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– Novel antibodies are improving outcomes in relapsed and refractory acute lymphoblastic leukemia (ALL), and the hope is that they will also show benefit in the up-front treatment setting and thereby improve overall outcomes, according to Anjali Advani, MD.

“It has been a really exciting time in ALL because several drugs have now been FDA approved: blinatumomab, inotuzumab, and now – for patients who are less than 26 years of age – we actually have CAR [chimeric antigen receptor] T cells that have been approved,” Dr. Advani, a hematologist and director of the inpatient leukemia program at the Cleveland Clinic said at the American Society of Hematology Meeting on Hematologic Malignancies.

At the time of relapse, however, the only known cure is allogeneic bone marrow transplant. That may change as more data regarding CAR T cells become available, but the typical goal at this time is to get patients into remission and then to transplant, she said.
 

Blinatumomab

“Blinatumomab is a very interesting antibody,” Dr. Advani said, explaining that it is a bispecific, T cell–engaging antibody with an anti-CD3 arm that engages the T cell and an anti-CD19 antibody that engages the B lymphoblast.

“Basically this drug then acts as a bridge between the lymphoblast and the T cell to lead to proliferation of the cytotoxic T cell and apoptosis of the lymphoblast,” she said. “It’s interesting because it’s an antibody but it actually works through the immune system through the T cells.”

The largest study to date of blinatumomab in the relapsed/refractory ALL setting showed a 43% complete remission (CR) or CR with partial hematological recovery of peripheral blood counts (CRi) in 189 treated patients with Philadelphia chromosome–negative ALL. It also demonstrated and a 39% rate of salvage status 2 or higher, she said, noting that the response was impressive given that about 30% of participants had a prior transplant (Lancet. 2015 Jan 1;16[1]:57-66).

Of the responders, 40% went on to allogeneic transplant. This was a “fairly impressive” rate given the 30% prior-transplant rate, Dr. Advani said.

“There also was a high minimal residual disease response in those patients achieving CR,” she said, adding that the only significant predictor of response was bone marrow blast count; patients with 50% or more blasts in the bone marrow had a reduced likelihood of responding to blinatumomab.

The agent was approved by the Food and Drug Administration in December 2014 based on these phase 2 findings.

Adverse events mainly included toxicities that are expected in leukemia patients; the most frequent were febrile neutropenia, neutropenia, and anemia. Two patients developed cytokine release syndrome, and about half of the blinatumomab-treated patients experienced neurological events, although the majority of those were grade 1 or 2 and were easily manageable, she noted.

Blinatumomab was further evaluated in the phase 3 TOWER study (NCT02013167), which compared it with standard-of-care chemotherapy regimens. This study showed much higher response rates with blinatumomab than with the chemotherapy regimens (CR with full, partial, or incomplete hematologic recovery, 44% vs. 25%, respectively), Dr. Advani said (N Engl J Med. 2017 Mar 2;376[9]:836-47).

“The main things to remember [are that blinatumomab is] generally very well tolerated and it has been shown to be superior over standard chemotherapy,” she said. “I think it’s a very good drug to use as a bridge to transplant.”

One setting where blinatumomab perhaps should not be used is in patients with central nervous system disease, she noted.

“There is some concern, at least theoretically, that if you have to use concurrent intrathecal chemo along with blinatumomab, there could be some neurotoxicity,” Dr. Advani said, adding that there are no clear data in that setting because patients with CNS disease were not included in the trials.

Patients with high tumor burden may also be poor candidates for blinatumomab because they tend to have lower response rates.

“That doesn’t mean you can’t use it, but you have to kind of think about what the best option would be,” she said.

Additionally, patients treated with CAR T-cell therapy may develop CD19 loss or CD19-negative disease, and blinatumomab should be avoided in these patients.

“The nice thing ... is you don’t have to worry about veno-occlusive disease [VOD] in patients who are proceeding to transplant,” she said, explaining that no increased risk of VOD was seen in these trials.
 

 

 

Inotuzumab

Inotuzumab, which was approved in 2017, differs from blinatumomab in that it is an anti-CD22-calicheamicin conjugate; however, it also showed high response rates in the initial phase 2 trial in relapsed/refractory ALL. The overall response rate was 57%, with 18% achieving a complete response and 63% achieving complete molecular remission.

Of 49 treated patients, 22 patients proceeded to allogeneic transplant, and 5 of those developed VOD.

“Interestingly, four out of five of these patients had received a clofarabine-based preparative regimen, and this likely explains why there was a higher risk of VOD in this study,” she said, noting that the VOD risk has been lower in subsequent studies of inotuzumab.

