.

Lymphomas were more common among HS patients in every age group. Those aged 18-44 years were 3.64 times more likely to develop NHL than those without HS. Patients with HS aged 45-64 years were 38% more likely to develop NHL, and those older than 65, about twice as likely (OR, 1.99).

“To our knowledge, this is the first investigation to systematically evaluate this association in a U.S. population of patients with HS,” the research team concluded.

The study was supported by a grant from AbbVie. Ms. Tannenbaum and Mr. Strunk reported no disclosures. Dr. Garg reported financial relationships with AbbVie and several other pharmaceutical companies.

[email protected]

SOURCE: Tannenbaum R et al. JAMA Dermatol. 2019 Jan 30. doi: 10.1001/jamadermatol.2018.5230.

Lymphomas appear to be up to four times more likely in patients with hidradenitis suppurativa than among the general population, Rachel Tannenbaum and her colleagues reported in a Research Letter in JAMA Dermatology.

The risks of Hodgkin (HL), non-Hodgkin (NHL), and cutaneous T-cell lymphoma (CTCL) all were significantly higher among patients with HS, wrote Ms. Tannenbaum, Andrew Strunk, and Amit Garg, MD. Males and older patients carried higher risks than females and younger patients, they found.

The team members, of Hofstra University, Hempstead, N.Y., conducted a health care database study comprising 55 million patients included in 27 integrated U.S. health care systems. All the subjects were at least 18 years old; records indicated active HS during the study period of 2013-2018. A regression analysis controlled for age and sex.

The database contained 62,690 patients with HS. The majority (74%) were female and were aged 44 years or younger (57%).

All three lymphomas were more common among HS patients than patients without HS, including non-Hodgkin lymphoma (0.40% vs. 0.35%,) Hodgkin lymphoma (0.17% vs. 0.09%), and cutaneous T-cell lymphoma (0.06% vs. 0.02%).

The multivariate analysis determined that HS patients were twice as likely to develop both non-Hodgkin and Hodgkin lymphoma (odds ratio, 2.0 and 2.21, respectively). They were four times more likely to develop cutaneous T-cell lymphoma (OR, 4.31).

All three lymphomas were more common among males than females: NHL, 0.62% vs. 0.32%; HL, 0.28% vs. 0.13%; and CTCL, 0.09% vs. 0.04%. This translated into significantly increased HS-associated risks, Ms. Tannenbaum and her coauthors noted. “For example, the [odds ratios] for the association between HS and HL were higher in males (OR, 2.97; 95% confidence interval, 2.22-3.99) than in females (OR, 1.86; 95% CI, 1.44-2.39) (P = .02),” they wrote.

Lymphomas were more common among HS patients in every age group. Those aged 18-44 years were 3.64 times more likely to develop NHL than those without HS. Patients with HS aged 45-64 years were 38% more likely to develop NHL, and those older than 65, about twice as likely (OR, 1.99).

“To our knowledge, this is the first investigation to systematically evaluate this association in a U.S. population of patients with HS,” the research team concluded.

The study was supported by a grant from AbbVie. Ms. Tannenbaum and Mr. Strunk reported no disclosures. Dr. Garg reported financial relationships with AbbVie and several other pharmaceutical companies.

[email protected]

SOURCE: Tannenbaum R et al. JAMA Dermatol. 2019 Jan 30. doi: 10.1001/jamadermatol.2018.5230.

Lymphomas appear to be up to four times more likely in patients with hidradenitis suppurativa than among the general population, Rachel Tannenbaum and her colleagues reported in a Research Letter in JAMA Dermatology.

The risks of Hodgkin (HL), non-Hodgkin (NHL), and cutaneous T-cell lymphoma (CTCL) all were significantly higher among patients with HS, wrote Ms. Tannenbaum, Andrew Strunk, and Amit Garg, MD. Males and older patients carried higher risks than females and younger patients, they found.

The team members, of Hofstra University, Hempstead, N.Y., conducted a health care database study comprising 55 million patients included in 27 integrated U.S. health care systems. All the subjects were at least 18 years old; records indicated active HS during the study period of 2013-2018. A regression analysis controlled for age and sex.

The database contained 62,690 patients with HS. The majority (74%) were female and were aged 44 years or younger (57%).

All three lymphomas were more common among HS patients than patients without HS, including non-Hodgkin lymphoma (0.40% vs. 0.35%,) Hodgkin lymphoma (0.17% vs. 0.09%), and cutaneous T-cell lymphoma (0.06% vs. 0.02%).

The multivariate analysis determined that HS patients were twice as likely to develop both non-Hodgkin and Hodgkin lymphoma (odds ratio, 2.0 and 2.21, respectively). They were four times more likely to develop cutaneous T-cell lymphoma (OR, 4.31).

All three lymphomas were more common among males than females: NHL, 0.62% vs. 0.32%; HL, 0.28% vs. 0.13%; and CTCL, 0.09% vs. 0.04%. This translated into significantly increased HS-associated risks, Ms. Tannenbaum and her coauthors noted. “For example, the [odds ratios] for the association between HS and HL were higher in males (OR, 2.97; 95% confidence interval, 2.22-3.99) than in females (OR, 1.86; 95% CI, 1.44-2.39) (P = .02),” they wrote.

Lymphomas were more common among HS patients in every age group. Those aged 18-44 years were 3.64 times more likely to develop NHL than those without HS. Patients with HS aged 45-64 years were 38% more likely to develop NHL, and those older than 65, about twice as likely (OR, 1.99).

“To our knowledge, this is the first investigation to systematically evaluate this association in a U.S. population of patients with HS,” the research team concluded.

The study was supported by a grant from AbbVie. Ms. Tannenbaum and Mr. Strunk reported no disclosures. Dr. Garg reported financial relationships with AbbVie and several other pharmaceutical companies.

[email protected]

SOURCE: Tannenbaum R et al. JAMA Dermatol. 2019 Jan 30. doi: 10.1001/jamadermatol.2018.5230.

LA JOLLA, CALIF. – A retrospective study suggests patients with mycosis fungoides (MF) have an increased risk of developing hematologic and solid tumor malignancies.

Vidyard Video

Researchers found the risk of second malignancy was highest among MF patients aged 30 to 50 years and patients who had tumor stage or advanced stage MF.

The increased risk was present during the entire period after MF diagnosis, but it was greatest in the first 6 months after diagnosis and roughly a dozen years later.

Amrita Goyal, MD, of the University of Minnesota in Minneapolis, and her colleagues presented these findings at the annual T-cell Lymphoma Forum.

The researchers first assessed the risk of second malignancy in 172 MF patients treated at UMN from 2005 to 2017, comparing this cohort to a control group of 172 patients with seborrheic dermatitis.

Second malignancies occurred in 24 MF patients and three controls, which was a significant difference (P = .0045). The most common second malignancies among the MF patients were melanoma (n = 4), prostate cancer (n = 3), and renal cell carcinoma (n = 3).

Further analyses revealed that MF patients were more likely to develop a second malignancy if they had tumor stage disease (P = .0024) or stage IIB or higher disease (P = .03).

To corroborate and expand upon these results, Dr. Goyal and her colleagues analyzed data from the Surveillance, Epidemiology, and End Results (SEER) database on patients diagnosed with MF from 2000 to 2014.

Among the 6,196 MF patients in this cohort, there were 514 second cancers.

“We found that MF patients were, overall, 10 times more likely to develop a second malignancy [compared with the general population],” Dr. Goyal said.

Specifically, the standardized incidence ratio was 10.15 for all malignancies, 7.33 for solid tumors, and 41.72 for hematologic malignancies.

Standardized incidence ratios for individual malignancies were:

• 69.8 for Hodgkin lymphoma.
• 46.5 for non-Hodgkin lymphoma.
• 8.6 for leukemia.
• 7.2 for melanoma.
• 6.2 for lung cancer.
• 7.9 for female breast cancer.
• 5.2 for colon cancer.
• 4.1 for prostate cancer.
• 3.9 for renal cell carcinoma.
• 3.8 for pancreatic cancer.
• 3.6 for bladder cancer.

