Disease-burden-adapted immunotherapy protocol for primary refractory or high-risk relapsed pediatric acute lymphoblastic leukemia

IF 7.6 2区 医学 Q1 HEMATOLOGY HemaSphere Pub Date : 2024-07-29 DOI:10.1002/hem3.111
Sanaa Khan, Krishnan VP, Yamini Krishnan, Gazel Sainulabdin, Somdipa Pal, Rincy Mathews, Darshan Kataria, Kunal Sehgal, Purva Kanvinde, Lashkari Harshaprasad, Minnie Bodhanwala, Bharat Agarwal, Ambreen Pandrowala, Prashant Hiwarkar
{"title":"Disease-burden-adapted immunotherapy protocol for primary refractory or high-risk relapsed pediatric acute lymphoblastic leukemia","authors":"Sanaa Khan,&nbsp;Krishnan VP,&nbsp;Yamini Krishnan,&nbsp;Gazel Sainulabdin,&nbsp;Somdipa Pal,&nbsp;Rincy Mathews,&nbsp;Darshan Kataria,&nbsp;Kunal Sehgal,&nbsp;Purva Kanvinde,&nbsp;Lashkari Harshaprasad,&nbsp;Minnie Bodhanwala,&nbsp;Bharat Agarwal,&nbsp;Ambreen Pandrowala,&nbsp;Prashant Hiwarkar","doi":"10.1002/hem3.111","DOIUrl":null,"url":null,"abstract":"<p>The survival rates for pediatric patients with primary refractory or high-risk relapsed B-cell acute lymphoblastic leukemia (r/r B-ALL), treated with chemotherapy-based protocols and followed by allogeneic hematopoietic cell transplantation (HCT), range from 15% to 30%.<span><sup>1</sup></span> These outcomes are even more unfavorable in countries with evolving healthcare insurance systems due to treatment-related mortality and financial toxicity.<span><sup>2</sup></span> The long-term event-free survival for such high-risk relapse of B-ALL is dependent on achieving minimal residual disease (MRD) negativity prior to HCT.<span><sup>3</sup></span></p><p>In the past decade, there have been significant advancements in targeted antibody-based immunotherapies for managing r/r B-ALL.<span><sup>4-11</sup></span> Blinatumomab (Blina) is a T-cell engager that provides an antileukemic effect by targeting cytotoxic T cells to CD19-expressing cancer cells. Several studies have revealed the excellent efficacy of Blina in low-burden disease.<span><sup>4-8</sup></span> However, recipients of Blina with high tumor burden have low response rates and are at risk of severe cytokine release syndrome (CRS).<span><sup>9</sup></span> Whereas, Inotuzumab ozogamicin (InO) targets CD22, which is conjugated to calicheamicin, a potent cytotoxic agent and works well even for high-burden disease with response rates as high as 80%.<span><sup>10, 11</sup></span></p><p>To optimize the use of these novel immunotherapies in r/r B-cell ALL, we designed a disease-burden-adapted protocol of InO followed by Blina for high-burden (minimal residual disease (MRD) &gt; 5%) CD22+ CD19+ disease and Blina only for low-burden (MRD ≤ 5%) CD19+ disease.</p><p>This is a retrospective analysis of 39 patients with r/r B-cell ALL patients aged 1–18 years treated in three centers from January 2018 to August 2023. Patients were treated with a chemotherapy-based protocol from January 2018 to April 2021 and on a disease-burden-adapted immunotherapy protocol from May 2021 to August 2023.</p><p>End-of-induction (EOI) MRD of &gt;5% with high-risk cytogenetics or age &gt;16 years and all patients with end-of-consolidation (EOC) MRD &gt; 0.1% irrespective of age or cytogenetics were considered primary refractory. Very early relapse (&lt;18 months from diagnosis; marrow or isolated extramedullary), early relapse (18–36 months from diagnosis or until 6 months off therapy; marrow or isolated extramedullary), and late relapse (≥36 months from diagnosis or &gt;6 months off therapy; marrow or isolated extramedullary) with postrelapse induction MRD of ≥0.1% and second relapse with any level of disease were considered as high-risk.</p><p>A fractionated dose of InO as 1.8 mg/m<sup>2</sup> per course was administered intravenously over 1 h on Days 1, 8, and 15 of 28-day cycle as previously described.<span><sup>10, 11</sup></span> Blina was given as a 28-day continuous intravenous infusion. The first 7 days of the first cycle were administered at 5 mcg/m<sup>2</sup>/day, and subsequently, the dose was increased to the maximum tolerated dose, up to a maximum of 15 mcg/m<sup>2</sup>/day.</p><p>Flow cytometric immunophenotypic analysis of the bone marrow was done on CD45/side scatter plots for diagnosis and follow-up MRD. In view of Blina and InO therapy, previously described alternate gating strategies were used.<span><sup>12</sup></span> Bone marrow MRD assessments were conducted after each course of immunotherapy and after HCT at 1-, 2-, 3-, 6-, and 12-month intervals.