The international INO-VATE ALL study (NCT01564784) that led to FDA approval was similar in design to the TOWER study in that it compared inotuzumab with standard chemotherapy regimens, and response rates were clearly higher (81% vs. 33%) with inotuzumab (N Engl J Med. 2016 Aug 25;375[8]:740-53).

The VOD risk in the INO-VATE trial was 11%, and it seemed to be higher in those who received dual alkylator–conditioning regimens, which are commonly used in Europe.

Longer-term outcomes after transplant in INO-VATE participants show that median survival has not been reached.

“It’s encouraging that with longer follow-up these patients actually look like they’re doing well,” Dr. Advani said, adding that inotuzumab is a good treatment option for relapsed patients with high disease burden or with CNS disease.

The continuous hookup required for this treatment may be problematic for some younger and older patients, but it is generally not an issue, she noted.

It is important, though, to give as few cycles prior to transplant as possible and to “really think about the preparative regimen to decrease the risk of VOD.”
 

CAR T-cell therapy

As for CAR T-cell therapy in the relapsed/refractory ALL setting, tisagenlecleucel was approved in 2017 for those up to age 25 years with B-cell precursor ALL that is refractory or in second or later relapse.

Approval was based on a single-arm trial of 63 patients with relapsed or refractory pediatric precursor B-cell ALL, including 35 patients who had prior transplant. The confirmed overall remission rate was 82%, with a 63% CR rate and 19% CRi rate.

“This is a very exciting area,” Dr. Advani said. “There are multiple trials being done in adults with ALL to really look at the older subgroup of patients.”
 

Overall outcomes

“These treatments we have now really seem to be effective in the relapse setting, but the problem is that once patients relapse and then go to transplant, their overall survival is still poor,” Dr. Advani said. “So the question is how can we improve the up-front treatment of patients so that hopefully they don’t relapse, and hopefully we also can send a smaller number of patients to transplant.”

Two trials seek to address this, she said.

The A041501 study (NCT03150693) is comparing C10403 chemotherapy with C10403 induction followed by two cycles of inotuzumab before continuing with chemotherapy in adults under age 40 years with previously untreated B ALL.

The primary objective is improved 3-year event-free survival, she said, adding that minimal residual disease (MRD) testing will be used and that CD20-positive patients will receive rituximab, as is now standard.

The phase 3 E1910 study (NCT02003222) is evaluating up-front blinatumomab in patients aged 30-70 years with newly diagnosed BCR-ABL–negative B-lineage ALL. This trial was complicated by the recent approval of blinatumomab for MRD-positive disease, which rendered randomization of MRD-positive patients unethical. MRD-negative patients will be randomized, however.

“The hope is that, by incorporating blinatumomab up front, this will again improve outcomes for patients,” she said.

Dr. Advani reported consultancy for Pfizer; research funding from Genzyme, Novartis, Pfizer, and Sigma Tau; and honoraria from Genzyme, Pfizer, and Sigma Tau. She is also on the speakers bureau for Sigma Tau.

[email protected]

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– Novel antibodies are improving outcomes in relapsed and refractory acute lymphoblastic leukemia (ALL), and the hope is that they will also show benefit in the up-front treatment setting and thereby improve overall outcomes, according to Anjali Advani, MD.

“It has been a really exciting time in ALL because several drugs have now been FDA approved: blinatumomab, inotuzumab, and now – for patients who are less than 26 years of age – we actually have CAR [chimeric antigen receptor] T cells that have been approved,” Dr. Advani, a hematologist and director of the inpatient leukemia program at the Cleveland Clinic said at the American Society of Hematology Meeting on Hematologic Malignancies.

At the time of relapse, however, the only known cure is allogeneic bone marrow transplant. That may change as more data regarding CAR T cells become available, but the typical goal at this time is to get patients into remission and then to transplant, she said.
 

Blinatumomab

“Blinatumomab is a very interesting antibody,” Dr. Advani said, explaining that it is a bispecific, T cell–engaging antibody with an anti-CD3 arm that engages the T cell and an anti-CD19 antibody that engages the B lymphoblast.

“Basically this drug then acts as a bridge between the lymphoblast and the T cell to lead to proliferation of the cytotoxic T cell and apoptosis of the lymphoblast,” she said. “It’s interesting because it’s an antibody but it actually works through the immune system through the T cells.”