“We found there is an increased risk [of second malignancy] during the first 6 months after diagnosis of MF, likely related to patients being in contact with the health care system more,” Dr. Goyal said. “Over time, patients have about a 7- to 10-fold increased risk over baseline, until they reach about 12 or 13 years after diagnosis, at which point, there is an increase in risk.”

The researchers found the greatest risk of second malignancy was among patients aged 30 to 50 years, although there was an increased risk for all age groups.

“The reason we think patients are experiencing an increased risk of cancers is we believe this may be due to immune suppression secondary to the mycosis fungoides, although further studies need to be performed to determine if that’s accurate,” Dr. Goyal said.

To that end, she and her colleagues are planning gene expression studies in patients from the UMN cohort. The researchers plan to examine genes involved in the pathogenesis of second malignancies and MF progression in tissue samples from 36 MF patients, 12 who developed second malignancies and 24 who did not.

The current research was funded by the American Society of Hematology. Dr. Goyal reported having no relevant financial disclosures. The T-cell Lymphoma Forum is organized by Jonathan Wood & Associates, which is owned by the same company as this news organization.

[email protected]

LA JOLLA, CALIF. – A retrospective study suggests patients with mycosis fungoides (MF) have an increased risk of developing hematologic and solid tumor malignancies.

Vidyard Video

Researchers found the risk of second malignancy was highest among MF patients aged 30 to 50 years and patients who had tumor stage or advanced stage MF.

The increased risk was present during the entire period after MF diagnosis, but it was greatest in the first 6 months after diagnosis and roughly a dozen years later.

Amrita Goyal, MD, of the University of Minnesota in Minneapolis, and her colleagues presented these findings at the annual T-cell Lymphoma Forum.

The researchers first assessed the risk of second malignancy in 172 MF patients treated at UMN from 2005 to 2017, comparing this cohort to a control group of 172 patients with seborrheic dermatitis.

Second malignancies occurred in 24 MF patients and three controls, which was a significant difference (P = .0045). The most common second malignancies among the MF patients were melanoma (n = 4), prostate cancer (n = 3), and renal cell carcinoma (n = 3).

Further analyses revealed that MF patients were more likely to develop a second malignancy if they had tumor stage disease (P = .0024) or stage IIB or higher disease (P = .03).

To corroborate and expand upon these results, Dr. Goyal and her colleagues analyzed data from the Surveillance, Epidemiology, and End Results (SEER) database on patients diagnosed with MF from 2000 to 2014.

Among the 6,196 MF patients in this cohort, there were 514 second cancers.

“We found that MF patients were, overall, 10 times more likely to develop a second malignancy [compared with the general population],” Dr. Goyal said.

Specifically, the standardized incidence ratio was 10.15 for all malignancies, 7.33 for solid tumors, and 41.72 for hematologic malignancies.

Standardized incidence ratios for individual malignancies were:

• 69.8 for Hodgkin lymphoma.
• 46.5 for non-Hodgkin lymphoma.
• 8.6 for leukemia.
• 7.2 for melanoma.
• 6.2 for lung cancer.
• 7.9 for female breast cancer.
• 5.2 for colon cancer.
• 4.1 for prostate cancer.
• 3.9 for renal cell carcinoma.
• 3.8 for pancreatic cancer.
• 3.6 for bladder cancer.

“We found there is an increased risk [of second malignancy] during the first 6 months after diagnosis of MF, likely related to patients being in contact with the health care system more,” Dr. Goyal said. “Over time, patients have about a 7- to 10-fold increased risk over baseline, until they reach about 12 or 13 years after diagnosis, at which point, there is an increase in risk.”

The researchers found the greatest risk of second malignancy was among patients aged 30 to 50 years, although there was an increased risk for all age groups.

“The reason we think patients are experiencing an increased risk of cancers is we believe this may be due to immune suppression secondary to the mycosis fungoides, although further studies need to be performed to determine if that’s accurate,” Dr. Goyal said.

To that end, she and her colleagues are planning gene expression studies in patients from the UMN cohort. The researchers plan to examine genes involved in the pathogenesis of second malignancies and MF progression in tissue samples from 36 MF patients, 12 who developed second malignancies and 24 who did not.

The current research was funded by the American Society of Hematology. Dr. Goyal reported having no relevant financial disclosures. The T-cell Lymphoma Forum is organized by Jonathan Wood & Associates, which is owned by the same company as this news organization.

[email protected]

LA JOLLA, CALIF. – A retrospective study suggests patients with mycosis fungoides (MF) have an increased risk of developing hematologic and solid tumor malignancies.

Vidyard Video

Researchers found the risk of second malignancy was highest among MF patients aged 30 to 50 years and patients who had tumor stage or advanced stage MF.

The increased risk was present during the entire period after MF diagnosis, but it was greatest in the first 6 months after diagnosis and roughly a dozen years later.

Amrita Goyal, MD, of the University of Minnesota in Minneapolis, and her colleagues presented these findings at the annual T-cell Lymphoma Forum.

The researchers first assessed the risk of second malignancy in 172 MF patients treated at UMN from 2005 to 2017, comparing this cohort to a control group of 172 patients with seborrheic dermatitis.

Second malignancies occurred in 24 MF patients and three controls, which was a significant difference (P = .0045). The most common second malignancies among the MF patients were melanoma (n = 4), prostate cancer (n = 3), and renal cell carcinoma (n = 3).

Further analyses revealed that MF patients were more likely to develop a second malignancy if they had tumor stage disease (P = .0024) or stage IIB or higher disease (P = .03).

To corroborate and expand upon these results, Dr. Goyal and her colleagues analyzed data from the Surveillance, Epidemiology, and End Results (SEER) database on patients diagnosed with MF from 2000 to 2014.

Among the 6,196 MF patients in this cohort, there were 514 second cancers.

“We found that MF patients were, overall, 10 times more likely to develop a second malignancy [compared with the general population],” Dr. Goyal said.

Specifically, the standardized incidence ratio was 10.15 for all malignancies, 7.33 for solid tumors, and 41.72 for hematologic malignancies.

Standardized incidence ratios for individual malignancies were:

• 69.8 for Hodgkin lymphoma.
• 46.5 for non-Hodgkin lymphoma.
• 8.6 for leukemia.
• 7.2 for melanoma.
• 6.2 for lung cancer.
• 7.9 for female breast cancer.
• 5.2 for colon cancer.
• 4.1 for prostate cancer.
• 3.9 for renal cell carcinoma.
• 3.8 for pancreatic cancer.
• 3.6 for bladder cancer.

“We found there is an increased risk [of second malignancy] during the first 6 months after diagnosis of MF, likely related to patients being in contact with the health care system more,” Dr. Goyal said. “Over time, patients have about a 7- to 10-fold increased risk over baseline, until they reach about 12 or 13 years after diagnosis, at which point, there is an increase in risk.”

The researchers found the greatest risk of second malignancy was among patients aged 30 to 50 years, although there was an increased risk for all age groups.

“The reason we think patients are experiencing an increased risk of cancers is we believe this may be due to immune suppression secondary to the mycosis fungoides, although further studies need to be performed to determine if that’s accurate,” Dr. Goyal said.

To that end, she and her colleagues are planning gene expression studies in patients from the UMN cohort. The researchers plan to examine genes involved in the pathogenesis of second malignancies and MF progression in tissue samples from 36 MF patients, 12 who developed second malignancies and 24 who did not.

The current research was funded by the American Society of Hematology. Dr. Goyal reported having no relevant financial disclosures. The T-cell Lymphoma Forum is organized by Jonathan Wood & Associates, which is owned by the same company as this news organization.

[email protected]

The Food and Drug Administration has identified 457 unique cases of breast implant–associated anaplastic large cell lymphoma (BIA-ALCL) and 9 related deaths since 2010, and received 246 new medical device reports (MDRs) regarding BIA-ALCL between September 2017 and September 2018, according to an update from the agency’s Center for Devices and Radiological Health.

gorodenkoff/iStock/Getty Images Plus

That brings the total number of reports to 660; however, that number reflects duplicative cases, Binita Ashar, MD, a general surgeon and the director of the division of surgical devices at the center, said in a statement.