</p><p>Treatment responses were classified as complete response if MRD was negative, good response if MRD was detectable to less than 0.01%, partial response if the disease burden reduced but was more than 0.01%, and no response or progressive disease depending on whether the disease burden was stable or progressive. Patients were followed up in the clinic until November 2023.</p><p>Adverse events including neurotoxicity, cytokine release syndrome, veno-occlusive disease (VOD), and tumor lysis syndrome were graded using the CTCAE, version 5.</p><p>Overall survival was measured as time from immunotherapy to death, and event-free survival was measured as time from immunotherapy to relapse or death. We also compared the overall survival of high-risk relapsed leukemia patients in the cohort who received immunotherapy with that of high-risk relapsed leukemia patients from January 2018 to April 2021, predating the immunotherapy protocol. The Kaplan–Meier method was used to generate survival curves.</p><p>This analysis was performed in line with the principles of the Declaration of Helsinki. Bai Jerbai Wadia Hospital Ethics Committee approved retrospective analysis (Ethics No. IEC/BJWHC/AP/2024/025).</p><p>Nineteen consecutive patients with r/r B-cell ALL were treated with the disease-burden-adapted immunotherapy protocol from May 2021 to August 2023. All patients were consented for immunotherapy. The median age of the cohort was 12 years (range: 2–17 years), and two-thirds of patients were ≥10 years of age. Five were females and 14 were males. Seven patients had high-risk cytogenetics (three low hypodiploidy and one each of ABL1, iAMP21, IKZF1 deletion, and MLL-rearrangement). The demographic, leukemia characteristics, and treatment details of patients are shown in Table 1.</p><p>Eight patients were primary refractory (4 = induction failure, 4 = consolidation failure). All primary refractory patients were referred from different hospitals across the country.</p><p>Eleven patients had high-risk relapsed leukemia (2 = very early, 4 = early relapse, 2 = late relapse with post-relapse induction MRD of ≥0.1%, 3 = second relapse). Patients with relapsed leukemia received either three previous chemotherapy protocols (<i>n</i> = 5), two previous chemotherapy protocols (<i>n</i> = 5), or one previous chemotherapy protocol (<i>n</i> = 1). Ten patients received chemotherapy-based relapse induction for the latest relapse, and all had postinduction residual disease.</p><p>Five of 19 patients (26%) had an extramedullary disease, three were central nervous system positive, and two had testicular involvement.</p><p>Twelve patients (5 = primary refractory; 7 = relapsed) with MRD ranging from 0.008% to 4.21% received Blina alone (Figure 1A). The median number of Blina cycles was 2 (range: 1–3). All 12 patients achieved MRD-negative remission after the first cycle.</p><p>Seven patients (3 = primary refractory; 4 = relapsed) with high-burden disease ranging from 5.34% to 78% received one cycle of InO (Figure 1A). Six patients responded to InO; three patients became MRD-negative, and three patients achieved a good response. All six patients received consolidation with Blina and achieved MRD-negative status. One patient progressed on InO and, as a result, received palliative care.</p><p>Eighteen patients (95%) achieved MRD-negative status with the disease-burden-adapted protocol. Sixteen patients (84%) have undergone allogeneic HCT. Seven patients received grafts from haploidentical donors, six underwent matched unrelated donor HCT, and three received HCT from matched sibling donors. One patient, lacking an HLA-matched donor, underwent an autologous transplant due to high-risk pretransplant factors, such as chronic parvoviremia, intestinal adenovirus shedding, and obesity. Another patient, also without an HLA-matched donor, chose maintenance chemotherapy because of chronic parvoviremia and intestinal adenovirus shedding. Fifteen patients (77%; 95% CI: 49.5–90.6) were alive and in continuous MRD-negative CR with a median postimmunotherapy follow-up of 424 days (range: 117–914; Figure 1B,C).</p><p>Nine (82%) of 11 patients who received disease-burden-adapted protocol for relapsed leukemia were disease-free at a median follow-up of 317 days (range: 117–853). In contrast, one of 20 patients (5%) were disease-free in the preimmunotherapy high-risk relapsed leukemia cohort with a median survival of 93 days (Figure 1D; <i>p</i> &lt; 0.0001). The comparison of the preimmunotherapy cohort versus the cohort treated with disease-burden-adapted protocol is shown in Supporting Information S1: Figure 1.