The largest study to date of blinatumomab in the relapsed/refractory ALL setting showed a 43% complete remission (CR) or CR with partial hematological recovery of peripheral blood counts (CRi) in 189 treated patients with Philadelphia chromosome–negative ALL. It also demonstrated and a 39% rate of salvage status 2 or higher, she said, noting that the response was impressive given that about 30% of participants had a prior transplant (Lancet. 2015 Jan 1;16[1]:57-66).

Of the responders, 40% went on to allogeneic transplant. This was a “fairly impressive” rate given the 30% prior-transplant rate, Dr. Advani said.

“There also was a high minimal residual disease response in those patients achieving CR,” she said, adding that the only significant predictor of response was bone marrow blast count; patients with 50% or more blasts in the bone marrow had a reduced likelihood of responding to blinatumomab.

The agent was approved by the Food and Drug Administration in December 2014 based on these phase 2 findings.

Adverse events mainly included toxicities that are expected in leukemia patients; the most frequent were febrile neutropenia, neutropenia, and anemia. Two patients developed cytokine release syndrome, and about half of the blinatumomab-treated patients experienced neurological events, although the majority of those were grade 1 or 2 and were easily manageable, she noted.

Blinatumomab was further evaluated in the phase 3 TOWER study (NCT02013167), which compared it with standard-of-care chemotherapy regimens. This study showed much higher response rates with blinatumomab than with the chemotherapy regimens (CR with full, partial, or incomplete hematologic recovery, 44% vs. 25%, respectively), Dr. Advani said (N Engl J Med. 2017 Mar 2;376[9]:836-47).

“The main things to remember [are that blinatumomab is] generally very well tolerated and it has been shown to be superior over standard chemotherapy,” she said. “I think it’s a very good drug to use as a bridge to transplant.”

One setting where blinatumomab perhaps should not be used is in patients with central nervous system disease, she noted.

“There is some concern, at least theoretically, that if you have to use concurrent intrathecal chemo along with blinatumomab, there could be some neurotoxicity,” Dr. Advani said, adding that there are no clear data in that setting because patients with CNS disease were not included in the trials.

Patients with high tumor burden may also be poor candidates for blinatumomab because they tend to have lower response rates.

“That doesn’t mean you can’t use it, but you have to kind of think about what the best option would be,” she said.

Additionally, patients treated with CAR T-cell therapy may develop CD19 loss or CD19-negative disease, and blinatumomab should be avoided in these patients.

“The nice thing ... is you don’t have to worry about veno-occlusive disease [VOD] in patients who are proceeding to transplant,” she said, explaining that no increased risk of VOD was seen in these trials.
 

 

 

Inotuzumab

Inotuzumab, which was approved in 2017, differs from blinatumomab in that it is an anti-CD22-calicheamicin conjugate; however, it also showed high response rates in the initial phase 2 trial in relapsed/refractory ALL. The overall response rate was 57%, with 18% achieving a complete response and 63% achieving complete molecular remission.

Of 49 treated patients, 22 patients proceeded to allogeneic transplant, and 5 of those developed VOD.

“Interestingly, four out of five of these patients had received a clofarabine-based preparative regimen, and this likely explains why there was a higher risk of VOD in this study,” she said, noting that the VOD risk has been lower in subsequent studies of inotuzumab.

The international INO-VATE ALL study (NCT01564784) that led to FDA approval was similar in design to the TOWER study in that it compared inotuzumab with standard chemotherapy regimens, and response rates were clearly higher (81% vs. 33%) with inotuzumab (N Engl J Med. 2016 Aug 25;375[8]:740-53).

The VOD risk in the INO-VATE trial was 11%, and it seemed to be higher in those who received dual alkylator–conditioning regimens, which are commonly used in Europe.

Longer-term outcomes after transplant in INO-VATE participants show that median survival has not been reached.

“It’s encouraging that with longer follow-up these patients actually look like they’re doing well,” Dr. Advani said, adding that inotuzumab is a good treatment option for relapsed patients with high disease burden or with CNS disease.

The continuous hookup required for this treatment may be problematic for some younger and older patients, but it is generally not an issue, she noted.

It is important, though, to give as few cycles prior to transplant as possible and to “really think about the preparative regimen to decrease the risk of VOD.”
 

CAR T-cell therapy

As for CAR T-cell therapy in the relapsed/refractory ALL setting, tisagenlecleucel was approved in 2017 for those up to age 25 years with B-cell precursor ALL that is refractory or in second or later relapse.

Approval was based on a single-arm trial of 63 patients with relapsed or refractory pediatric precursor B-cell ALL, including 35 patients who had prior transplant. The confirmed overall remission rate was 82%, with a 63% CR rate and 19% CRi rate.