“These types of increases in the MDRs are to be expected and may include past cases that were not previously reported to the FDA,” Dr. Ashar said, addressing the high number of new reports. “The increased number of MDRs contributes to our evolving understanding of BIA-ALCL and represents a more thorough and comprehensive analysis.”

BIA-ALCL is a type of non-Hodgkin lymphoma and a known risk from breast implants that was first communicated by the FDA in 2011. Regular updates have been provided with respect to related medical device reports, cases, deaths, and known risks.

“We hope that this information prompts providers and patients to have important, informed conversations about breast implants and the risk of BIA-ALCL. At the same time, we remain committed to working in partnership with all stakeholders to continue to study, understand, and provide updates about this important public health issue,” Dr. Ashar said.

To that end, the center also issued a Letter to Health Care Providers to “encourage those who regularly treat patients, including primary care physicians and gynecologists, to learn about BIA-ALCL in patients with breast implants.”

Patients and providers are encouraged to file MDRs with the FDA via MedWatch, the FDA Safety Information and Adverse Event Reporting program, she said.

[email protected]

The Food and Drug Administration has identified 457 unique cases of breast implant–associated anaplastic large cell lymphoma (BIA-ALCL) and 9 related deaths since 2010, and received 246 new medical device reports (MDRs) regarding BIA-ALCL between September 2017 and September 2018, according to an update from the agency’s Center for Devices and Radiological Health.

gorodenkoff/iStock/Getty Images Plus

That brings the total number of reports to 660; however, that number reflects duplicative cases, Binita Ashar, MD, a general surgeon and the director of the division of surgical devices at the center, said in a statement.

“These types of increases in the MDRs are to be expected and may include past cases that were not previously reported to the FDA,” Dr. Ashar said, addressing the high number of new reports. “The increased number of MDRs contributes to our evolving understanding of BIA-ALCL and represents a more thorough and comprehensive analysis.”

BIA-ALCL is a type of non-Hodgkin lymphoma and a known risk from breast implants that was first communicated by the FDA in 2011. Regular updates have been provided with respect to related medical device reports, cases, deaths, and known risks.

“We hope that this information prompts providers and patients to have important, informed conversations about breast implants and the risk of BIA-ALCL. At the same time, we remain committed to working in partnership with all stakeholders to continue to study, understand, and provide updates about this important public health issue,” Dr. Ashar said.

To that end, the center also issued a Letter to Health Care Providers to “encourage those who regularly treat patients, including primary care physicians and gynecologists, to learn about BIA-ALCL in patients with breast implants.”

Patients and providers are encouraged to file MDRs with the FDA via MedWatch, the FDA Safety Information and Adverse Event Reporting program, she said.

[email protected]

The Food and Drug Administration has identified 457 unique cases of breast implant–associated anaplastic large cell lymphoma (BIA-ALCL) and 9 related deaths since 2010, and received 246 new medical device reports (MDRs) regarding BIA-ALCL between September 2017 and September 2018, according to an update from the agency’s Center for Devices and Radiological Health.

gorodenkoff/iStock/Getty Images Plus

That brings the total number of reports to 660; however, that number reflects duplicative cases, Binita Ashar, MD, a general surgeon and the director of the division of surgical devices at the center, said in a statement.

“These types of increases in the MDRs are to be expected and may include past cases that were not previously reported to the FDA,” Dr. Ashar said, addressing the high number of new reports. “The increased number of MDRs contributes to our evolving understanding of BIA-ALCL and represents a more thorough and comprehensive analysis.”

BIA-ALCL is a type of non-Hodgkin lymphoma and a known risk from breast implants that was first communicated by the FDA in 2011. Regular updates have been provided with respect to related medical device reports, cases, deaths, and known risks.

“We hope that this information prompts providers and patients to have important, informed conversations about breast implants and the risk of BIA-ALCL. At the same time, we remain committed to working in partnership with all stakeholders to continue to study, understand, and provide updates about this important public health issue,” Dr. Ashar said.

To that end, the center also issued a Letter to Health Care Providers to “encourage those who regularly treat patients, including primary care physicians and gynecologists, to learn about BIA-ALCL in patients with breast implants.”

Patients and providers are encouraged to file MDRs with the FDA via MedWatch, the FDA Safety Information and Adverse Event Reporting program, she said.

[email protected]

LA JOLLA, CALIF. – Phase 1 results suggest cobomarsen is well tolerated and can maintain or improve responses in patients with previously treated adult T-cell leukemia/lymphoma (ATLL).

Five of eight ATLL patients studied experienced disease stabilization or improvement while receiving cobomarsen (MRG-106), an inhibitor of microRNA-155.

There were no grade 3/4 adverse events (AEs) or serious AEs related to cobomarsen in these patients.

Francine Foss, MD, of Yale Cancer Center in New Haven, Conn., and her colleagues presented these results at the annual T-cell Lymphoma Forum.

In this ongoing trial (NCT02580552), researchers are evaluating cobomarsen in patients with B- and T-cell lymphomas, including mycosis fungoides and ATLL.

Results are available for eight patients with previously treated ATLL. These patients had received a median of 4 (range, 1-10) prior systemic therapies, and they had a median age of 51 years (range, 40-68).

The patients received three loading doses of cobomarsen during the first week of cycle 1, followed by weekly dosing. All patients have received cobomarsen as a 600 mg intravenous infusion. They can remain on cobomarsen until they progress, experience clinically significant side effects, cannot tolerate the drug, or the trial is terminated.

The researchers have measured efficacy at least monthly by monitoring tumor cell burden in the peripheral blood and lymph nodes, as well as evaluating changes in skin involvement.

Stabilization and response

“Initially, we saw some very good responses in patients who had escalating disease. In other words, their disease was progressing after conventional chemotherapy,” Dr. Foss said. “They went on this microRNA, [and] their disease stabilized and then regressed. We saw, subsequently, in another three or four patients, the same pattern of activity.”

In all, five patients achieved or maintained a response while on cobomarsen. All five were still receiving the drug at the data cutoff on Dec. 13, 2018.

Two of these patients had acute disease and were in partial response (PR) at baseline. These patients had received cobomarsen for 87 days and 401 days as of the data cutoff.

The other three patients still receiving cobomarsen at the cutoff had lymphomatous disease. At baseline, two of the patients were in PR and one had stable disease.

The two patients in PR at baseline had received cobomarsen for 80 days and 366 days at the data cutoff. The patient with stable disease had received the drug for 161 days.
 

Progression and withdrawal

There were three patients who withdrew from the study because of disease progression. Two of these patients were relapsing with significant skin involvement at baseline.

One of the patients discontinued cobomarsen after 23 days of treatment. The other patient received cobomarsen for 91 days and left the study, then re-enrolled and received cobomarsen for another 42 days before withdrawing from the study again.

The third patient had relapsed lymphomatous disease at baseline. This patient had a mixed response to cobomarsen, with some nodes decreasing in size and others increasing. She discontinued cobomarsen after 9 days.

“It’s still early on in our experience with ATLL, so we don’t really know yet who the patient is that’s going to respond – what are the clinical features that would predict response in these patients,” Dr. Foss said. “And we’re still really trying to understand how we give the drug to these patients, for how long, and whether or not we can change the dosing interval. But, nevertheless, we have some very interesting data.”
 

Safety

There were no dose-limiting toxicities, AE-related discontinuations, treatment-related grade 3/4 AEs, or new opportunistic infections observed.

“[I] have to say, in using this drug now for over a year in two of my patients – and that’s with weekly administration – we really haven’t seen anything as far as adverse events,” Dr. Foss said.

She noted that one patient has reported transient diarrhea after dosing.

Two serious AEs – febrile neutropenia and pyrexia – occurred in one patient, but neither of these events were considered related to cobomarsen. The AEs occurred after the patient had stopped cobomarsen, and both events resolved.