</p><p>Nine (50%) patients developed mild CRS with Blina (7 = grade 1, 2 = grade 2). Two (12%) patients experienced grade 1 neurotoxicity that recovered after transient discontinuation of Blina. One patient treated with InO had grade 1 CRS. Six patients who received InO have undergone HCT to date and only one experienced mild VOD during HCT, which responded to fluid restriction and diuretics. No patients experienced immunotherapy-related grade 3 or grade 4 toxicity.</p><p>There were four deaths in the immunotherapy cohort. The causes of death included disease progression on InO in one patient, post-HCT CD19-negative relapse in another patient, and the other two patients succumbed to transplant-related mortality; one died of acute respiratory distress syndrome and another patient succumbed to early disseminated adenoviremia.</p><p>Patients diagnosed with refractory ALL inherently exhibit resistance to chemotherapy and those with relapsed ALL acquire resistance during chemotherapy exposure.<span><sup>13</sup></span> The alternative mechanism of targeting B-cell antigens with antibody-based immunotherapies provides greater opportunities for precision medicine. Clinical trials have shown that using Blina as a bridging regimen before HCT for relapsed B-cell ALL can improve disease-free survival rates.<span><sup>4-8</sup></span> At a median follow-up of 2 years, the disease-free survival rates for patients who received Blina ranged from 55% to 65%.<span><sup>4, 8</sup></span> The observations that Blina works better in the MRD setting than in hematological remission, and up to 80% of patients with high tumor burden respond to InO, formed the basis of the protocol.<span><sup>4-11</sup></span> Notably, no serious side effects were observed in this protocol. Our protocol of consolidating InO response with Blina may also reduce the risk of VOD by allowing more time between InO administration and transplant. Furthermore, exclusive use of Blina in low-burden disease could have abrogated the risk of severe CRS or neurotoxicity.</p><p>In parallel to the development of antibody-based immunotherapies, advances in cell-based immunotherapies have occurred.<span><sup>14, 15</sup></span> Cell-based immunotherapies require significant laboratory expertise and are expensive. In addition, at least 50% of patients relapse after CAR T-cell therapies and not all CAR T-cell therapies yield similar results.<span><sup>14, 16, 17</sup></span> Allogeneic HCT as a consolidative therapy after CAR T cells offsets the potential benefits of autologous CAR T cells. In contrast, antibody-based therapies are off-the-shelf, manufacture-controlled, and do not require infrastructure, making them a more viable option in regions with emerging healthcare insurance systems.</p><p>To conclude, the disease-burden-adapted protocol is a promising strategy for treating r/r pediatric B-ALL as a bridging regimen before HCT. The report underscores the importance of making these immunotherapies accessible on a global scale through collaborative efforts involving governments, nongovernmental organizations, and pharmaceutical initiatives. While the analysis is retrospective, its findings highlight the efficacy and safety of this strategy allowing a greater number of patients to reach potentially curative HCT.</p><p>Prashant Hiwarkar conceived the study and analyzed the data. Sanaa Khan, Krishnan VP, Lashkari Harshaprasad, and Purva Kanvinde acquired the data. Sanaa Khan, Krishnan VP, and Prashant Hiwarkar wrote the manuscript. Kunal Sehgal did flow cytometry analysis. Sanaa Khan, Krishnan VP, Yamini Krishnan, Gazel Sainulabdin, Somdipa Pal, Rincy Mathews, Darshan Kataria, Minnie Bodhanwala, Bharat Agarwal, Ambreen Pandrowala, and Prashant Hiwarkar were actively involved in patient care; all authors revised and approved the final manuscript.</p><p>The authors declare no conflict of interest.</p><p>This research received no funding.</p>","PeriodicalId":12982,"journal":{"name":"HemaSphere","volume":"8 8","pages":""},"PeriodicalIF":7.6000,"publicationDate":"2024-07-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11284769/pdf/","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"HemaSphere","FirstCategoryId":"3","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1002/hem3.111","RegionNum":2,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"HEMATOLOGY","Score":null,"Total":0}
引用次数: 0