“This is a very exciting area,” Dr. Advani said. “There are multiple trials being done in adults with ALL to really look at the older subgroup of patients.”
 

Overall outcomes

“These treatments we have now really seem to be effective in the relapse setting, but the problem is that once patients relapse and then go to transplant, their overall survival is still poor,” Dr. Advani said. “So the question is how can we improve the up-front treatment of patients so that hopefully they don’t relapse, and hopefully we also can send a smaller number of patients to transplant.”

Two trials seek to address this, she said.

The A041501 study (NCT03150693) is comparing C10403 chemotherapy with C10403 induction followed by two cycles of inotuzumab before continuing with chemotherapy in adults under age 40 years with previously untreated B ALL.

The primary objective is improved 3-year event-free survival, she said, adding that minimal residual disease (MRD) testing will be used and that CD20-positive patients will receive rituximab, as is now standard.

The phase 3 E1910 study (NCT02003222) is evaluating up-front blinatumomab in patients aged 30-70 years with newly diagnosed BCR-ABL–negative B-lineage ALL. This trial was complicated by the recent approval of blinatumomab for MRD-positive disease, which rendered randomization of MRD-positive patients unethical. MRD-negative patients will be randomized, however.

“The hope is that, by incorporating blinatumomab up front, this will again improve outcomes for patients,” she said.

Dr. Advani reported consultancy for Pfizer; research funding from Genzyme, Novartis, Pfizer, and Sigma Tau; and honoraria from Genzyme, Pfizer, and Sigma Tau. She is also on the speakers bureau for Sigma Tau.

[email protected]

– Novel antibodies are improving outcomes in relapsed and refractory acute lymphoblastic leukemia (ALL), and the hope is that they will also show benefit in the up-front treatment setting and thereby improve overall outcomes, according to Anjali Advani, MD.

“It has been a really exciting time in ALL because several drugs have now been FDA approved: blinatumomab, inotuzumab, and now – for patients who are less than 26 years of age – we actually have CAR [chimeric antigen receptor] T cells that have been approved,” Dr. Advani, a hematologist and director of the inpatient leukemia program at the Cleveland Clinic said at the American Society of Hematology Meeting on Hematologic Malignancies.

At the time of relapse, however, the only known cure is allogeneic bone marrow transplant. That may change as more data regarding CAR T cells become available, but the typical goal at this time is to get patients into remission and then to transplant, she said.
 

Blinatumomab

“Blinatumomab is a very interesting antibody,” Dr. Advani said, explaining that it is a bispecific, T cell–engaging antibody with an anti-CD3 arm that engages the T cell and an anti-CD19 antibody that engages the B lymphoblast.

“Basically this drug then acts as a bridge between the lymphoblast and the T cell to lead to proliferation of the cytotoxic T cell and apoptosis of the lymphoblast,” she said. “It’s interesting because it’s an antibody but it actually works through the immune system through the T cells.”

The largest study to date of blinatumomab in the relapsed/refractory ALL setting showed a 43% complete remission (CR) or CR with partial hematological recovery of peripheral blood counts (CRi) in 189 treated patients with Philadelphia chromosome–negative ALL. It also demonstrated and a 39% rate of salvage status 2 or higher, she said, noting that the response was impressive given that about 30% of participants had a prior transplant (Lancet. 2015 Jan 1;16[1]:57-66).

Of the responders, 40% went on to allogeneic transplant. This was a “fairly impressive” rate given the 30% prior-transplant rate, Dr. Advani said.

“There also was a high minimal residual disease response in those patients achieving CR,” she said, adding that the only significant predictor of response was bone marrow blast count; patients with 50% or more blasts in the bone marrow had a reduced likelihood of responding to blinatumomab.

The agent was approved by the Food and Drug Administration in December 2014 based on these phase 2 findings.

Adverse events mainly included toxicities that are expected in leukemia patients; the most frequent were febrile neutropenia, neutropenia, and anemia. Two patients developed cytokine release syndrome, and about half of the blinatumomab-treated patients experienced neurological events, although the majority of those were grade 1 or 2 and were easily manageable, she noted.

Blinatumomab was further evaluated in the phase 3 TOWER study (NCT02013167), which compared it with standard-of-care chemotherapy regimens. This study showed much higher response rates with blinatumomab than with the chemotherapy regimens (CR with full, partial, or incomplete hematologic recovery, 44% vs. 25%, respectively), Dr. Advani said (N Engl J Med. 2017 Mar 2;376[9]:836-47).

“The main things to remember [are that blinatumomab is] generally very well tolerated and it has been shown to be superior over standard chemotherapy,” she said. “I think it’s a very good drug to use as a bridge to transplant.”