There were no on-treatment deaths. One patient (the one who received cobomarsen for 9 days) died from disease progression approximately 2 months after stopping cobomarsen and while on a different therapy.

Dr. Foss said, based on their results, she and her colleagues are hoping to accrue more ATLL patients in this trial.

The trial is sponsored by miRagen Therapeutics. Dr. Foss is a cochair of the T-cell Lymphoma Forum. The T-cell Lymphoma Forum is organized by Jonathan Wood & Associates, which is owned by the same company as this news organization.

[email protected]

LA JOLLA, CALIF. – Phase 1 results suggest cobomarsen is well tolerated and can maintain or improve responses in patients with previously treated adult T-cell leukemia/lymphoma (ATLL).

Five of eight ATLL patients studied experienced disease stabilization or improvement while receiving cobomarsen (MRG-106), an inhibitor of microRNA-155.

There were no grade 3/4 adverse events (AEs) or serious AEs related to cobomarsen in these patients.

Francine Foss, MD, of Yale Cancer Center in New Haven, Conn., and her colleagues presented these results at the annual T-cell Lymphoma Forum.

In this ongoing trial (NCT02580552), researchers are evaluating cobomarsen in patients with B- and T-cell lymphomas, including mycosis fungoides and ATLL.

Results are available for eight patients with previously treated ATLL. These patients had received a median of 4 (range, 1-10) prior systemic therapies, and they had a median age of 51 years (range, 40-68).

The patients received three loading doses of cobomarsen during the first week of cycle 1, followed by weekly dosing. All patients have received cobomarsen as a 600 mg intravenous infusion. They can remain on cobomarsen until they progress, experience clinically significant side effects, cannot tolerate the drug, or the trial is terminated.

The researchers have measured efficacy at least monthly by monitoring tumor cell burden in the peripheral blood and lymph nodes, as well as evaluating changes in skin involvement.

Stabilization and response

“Initially, we saw some very good responses in patients who had escalating disease. In other words, their disease was progressing after conventional chemotherapy,” Dr. Foss said. “They went on this microRNA, [and] their disease stabilized and then regressed. We saw, subsequently, in another three or four patients, the same pattern of activity.”

In all, five patients achieved or maintained a response while on cobomarsen. All five were still receiving the drug at the data cutoff on Dec. 13, 2018.

Two of these patients had acute disease and were in partial response (PR) at baseline. These patients had received cobomarsen for 87 days and 401 days as of the data cutoff.

The other three patients still receiving cobomarsen at the cutoff had lymphomatous disease. At baseline, two of the patients were in PR and one had stable disease.

The two patients in PR at baseline had received cobomarsen for 80 days and 366 days at the data cutoff. The patient with stable disease had received the drug for 161 days.
 

Progression and withdrawal

There were three patients who withdrew from the study because of disease progression. Two of these patients were relapsing with significant skin involvement at baseline.

One of the patients discontinued cobomarsen after 23 days of treatment. The other patient received cobomarsen for 91 days and left the study, then re-enrolled and received cobomarsen for another 42 days before withdrawing from the study again.

The third patient had relapsed lymphomatous disease at baseline. This patient had a mixed response to cobomarsen, with some nodes decreasing in size and others increasing. She discontinued cobomarsen after 9 days.

“It’s still early on in our experience with ATLL, so we don’t really know yet who the patient is that’s going to respond – what are the clinical features that would predict response in these patients,” Dr. Foss said. “And we’re still really trying to understand how we give the drug to these patients, for how long, and whether or not we can change the dosing interval. But, nevertheless, we have some very interesting data.”
 

Safety

There were no dose-limiting toxicities, AE-related discontinuations, treatment-related grade 3/4 AEs, or new opportunistic infections observed.

“[I] have to say, in using this drug now for over a year in two of my patients – and that’s with weekly administration – we really haven’t seen anything as far as adverse events,” Dr. Foss said.

She noted that one patient has reported transient diarrhea after dosing.

Two serious AEs – febrile neutropenia and pyrexia – occurred in one patient, but neither of these events were considered related to cobomarsen. The AEs occurred after the patient had stopped cobomarsen, and both events resolved.

There were no on-treatment deaths. One patient (the one who received cobomarsen for 9 days) died from disease progression approximately 2 months after stopping cobomarsen and while on a different therapy.

Dr. Foss said, based on their results, she and her colleagues are hoping to accrue more ATLL patients in this trial.

The trial is sponsored by miRagen Therapeutics. Dr. Foss is a cochair of the T-cell Lymphoma Forum. The T-cell Lymphoma Forum is organized by Jonathan Wood & Associates, which is owned by the same company as this news organization.

[email protected]

LA JOLLA, CALIF. – Phase 1 results suggest cobomarsen is well tolerated and can maintain or improve responses in patients with previously treated adult T-cell leukemia/lymphoma (ATLL).

Five of eight ATLL patients studied experienced disease stabilization or improvement while receiving cobomarsen (MRG-106), an inhibitor of microRNA-155.

There were no grade 3/4 adverse events (AEs) or serious AEs related to cobomarsen in these patients.

Francine Foss, MD, of Yale Cancer Center in New Haven, Conn., and her colleagues presented these results at the annual T-cell Lymphoma Forum.

In this ongoing trial (NCT02580552), researchers are evaluating cobomarsen in patients with B- and T-cell lymphomas, including mycosis fungoides and ATLL.

Results are available for eight patients with previously treated ATLL. These patients had received a median of 4 (range, 1-10) prior systemic therapies, and they had a median age of 51 years (range, 40-68).

The patients received three loading doses of cobomarsen during the first week of cycle 1, followed by weekly dosing. All patients have received cobomarsen as a 600 mg intravenous infusion. They can remain on cobomarsen until they progress, experience clinically significant side effects, cannot tolerate the drug, or the trial is terminated.

The researchers have measured efficacy at least monthly by monitoring tumor cell burden in the peripheral blood and lymph nodes, as well as evaluating changes in skin involvement.

Stabilization and response

“Initially, we saw some very good responses in patients who had escalating disease. In other words, their disease was progressing after conventional chemotherapy,” Dr. Foss said. “They went on this microRNA, [and] their disease stabilized and then regressed. We saw, subsequently, in another three or four patients, the same pattern of activity.”

In all, five patients achieved or maintained a response while on cobomarsen. All five were still receiving the drug at the data cutoff on Dec. 13, 2018.

Two of these patients had acute disease and were in partial response (PR) at baseline. These patients had received cobomarsen for 87 days and 401 days as of the data cutoff.

The other three patients still receiving cobomarsen at the cutoff had lymphomatous disease. At baseline, two of the patients were in PR and one had stable disease.

The two patients in PR at baseline had received cobomarsen for 80 days and 366 days at the data cutoff. The patient with stable disease had received the drug for 161 days.
 

Progression and withdrawal

There were three patients who withdrew from the study because of disease progression. Two of these patients were relapsing with significant skin involvement at baseline.

One of the patients discontinued cobomarsen after 23 days of treatment. The other patient received cobomarsen for 91 days and left the study, then re-enrolled and received cobomarsen for another 42 days before withdrawing from the study again.

The third patient had relapsed lymphomatous disease at baseline. This patient had a mixed response to cobomarsen, with some nodes decreasing in size and others increasing. She discontinued cobomarsen after 9 days.

“It’s still early on in our experience with ATLL, so we don’t really know yet who the patient is that’s going to respond – what are the clinical features that would predict response in these patients,” Dr. Foss said. “And we’re still really trying to understand how we give the drug to these patients, for how long, and whether or not we can change the dosing interval. But, nevertheless, we have some very interesting data.”
 

Safety

There were no dose-limiting toxicities, AE-related discontinuations, treatment-related grade 3/4 AEs, or new opportunistic infections observed.

“[I] have to say, in using this drug now for over a year in two of my patients – and that’s with weekly administration – we really haven’t seen anything as far as adverse events,” Dr. Foss said.