Abstract

The survival rates for pediatric patients with primary refractory or high-risk relapsed B-cell acute lymphoblastic leukemia (r/r B-ALL), treated with chemotherapy-based protocols and followed by allogeneic hematopoietic cell transplantation (HCT), range from 15% to 30%.1 These outcomes are even more unfavorable in countries with evolving healthcare insurance systems due to treatment-related mortality and financial toxicity.2 The long-term event-free survival for such high-risk relapse of B-ALL is dependent on achieving minimal residual disease (MRD) negativity prior to HCT.3

In the past decade, there have been significant advancements in targeted antibody-based immunotherapies for managing r/r B-ALL.4-11 Blinatumomab (Blina) is a T-cell engager that provides an antileukemic effect by targeting cytotoxic T cells to CD19-expressing cancer cells. Several studies have revealed the excellent efficacy of Blina in low-burden disease.4-8 However, recipients of Blina with high tumor burden have low response rates and are at risk of severe cytokine release syndrome (CRS).9 Whereas, Inotuzumab ozogamicin (InO) targets CD22, which is conjugated to calicheamicin, a potent cytotoxic agent and works well even for high-burden disease with response rates as high as 80%.10, 11

To optimize the use of these novel immunotherapies in r/r B-cell ALL, we designed a disease-burden-adapted protocol of InO followed by Blina for high-burden (minimal residual disease (MRD) > 5%) CD22+ CD19+ disease and Blina only for low-burden (MRD ≤ 5%) CD19+ disease.

This is a retrospective analysis of 39 patients with r/r B-cell ALL patients aged 1–18 years treated in three centers from January 2018 to August 2023. Patients were treated with a chemotherapy-based protocol from January 2018 to April 2021 and on a disease-burden-adapted immunotherapy protocol from May 2021 to August 2023.

End-of-induction (EOI) MRD of >5% with high-risk cytogenetics or age >16 years and all patients with end-of-consolidation (EOC) MRD > 0.1% irrespective of age or cytogenetics were considered primary refractory. Very early relapse (<18 months from diagnosis; marrow or isolated extramedullary), early relapse (18–36 months from diagnosis or until 6 months off therapy; marrow or isolated extramedullary), and late relapse (≥36 months from diagnosis or >6 months off therapy; marrow or isolated extramedullary) with postrelapse induction MRD of ≥0.1% and second relapse with any level of disease were considered as high-risk.

A fractionated dose of InO as 1.8 mg/m2 per course was administered intravenously over 1 h on Days 1, 8, and 15 of 28-day cycle as previously described.10, 11 Blina was given as a 28-day continuous intravenous infusion. The first 7 days of the first cycle were administered at 5 mcg/m2/day, and subsequently, the dose was increased to the maximum tolerated dose, up to a maximum of 15 mcg/m2/day.