One setting where blinatumomab perhaps should not be used is in patients with central nervous system disease, she noted.

“There is some concern, at least theoretically, that if you have to use concurrent intrathecal chemo along with blinatumomab, there could be some neurotoxicity,” Dr. Advani said, adding that there are no clear data in that setting because patients with CNS disease were not included in the trials.

Patients with high tumor burden may also be poor candidates for blinatumomab because they tend to have lower response rates.

“That doesn’t mean you can’t use it, but you have to kind of think about what the best option would be,” she said.

Additionally, patients treated with CAR T-cell therapy may develop CD19 loss or CD19-negative disease, and blinatumomab should be avoided in these patients.

“The nice thing ... is you don’t have to worry about veno-occlusive disease [VOD] in patients who are proceeding to transplant,” she said, explaining that no increased risk of VOD was seen in these trials.
 

 

 

Inotuzumab

Inotuzumab, which was approved in 2017, differs from blinatumomab in that it is an anti-CD22-calicheamicin conjugate; however, it also showed high response rates in the initial phase 2 trial in relapsed/refractory ALL. The overall response rate was 57%, with 18% achieving a complete response and 63% achieving complete molecular remission.

Of 49 treated patients, 22 patients proceeded to allogeneic transplant, and 5 of those developed VOD.

“Interestingly, four out of five of these patients had received a clofarabine-based preparative regimen, and this likely explains why there was a higher risk of VOD in this study,” she said, noting that the VOD risk has been lower in subsequent studies of inotuzumab.

The international INO-VATE ALL study (NCT01564784) that led to FDA approval was similar in design to the TOWER study in that it compared inotuzumab with standard chemotherapy regimens, and response rates were clearly higher (81% vs. 33%) with inotuzumab (N Engl J Med. 2016 Aug 25;375[8]:740-53).

The VOD risk in the INO-VATE trial was 11%, and it seemed to be higher in those who received dual alkylator–conditioning regimens, which are commonly used in Europe.

Longer-term outcomes after transplant in INO-VATE participants show that median survival has not been reached.

“It’s encouraging that with longer follow-up these patients actually look like they’re doing well,” Dr. Advani said, adding that inotuzumab is a good treatment option for relapsed patients with high disease burden or with CNS disease.

The continuous hookup required for this treatment may be problematic for some younger and older patients, but it is generally not an issue, she noted.

It is important, though, to give as few cycles prior to transplant as possible and to “really think about the preparative regimen to decrease the risk of VOD.”
 

CAR T-cell therapy

As for CAR T-cell therapy in the relapsed/refractory ALL setting, tisagenlecleucel was approved in 2017 for those up to age 25 years with B-cell precursor ALL that is refractory or in second or later relapse.

Approval was based on a single-arm trial of 63 patients with relapsed or refractory pediatric precursor B-cell ALL, including 35 patients who had prior transplant. The confirmed overall remission rate was 82%, with a 63% CR rate and 19% CRi rate.

“This is a very exciting area,” Dr. Advani said. “There are multiple trials being done in adults with ALL to really look at the older subgroup of patients.”
 

Overall outcomes

“These treatments we have now really seem to be effective in the relapse setting, but the problem is that once patients relapse and then go to transplant, their overall survival is still poor,” Dr. Advani said. “So the question is how can we improve the up-front treatment of patients so that hopefully they don’t relapse, and hopefully we also can send a smaller number of patients to transplant.”

Two trials seek to address this, she said.

The A041501 study (NCT03150693) is comparing C10403 chemotherapy with C10403 induction followed by two cycles of inotuzumab before continuing with chemotherapy in adults under age 40 years with previously untreated B ALL.

The primary objective is improved 3-year event-free survival, she said, adding that minimal residual disease (MRD) testing will be used and that CD20-positive patients will receive rituximab, as is now standard.

The phase 3 E1910 study (NCT02003222) is evaluating up-front blinatumomab in patients aged 30-70 years with newly diagnosed BCR-ABL–negative B-lineage ALL. This trial was complicated by the recent approval of blinatumomab for MRD-positive disease, which rendered randomization of MRD-positive patients unethical. MRD-negative patients will be randomized, however.

“The hope is that, by incorporating blinatumomab up front, this will again improve outcomes for patients,” she said.

Dr. Advani reported consultancy for Pfizer; research funding from Genzyme, Novartis, Pfizer, and Sigma Tau; and honoraria from Genzyme, Pfizer, and Sigma Tau. She is also on the speakers bureau for Sigma Tau.

[email protected]

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