She noted that one patient has reported transient diarrhea after dosing.

Two serious AEs – febrile neutropenia and pyrexia – occurred in one patient, but neither of these events were considered related to cobomarsen. The AEs occurred after the patient had stopped cobomarsen, and both events resolved.

There were no on-treatment deaths. One patient (the one who received cobomarsen for 9 days) died from disease progression approximately 2 months after stopping cobomarsen and while on a different therapy.

Dr. Foss said, based on their results, she and her colleagues are hoping to accrue more ATLL patients in this trial.

The trial is sponsored by miRagen Therapeutics. Dr. Foss is a cochair of the T-cell Lymphoma Forum. The T-cell Lymphoma Forum is organized by Jonathan Wood & Associates, which is owned by the same company as this news organization.

[email protected]

LA JOLLA, CALIF. – The spleen tyrosine kinase/Janus kinase inhibitor cerdulatinib has demonstrated activity against relapsed and refractory T-cell lymphomas.
 

Vidyard Video

In a phase 2 trial, cerdulatinib produced responses in 34% of patients with peripheral T-cell lymphoma (PTCL) and 26% of those with cutaneous T-cell lymphoma (CTCL).

The best responders were patients with angioimmunoblastic T-cell lymphoma, half of whom achieved a complete response (CR).

The most common grade 3 or higher adverse events (AEs) were amylase increase and lipase increase. However, these increases resolved with dose reduction or interruption, and there were no cases of clinical pancreatitis.

“The data is very encouraging,” said Tatyana Feldman, MD, of the John Theurer Cancer Center in Hackensack, N.J.

Dr. Feldman and her colleagues previously presented results from the phase 2 trial of cerdulatinib (NCT01994382) at the 2018 annual congress of the European Hematology Association.


Dr. Feldman and her colleagues presented data from expansion cohorts of the ongoing trial at the annual T-cell Lymphoma Forum. The cohorts included patients with PTCL or CTCL who had received at least one prior systemic therapy.

PTCL cohort

The 45 PTCL patients had a median age of 65 years (range, 21-84). They had received a median of 3 (range, 1-12) prior therapeutic regimens, 51% were refractory to their last therapy, and 27% had undergone stem cell transplant (SCT).

The patients received cerdulatinib at 30 mg orally twice a day until progression or intolerance, and 41 patients were evaluable for response.

The overall response rate was 34% (n = 14). Eleven patients had a CR, three had a partial response (PR), and nine had stable disease.

Responses according to subtype were as follows:

• 7 CRs and 1 PR in angioimmunoblastic T-cell lymphoma.
• 2 CRs in PTCL not otherwise specified.
• 1 CR in gamma-delta T-cell lymphoma.
• 1 PR in ALK-negative anaplastic large-cell lymphoma.
• 1 CR and 1 PR in adult T-cell leukemia/lymphoma.

Eight responders have remained on cerdulatinib for anywhere from 3 months to more than 12 months. Five patients have had a response lasting at least 6 months. One patient went on to SCT after achieving a CR.

The most common grade 3 or higher AEs observed in PTCL patients were amylase increase (n = 8), lipase increase (n = 6), pneumonia/lung infection (n = 5), neutropenia (n = 4), diarrhea (n = 4), febrile neutropenia (n = 4), abdominal pain (n = 4), sepsis/bacteremia (n = 3), anemia (n = 3), fatigue (n = 2), and pain (n = 1).

There were two grade 5 AEs – acute respiratory distress syndrome and pneumonia.
 

CTCL cohort

The 29 CTCL patients had a median age of 62 years (range, 24-79). They had received a median of 4 (range, 1-13) prior therapies, 55% were refractory to their last therapy, and 3% had undergone SCT.

The patients received cerdulatinib at 30 mg orally twice a day until progression or intolerance, and 27 were evaluable for response.

The overall response rate was 26% (n = 7). Two patients achieved a CR, five achieved a PR, and nine had stable disease. Responses occurred in mycosis fungoides and Sézary syndrome.

Eleven of 23 patients (48%) achieved at least a 50% reduction in skin lesions, and the researchers observed rapid improvements in pruritus.

“I saw patients who would take the first pill, and they would call me and say, ‘I no longer itch,’ ” Dr. Feldman said.

The most common grade 3 or higher AEs in CTCL patients were lipase increase (n = 11), amylase increase (n = 5), sepsis/bacteremia (n = 3), pain (n = 2), fatigue (n = 1), neutropenia (n = 1), and diarrhea (n = 1).

“It’s a very well-tolerated drug,” Dr. Feldman said, adding that there were “really no severe side effects which would prohibit the use of the drug.”

She noted that cerdulatinib’s “favorable” side effect profile might make it a promising candidate for use in combination regimens.

“I think it will be possible to combine it with other drugs in development in T-cell lymphoma. … immunological checkpoint inhibitors, epigenetic modulators such as HDAC [histone deacetylase] inhibitors, methylating agents, and PI3 kinase inhibitors,” Dr. Feldman said.

She reported having no disclosures relevant to this study. The trial is sponsored by Portola Pharmaceuticals.

The T-cell Lymphoma Forum is organized by Jonathan Wood & Associates, which is owned by the same company as this news organization.

[email protected]

LA JOLLA, CALIF. – The spleen tyrosine kinase/Janus kinase inhibitor cerdulatinib has demonstrated activity against relapsed and refractory T-cell lymphomas.
 

Vidyard Video

In a phase 2 trial, cerdulatinib produced responses in 34% of patients with peripheral T-cell lymphoma (PTCL) and 26% of those with cutaneous T-cell lymphoma (CTCL).

The best responders were patients with angioimmunoblastic T-cell lymphoma, half of whom achieved a complete response (CR).

The most common grade 3 or higher adverse events (AEs) were amylase increase and lipase increase. However, these increases resolved with dose reduction or interruption, and there were no cases of clinical pancreatitis.

“The data is very encouraging,” said Tatyana Feldman, MD, of the John Theurer Cancer Center in Hackensack, N.J.

Dr. Feldman and her colleagues previously presented results from the phase 2 trial of cerdulatinib (NCT01994382) at the 2018 annual congress of the European Hematology Association.


Dr. Feldman and her colleagues presented data from expansion cohorts of the ongoing trial at the annual T-cell Lymphoma Forum. The cohorts included patients with PTCL or CTCL who had received at least one prior systemic therapy.

PTCL cohort

The 45 PTCL patients had a median age of 65 years (range, 21-84). They had received a median of 3 (range, 1-12) prior therapeutic regimens, 51% were refractory to their last therapy, and 27% had undergone stem cell transplant (SCT).

The patients received cerdulatinib at 30 mg orally twice a day until progression or intolerance, and 41 patients were evaluable for response.

The overall response rate was 34% (n = 14). Eleven patients had a CR, three had a partial response (PR), and nine had stable disease.

Responses according to subtype were as follows:

• 7 CRs and 1 PR in angioimmunoblastic T-cell lymphoma.
• 2 CRs in PTCL not otherwise specified.
• 1 CR in gamma-delta T-cell lymphoma.
• 1 PR in ALK-negative anaplastic large-cell lymphoma.
• 1 CR and 1 PR in adult T-cell leukemia/lymphoma.

Eight responders have remained on cerdulatinib for anywhere from 3 months to more than 12 months. Five patients have had a response lasting at least 6 months. One patient went on to SCT after achieving a CR.

The most common grade 3 or higher AEs observed in PTCL patients were amylase increase (n = 8), lipase increase (n = 6), pneumonia/lung infection (n = 5), neutropenia (n = 4), diarrhea (n = 4), febrile neutropenia (n = 4), abdominal pain (n = 4), sepsis/bacteremia (n = 3), anemia (n = 3), fatigue (n = 2), and pain (n = 1).

There were two grade 5 AEs – acute respiratory distress syndrome and pneumonia.
 

CTCL cohort

The 29 CTCL patients had a median age of 62 years (range, 24-79). They had received a median of 4 (range, 1-13) prior therapies, 55% were refractory to their last therapy, and 3% had undergone SCT.