Flow cytometric immunophenotypic analysis of the bone marrow was done on CD45/side scatter plots for diagnosis and follow-up MRD. In view of Blina and InO therapy, previously described alternate gating strategies were used.12 Bone marrow MRD assessments were conducted after each course of immunotherapy and after HCT at 1-, 2-, 3-, 6-, and 12-month intervals.

Treatment responses were classified as complete response if MRD was negative, good response if MRD was detectable to less than 0.01%, partial response if the disease burden reduced but was more than 0.01%, and no response or progressive disease depending on whether the disease burden was stable or progressive. Patients were followed up in the clinic until November 2023.

Adverse events including neurotoxicity, cytokine release syndrome, veno-occlusive disease (VOD), and tumor lysis syndrome were graded using the CTCAE, version 5.

Overall survival was measured as time from immunotherapy to death, and event-free survival was measured as time from immunotherapy to relapse or death. We also compared the overall survival of high-risk relapsed leukemia patients in the cohort who received immunotherapy with that of high-risk relapsed leukemia patients from January 2018 to April 2021, predating the immunotherapy protocol. The Kaplan–Meier method was used to generate survival curves.

This analysis was performed in line with the principles of the Declaration of Helsinki. Bai Jerbai Wadia Hospital Ethics Committee approved retrospective analysis (Ethics No. IEC/BJWHC/AP/2024/025).

Nineteen consecutive patients with r/r B-cell ALL were treated with the disease-burden-adapted immunotherapy protocol from May 2021 to August 2023. All patients were consented for immunotherapy. The median age of the cohort was 12 years (range: 2–17 years), and two-thirds of patients were ≥10 years of age. Five were females and 14 were males. Seven patients had high-risk cytogenetics (three low hypodiploidy and one each of ABL1, iAMP21, IKZF1 deletion, and MLL-rearrangement). The demographic, leukemia characteristics, and treatment details of patients are shown in Table 1.

Eight patients were primary refractory (4 = induction failure, 4 = consolidation failure). All primary refractory patients were referred from different hospitals across the country.

Eleven patients had high-risk relapsed leukemia (2 = very early, 4 = early relapse, 2 = late relapse with post-relapse induction MRD of ≥0.1%, 3 = second relapse). Patients with relapsed leukemia received either three previous chemotherapy protocols (n = 5), two previous chemotherapy protocols (n = 5), or one previous chemotherapy protocol (n = 1). Ten patients received chemotherapy-based relapse induction for the latest relapse, and all had postinduction residual disease.

Five of 19 patients (26%) had an extramedullary disease, three were central nervous system positive, and two had testicular involvement.

Twelve patients (5 = primary refractory; 7 = relapsed) with MRD ranging from 0.008% to 4.21% received Blina alone (Figure 1A). The median number of Blina cycles was 2 (range: 1–3). All 12 patients achieved MRD-negative remission after the first cycle.

Seven patients (3 = primary refractory; 4 = relapsed) with high-burden disease ranging from 5.34% to 78% received one cycle of InO (Figure 1A). Six patients responded to InO; three patients became MRD-negative, and three patients achieved a good response. All six patients received consolidation with Blina and achieved MRD-negative status. One patient progressed on InO and, as a result, received palliative care.

Eighteen patients (95%) achieved MRD-negative status with the disease-burden-adapted protocol. Sixteen patients (84%) have undergone allogeneic HCT. Seven patients received grafts from haploidentical donors, six underwent matched unrelated donor HCT, and three received HCT from matched sibling donors. One patient, lacking an HLA-matched donor, underwent an autologous transplant due to high-risk pretransplant factors, such as chronic parvoviremia, intestinal adenovirus shedding, and obesity. Another patient, also without an HLA-matched donor, chose maintenance chemotherapy because of chronic parvoviremia and intestinal adenovirus shedding. Fifteen patients (77%; 95% CI: 49.5–90.6) were alive and in continuous MRD-negative CR with a median postimmunotherapy follow-up of 424 days (range: 117–914; Figure 1B,C).