The patients received cerdulatinib at 30 mg orally twice a day until progression or intolerance, and 27 were evaluable for response.

The overall response rate was 26% (n = 7). Two patients achieved a CR, five achieved a PR, and nine had stable disease. Responses occurred in mycosis fungoides and Sézary syndrome.

Eleven of 23 patients (48%) achieved at least a 50% reduction in skin lesions, and the researchers observed rapid improvements in pruritus.

“I saw patients who would take the first pill, and they would call me and say, ‘I no longer itch,’ ” Dr. Feldman said.

The most common grade 3 or higher AEs in CTCL patients were lipase increase (n = 11), amylase increase (n = 5), sepsis/bacteremia (n = 3), pain (n = 2), fatigue (n = 1), neutropenia (n = 1), and diarrhea (n = 1).

“It’s a very well-tolerated drug,” Dr. Feldman said, adding that there were “really no severe side effects which would prohibit the use of the drug.”

She noted that cerdulatinib’s “favorable” side effect profile might make it a promising candidate for use in combination regimens.

“I think it will be possible to combine it with other drugs in development in T-cell lymphoma. … immunological checkpoint inhibitors, epigenetic modulators such as HDAC [histone deacetylase] inhibitors, methylating agents, and PI3 kinase inhibitors,” Dr. Feldman said.

She reported having no disclosures relevant to this study. The trial is sponsored by Portola Pharmaceuticals.

The T-cell Lymphoma Forum is organized by Jonathan Wood & Associates, which is owned by the same company as this news organization.

[email protected]

LA JOLLA, CALIF. – The spleen tyrosine kinase/Janus kinase inhibitor cerdulatinib has demonstrated activity against relapsed and refractory T-cell lymphomas.
 

Vidyard Video

In a phase 2 trial, cerdulatinib produced responses in 34% of patients with peripheral T-cell lymphoma (PTCL) and 26% of those with cutaneous T-cell lymphoma (CTCL).

The best responders were patients with angioimmunoblastic T-cell lymphoma, half of whom achieved a complete response (CR).

The most common grade 3 or higher adverse events (AEs) were amylase increase and lipase increase. However, these increases resolved with dose reduction or interruption, and there were no cases of clinical pancreatitis.

“The data is very encouraging,” said Tatyana Feldman, MD, of the John Theurer Cancer Center in Hackensack, N.J.

Dr. Feldman and her colleagues previously presented results from the phase 2 trial of cerdulatinib (NCT01994382) at the 2018 annual congress of the European Hematology Association.


Dr. Feldman and her colleagues presented data from expansion cohorts of the ongoing trial at the annual T-cell Lymphoma Forum. The cohorts included patients with PTCL or CTCL who had received at least one prior systemic therapy.

PTCL cohort

The 45 PTCL patients had a median age of 65 years (range, 21-84). They had received a median of 3 (range, 1-12) prior therapeutic regimens, 51% were refractory to their last therapy, and 27% had undergone stem cell transplant (SCT).

The patients received cerdulatinib at 30 mg orally twice a day until progression or intolerance, and 41 patients were evaluable for response.

The overall response rate was 34% (n = 14). Eleven patients had a CR, three had a partial response (PR), and nine had stable disease.

Responses according to subtype were as follows:

• 7 CRs and 1 PR in angioimmunoblastic T-cell lymphoma.
• 2 CRs in PTCL not otherwise specified.
• 1 CR in gamma-delta T-cell lymphoma.
• 1 PR in ALK-negative anaplastic large-cell lymphoma.
• 1 CR and 1 PR in adult T-cell leukemia/lymphoma.

Eight responders have remained on cerdulatinib for anywhere from 3 months to more than 12 months. Five patients have had a response lasting at least 6 months. One patient went on to SCT after achieving a CR.

The most common grade 3 or higher AEs observed in PTCL patients were amylase increase (n = 8), lipase increase (n = 6), pneumonia/lung infection (n = 5), neutropenia (n = 4), diarrhea (n = 4), febrile neutropenia (n = 4), abdominal pain (n = 4), sepsis/bacteremia (n = 3), anemia (n = 3), fatigue (n = 2), and pain (n = 1).

There were two grade 5 AEs – acute respiratory distress syndrome and pneumonia.
 

CTCL cohort

The 29 CTCL patients had a median age of 62 years (range, 24-79). They had received a median of 4 (range, 1-13) prior therapies, 55% were refractory to their last therapy, and 3% had undergone SCT.

The patients received cerdulatinib at 30 mg orally twice a day until progression or intolerance, and 27 were evaluable for response.

The overall response rate was 26% (n = 7). Two patients achieved a CR, five achieved a PR, and nine had stable disease. Responses occurred in mycosis fungoides and Sézary syndrome.

Eleven of 23 patients (48%) achieved at least a 50% reduction in skin lesions, and the researchers observed rapid improvements in pruritus.

“I saw patients who would take the first pill, and they would call me and say, ‘I no longer itch,’ ” Dr. Feldman said.

The most common grade 3 or higher AEs in CTCL patients were lipase increase (n = 11), amylase increase (n = 5), sepsis/bacteremia (n = 3), pain (n = 2), fatigue (n = 1), neutropenia (n = 1), and diarrhea (n = 1).

“It’s a very well-tolerated drug,” Dr. Feldman said, adding that there were “really no severe side effects which would prohibit the use of the drug.”

She noted that cerdulatinib’s “favorable” side effect profile might make it a promising candidate for use in combination regimens.

“I think it will be possible to combine it with other drugs in development in T-cell lymphoma. … immunological checkpoint inhibitors, epigenetic modulators such as HDAC [histone deacetylase] inhibitors, methylating agents, and PI3 kinase inhibitors,” Dr. Feldman said.

She reported having no disclosures relevant to this study. The trial is sponsored by Portola Pharmaceuticals.

The T-cell Lymphoma Forum is organized by Jonathan Wood & Associates, which is owned by the same company as this news organization.

[email protected]

LA JOLLA, CALIF. – The combination of duvelisib and romidepsin is active and can provide a bridge to transplant in relapsed or refractory peripheral T-cell lymphoma (PTCL), according to researchers.

Vidyard Video

In a phase 1 trial, duvelisib plus romidepsin produced an overall response rate (ORR) of 59% in patients with PTCL. Sixteen patients achieved a response, nine had a complete response (CR), and six complete responders went on to transplant.

“So we think that you can achieve remission deep enough to then move on to a potentially curative approach,” said study investigator Neha Mehta-Shah, MD, of Washington University in St. Louis.

She and her colleagues evaluated romidepsin plus duvelisib, as well as bortezomib plus duvelisib, in a phase 1 trial (NCT02783625) of patients with relapsed or refractory PTCL or cutaneous T-cell lymphoma (CTCL).

Dr. Mehta-Shah presented the results at the annual T-cell Lymphoma Forum.

She reported results in 80 patients­ – 51 with PTCL and 29 with CTCL. The patients’ median age was 64 years (range, 28-83), and 57% of the study population were men. Patients had received a median of 3 (range, 1-16) prior therapies, and 16% had received a prior transplant.
 

Treatment

Dr. Mehta-Shah noted that patients and providers could choose whether patients would receive romidepsin or bortezomib.

Patients in the romidepsin arm received romidepsin at 10 mg/m² on days 1, 8, and 15 of each 28-day cycle. Patients in the bortezomib arm received bortezomib at 1 mg/m² on days 1, 4, 8, and 11 of each cycle.

Duvelisib dosing was escalated, so patients received duvelisib at 25 mg, 50 mg, or 75 mg twice daily.

In the bortezomib arm, there was one dose-limiting toxicity – grade 3 neutropenia – in a patient who received duvelisib at the 25-mg dose. There were no dose-limiting toxicities in the romidepsin arm.

The researchers determined that the maximum tolerated dose (MTD) of duvelisib was 75 mg twice daily in the romidepsin arm and 25 mg twice daily in the bortezomib arm.
 

Lead-in phase

The study also had a lead-in phase during which patients could receive single-agent duvelisib.

“Because the original phase 1 study of duvelisib did not collect as many prospective tumor biopsies or on-treatment biopsies, we built into this study a lead-in phase so that we could characterize on-treatment biopsies to better understand mechanisms of response or resistance,” Dr. Mehta-Shah said.

Patients and providers could choose to be part of the lead-in phase, she noted. Patients who did not achieve a CR during this phase went on to receive either combination therapy, which was predetermined before the monotherapy began.

There were 14 patients who received duvelisib monotherapy at 75 mg twice daily. Four of them achieved a CR, and three had a partial response (PR). Ten patients went on to receive romidepsin as well. One of them achieved a CR, and three had a PR.

There were 12 patients who received duvelisib monotherapy at 25 mg twice daily. Three of them achieved a CR, and two had a PR. Nine patients went on to receive bortezomib as well. This combination produced one CR and two PRs.
 

 

 

Efficacy with romidepsin

Among all evaluable PTCL patients in the romidepsin arm, the ORR was 59% (16/27), and the CR rate was 33% (9/27).

Responses occurred in seven patients with PTCL not otherwise specified (NOS), six with angioimmunoblastic T-cell lymphoma (AITL), one with hepatosplenic T-cell lymphoma, one with aggressive epidermotropic CD8+ T-cell lymphoma, and one with primary cutaneous PTCL.

CRs occurred in five patients with AITL and four with PTCL-NOS. Six patients who achieved a CR went on to transplant.

Among evaluable CTCL patients in the romidepsin arm, the ORR was 45% (5/11), and there were no CRs. Responses occurred in three patients with mycosis fungoides and two with Sézary syndrome.

The median progression-free survival was 5.41 months in CTCL patients and 6.72 months in PTCL patients.

Efficacy with bortezomib

Among evaluable PTCL patients in the bortezomib arm, the ORR was 44% (7/16), and the CR rate was 25% (4/16).

Responses occurred in three patients with AITL and four with PTCL-NOS. CRs occurred in two patients with each subtype.

Among evaluable CTCL patients in the bortezomib arm, the ORR was 27% (4/15), and there were no CRs. Responses occurred in one patient with mycosis fungoides and three with Sézary syndrome. One CTCL patient went on to transplant.

The median progression-free survival was 4.56 months among CTCL patients and 4.39 months in PTCL patients.
 

Safety

Dr. Mehta-Shah said both combinations were considered safe and well tolerated. However, there was a grade 5 adverse event (AE) – Stevens-Johnson syndrome – that occurred in the bortezomib arm and was considered possibly related to treatment.

Grade 3/4 AEs observed in the 31 patients treated at the MTD in the romidepsin arm were transaminase increase (n = 7), diarrhea (n = 6), hyponatremia (n = 4), neutrophil count decrease (n = 10), and platelet count decrease (n = 3).

Grade 3/4 AEs observed in the 23 patients treated at the MTD in the bortezomib arm were transaminase increase (n = 2) and neutrophil count decrease (n = 5).

Grade 3/4 transaminitis seemed to be more common among patients who received duvelisib alone during the lead-in phase, Dr. Mehta-Shah said.

Among patients treated at the MTD in the romidepsin arm, grade 3/4 transaminitis occurred in four patients treated during the lead-in phase and three who began receiving romidepsin and duvelisib together. In the bortezomib arm, grade 3/4 transaminitis occurred in two patients treated at the MTD, both of whom received duvelisib alone during the lead-in phase.

Based on these results, Dr. Mehta-Shah and her colleagues are planning to expand the romidepsin arm to an additional 25 patients. By testing the combination in more patients, the researchers hope to better understand the occurrence of transaminitis and assess the durability of response.

This study is supported by Verastem. Dr. Shah reported relationships with Celgene, Kyowa Kirin, Bristol-Myers Squibb, Verastem, and Genentech.

The T-cell Lymphoma Forum is held by Jonathan Wood & Associates, which is owned by the same company as this news organization.

[email protected]

LA JOLLA, CALIF. – The combination of duvelisib and romidepsin is active and can provide a bridge to transplant in relapsed or refractory peripheral T-cell lymphoma (PTCL), according to researchers.

Vidyard Video

In a phase 1 trial, duvelisib plus romidepsin produced an overall response rate (ORR) of 59% in patients with PTCL. Sixteen patients achieved a response, nine had a complete response (CR), and six complete responders went on to transplant.

“So we think that you can achieve remission deep enough to then move on to a potentially curative approach,” said study investigator Neha Mehta-Shah, MD, of Washington University in St. Louis.

She and her colleagues evaluated romidepsin plus duvelisib, as well as bortezomib plus duvelisib, in a phase 1 trial (NCT02783625) of patients with relapsed or refractory PTCL or cutaneous T-cell lymphoma (CTCL).

Dr. Mehta-Shah presented the results at the annual T-cell Lymphoma Forum.

She reported results in 80 patients­ – 51 with PTCL and 29 with CTCL. The patients’ median age was 64 years (range, 28-83), and 57% of the study population were men. Patients had received a median of 3 (range, 1-16) prior therapies, and 16% had received a prior transplant.
 

Treatment

Dr. Mehta-Shah noted that patients and providers could choose whether patients would receive romidepsin or bortezomib.

Patients in the romidepsin arm received romidepsin at 10 mg/m² on days 1, 8, and 15 of each 28-day cycle. Patients in the bortezomib arm received bortezomib at 1 mg/m² on days 1, 4, 8, and 11 of each cycle.

Duvelisib dosing was escalated, so patients received duvelisib at 25 mg, 50 mg, or 75 mg twice daily.

In the bortezomib arm, there was one dose-limiting toxicity – grade 3 neutropenia – in a patient who received duvelisib at the 25-mg dose. There were no dose-limiting toxicities in the romidepsin arm.

The researchers determined that the maximum tolerated dose (MTD) of duvelisib was 75 mg twice daily in the romidepsin arm and 25 mg twice daily in the bortezomib arm.
 

Lead-in phase

The study also had a lead-in phase during which patients could receive single-agent duvelisib.

“Because the original phase 1 study of duvelisib did not collect as many prospective tumor biopsies or on-treatment biopsies, we built into this study a lead-in phase so that we could characterize on-treatment biopsies to better understand mechanisms of response or resistance,” Dr. Mehta-Shah said.

Patients and providers could choose to be part of the lead-in phase, she noted. Patients who did not achieve a CR during this phase went on to receive either combination therapy, which was predetermined before the monotherapy began.

There were 14 patients who received duvelisib monotherapy at 75 mg twice daily. Four of them achieved a CR, and three had a partial response (PR). Ten patients went on to receive romidepsin as well. One of them achieved a CR, and three had a PR.

There were 12 patients who received duvelisib monotherapy at 25 mg twice daily. Three of them achieved a CR, and two had a PR. Nine patients went on to receive bortezomib as well. This combination produced one CR and two PRs.
 

 

 

Efficacy with romidepsin

Among all evaluable PTCL patients in the romidepsin arm, the ORR was 59% (16/27), and the CR rate was 33% (9/27).

Responses occurred in seven patients with PTCL not otherwise specified (NOS), six with angioimmunoblastic T-cell lymphoma (AITL), one with hepatosplenic T-cell lymphoma, one with aggressive epidermotropic CD8+ T-cell lymphoma, and one with primary cutaneous PTCL.

CRs occurred in five patients with AITL and four with PTCL-NOS. Six patients who achieved a CR went on to transplant.

Among evaluable CTCL patients in the romidepsin arm, the ORR was 45% (5/11), and there were no CRs. Responses occurred in three patients with mycosis fungoides and two with Sézary syndrome.

The median progression-free survival was 5.41 months in CTCL patients and 6.72 months in PTCL patients.

Efficacy with bortezomib

Among evaluable PTCL patients in the bortezomib arm, the ORR was 44% (7/16), and the CR rate was 25% (4/16).

Responses occurred in three patients with AITL and four with PTCL-NOS. CRs occurred in two patients with each subtype.

Among evaluable CTCL patients in the bortezomib arm, the ORR was 27% (4/15), and there were no CRs. Responses occurred in one patient with mycosis fungoides and three with Sézary syndrome. One CTCL patient went on to transplant.

The median progression-free survival was 4.56 months among CTCL patients and 4.39 months in PTCL patients.
 

Safety

Dr. Mehta-Shah said both combinations were considered safe and well tolerated. However, there was a grade 5 adverse event (AE) – Stevens-Johnson syndrome – that occurred in the bortezomib arm and was considered possibly related to treatment.

Grade 3/4 AEs observed in the 31 patients treated at the MTD in the romidepsin arm were transaminase increase (n = 7), diarrhea (n = 6), hyponatremia (n = 4), neutrophil count decrease (n = 10), and platelet count decrease (n = 3).

Grade 3/4 AEs observed in the 23 patients treated at the MTD in the bortezomib arm were transaminase increase (n = 2) and neutrophil count decrease (n = 5).

Grade 3/4 transaminitis seemed to be more common among patients who received duvelisib alone during the lead-in phase, Dr. Mehta-Shah said.

Among patients treated at the MTD in the romidepsin arm, grade 3/4 transaminitis occurred in four patients treated during the lead-in phase and three who began receiving romidepsin and duvelisib together. In the bortezomib arm, grade 3/4 transaminitis occurred in two patients treated at the MTD, both of whom received duvelisib alone during the lead-in phase.

Based on these results, Dr. Mehta-Shah and her colleagues are planning to expand the romidepsin arm to an additional 25 patients. By testing the combination in more patients, the researchers hope to better understand the occurrence of transaminitis and assess the durability of response.

This study is supported by Verastem. Dr. Shah reported relationships with Celgene, Kyowa Kirin, Bristol-Myers Squibb, Verastem, and Genentech.

The T-cell Lymphoma Forum is held by Jonathan Wood & Associates, which is owned by the same company as this news organization.

[email protected]

LA JOLLA, CALIF. – The combination of duvelisib and romidepsin is active and can provide a bridge to transplant in relapsed or refractory peripheral T-cell lymphoma (PTCL), according to researchers.

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In a phase 1 trial, duvelisib plus romidepsin produced an overall response rate (ORR) of 59% in patients with PTCL. Sixteen patients achieved a response, nine had a complete response (CR), and six complete responders went on to transplant.

“So we think that you can achieve remission deep enough to then move on to a potentially curative approach,” said study investigator Neha Mehta-Shah, MD, of Washington University in St. Louis.

She and her colleagues evaluated romidepsin plus duvelisib, as well as bortezomib plus duvelisib, in a phase 1 trial (NCT02783625) of patients with relapsed or refractory PTCL or cutaneous T-cell lymphoma (CTCL).

Dr. Mehta-Shah presented the results at the annual T-cell Lymphoma Forum.

She reported results in 80 patients­ – 51 with PTCL and 29 with CTCL. The patients’ median age was 64 years (range, 28-83), and 57% of the study population were men. Patients had received a median of 3 (range, 1-16) prior therapies, and 16% had received a prior transplant.
 

Treatment

Dr. Mehta-Shah noted that patients and providers could choose whether patients would receive romidepsin or bortezomib.

Patients in the romidepsin arm received romidepsin at 10 mg/m² on days 1, 8, and 15 of each 28-day cycle. Patients in the bortezomib arm received bortezomib at 1 mg/m² on days 1, 4, 8, and 11 of each cycle.

Duvelisib dosing was escalated, so patients received duvelisib at 25 mg, 50 mg, or 75 mg twice daily.

In the bortezomib arm, there was one dose-limiting toxicity – grade 3 neutropenia – in a patient who received duvelisib at the 25-mg dose. There were no dose-limiting toxicities in the romidepsin arm.

The researchers determined that the maximum tolerated dose (MTD) of duvelisib was 75 mg twice daily in the romidepsin arm and 25 mg twice daily in the bortezomib arm.
 

Lead-in phase

The study also had a lead-in phase during which patients could receive single-agent duvelisib.

“Because the original phase 1 study of duvelisib did not collect as many prospective tumor biopsies or on-treatment biopsies, we built into this study a lead-in phase so that we could characterize on-treatment biopsies to better understand mechanisms of response or resistance,” Dr. Mehta-Shah said.

Patients and providers could choose to be part of the lead-in phase, she noted. Patients who did not achieve a CR during this phase went on to receive either combination therapy, which was predetermined before the monotherapy began.

There were 14 patients who received duvelisib monotherapy at 75 mg twice daily. Four of them achieved a CR, and three had a partial response (PR). Ten patients went on to receive romidepsin as well. One of them achieved a CR, and three had a PR.

There were 12 patients who received duvelisib monotherapy at 25 mg twice daily. Three of them achieved a CR, and two had a PR. Nine patients went on to receive bortezomib as well. This combination produced one CR and two PRs.
 

 

 

Efficacy with romidepsin

Among all evaluable PTCL patients in the romidepsin arm, the ORR was 59% (16/27), and the CR rate was 33% (9/27).

Responses occurred in seven patients with PTCL not otherwise specified (NOS), six with angioimmunoblastic T-cell lymphoma (AITL), one with hepatosplenic T-cell lymphoma, one with aggressive epidermotropic CD8+ T-cell lymphoma, and one with primary cutaneous PTCL.

CRs occurred in five patients with AITL and four with PTCL-NOS. Six patients who achieved a CR went on to transplant.

Among evaluable CTCL patients in the romidepsin arm, the ORR was 45% (5/11), and there were no CRs. Responses occurred in three patients with mycosis fungoides and two with Sézary syndrome.

The median progression-free survival was 5.41 months in CTCL patients and 6.72 months in PTCL patients.

Efficacy with bortezomib

Among evaluable PTCL patients in the bortezomib arm, the ORR was 44% (7/16), and the CR rate was 25% (4/16).

Responses occurred in three patients with AITL and four with PTCL-NOS. CRs occurred in two patients with each subtype.

Among evaluable CTCL patients in the bortezomib arm, the ORR was 27% (4/15), and there were no CRs. Responses occurred in one patient with mycosis fungoides and three with Sézary syndrome. One CTCL patient went on to transplant.

The median progression-free survival was 4.56 months among CTCL patients and 4.39 months in PTCL patients.
 

Safety

Dr. Mehta-Shah said both combinations were considered safe and well tolerated. However, there was a grade 5 adverse event (AE) – Stevens-Johnson syndrome – that occurred in the bortezomib arm and was considered possibly related to treatment.

Grade 3/4 AEs observed in the 31 patients treated at the MTD in the romidepsin arm were transaminase increase (n = 7), diarrhea (n = 6), hyponatremia (n = 4), neutrophil count decrease (n = 10), and platelet count decrease (n = 3).

Grade 3/4 AEs observed in the 23 patients treated at the MTD in the bortezomib arm were transaminase increase (n = 2) and neutrophil count decrease (n = 5).

Grade 3/4 transaminitis seemed to be more common among patients who received duvelisib alone during the lead-in phase, Dr. Mehta-Shah said.

Among patients treated at the MTD in the romidepsin arm, grade 3/4 transaminitis occurred in four patients treated during the lead-in phase and three who began receiving romidepsin and duvelisib together. In the bortezomib arm, grade 3/4 transaminitis occurred in two patients treated at the MTD, both of whom received duvelisib alone during the lead-in phase.

Based on these results, Dr. Mehta-Shah and her colleagues are planning to expand the romidepsin arm to an additional 25 patients. By testing the combination in more patients, the researchers hope to better understand the occurrence of transaminitis and assess the durability of response.

This study is supported by Verastem. Dr. Shah reported relationships with Celgene, Kyowa Kirin, Bristol-Myers Squibb, Verastem, and Genentech.

The T-cell Lymphoma Forum is held by Jonathan Wood & Associates, which is owned by the same company as this news organization.

[email protected]