Nine (82%) of 11 patients who received disease-burden-adapted protocol for relapsed leukemia were disease-free at a median follow-up of 317 days (range: 117–853). In contrast, one of 20 patients (5%) were disease-free in the preimmunotherapy high-risk relapsed leukemia cohort with a median survival of 93 days (Figure 1D; p < 0.0001). The comparison of the preimmunotherapy cohort versus the cohort treated with disease-burden-adapted protocol is shown in Supporting Information S1: Figure 1.

Nine (50%) patients developed mild CRS with Blina (7 = grade 1, 2 = grade 2). Two (12%) patients experienced grade 1 neurotoxicity that recovered after transient discontinuation of Blina. One patient treated with InO had grade 1 CRS. Six patients who received InO have undergone HCT to date and only one experienced mild VOD during HCT, which responded to fluid restriction and diuretics. No patients experienced immunotherapy-related grade 3 or grade 4 toxicity.

There were four deaths in the immunotherapy cohort. The causes of death included disease progression on InO in one patient, post-HCT CD19-negative relapse in another patient, and the other two patients succumbed to transplant-related mortality; one died of acute respiratory distress syndrome and another patient succumbed to early disseminated adenoviremia.

Patients diagnosed with refractory ALL inherently exhibit resistance to chemotherapy and those with relapsed ALL acquire resistance during chemotherapy exposure.13 The alternative mechanism of targeting B-cell antigens with antibody-based immunotherapies provides greater opportunities for precision medicine. Clinical trials have shown that using Blina as a bridging regimen before HCT for relapsed B-cell ALL can improve disease-free survival rates.4-8 At a median follow-up of 2 years, the disease-free survival rates for patients who received Blina ranged from 55% to 65%.4, 8 The observations that Blina works better in the MRD setting than in hematological remission, and up to 80% of patients with high tumor burden respond to InO, formed the basis of the protocol.4-11 Notably, no serious side effects were observed in this protocol. Our protocol of consolidating InO response with Blina may also reduce the risk of VOD by allowing more time between InO administration and transplant. Furthermore, exclusive use of Blina in low-burden disease could have abrogated the risk of severe CRS or neurotoxicity.

In parallel to the development of antibody-based immunotherapies, advances in cell-based immunotherapies have occurred.14, 15 Cell-based immunotherapies require significant laboratory expertise and are expensive. In addition, at least 50% of patients relapse after CAR T-cell therapies and not all CAR T-cell therapies yield similar results.14, 16, 17 Allogeneic HCT as a consolidative therapy after CAR T cells offsets the potential benefits of autologous CAR T cells. In contrast, antibody-based therapies are off-the-shelf, manufacture-controlled, and do not require infrastructure, making them a more viable option in regions with emerging healthcare insurance systems.

To conclude, the disease-burden-adapted protocol is a promising strategy for treating r/r pediatric B-ALL as a bridging regimen before HCT. The report underscores the importance of making these immunotherapies accessible on a global scale through collaborative efforts involving governments, nongovernmental organizations, and pharmaceutical initiatives. While the analysis is retrospective, its findings highlight the efficacy and safety of this strategy allowing a greater number of patients to reach potentially curative HCT.

Prashant Hiwarkar conceived the study and analyzed the data. Sanaa Khan, Krishnan VP, Lashkari Harshaprasad, and Purva Kanvinde acquired the data. Sanaa Khan, Krishnan VP, and Prashant Hiwarkar wrote the manuscript. Kunal Sehgal did flow cytometry analysis. Sanaa Khan, Krishnan VP, Yamini Krishnan, Gazel Sainulabdin, Somdipa Pal, Rincy Mathews, Darshan Kataria, Minnie Bodhanwala, Bharat Agarwal, Ambreen Pandrowala, and Prashant Hiwarkar were actively involved in patient care; all authors revised and approved the final manuscript.

The authors declare no conflict of interest.

This research received no funding.

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针对原发性难治性或高危复发儿科急性淋巴细胞白血病的疾病负担适应性免疫疗法方案。
表 1 列出了患者的人口统计学特征、白血病特征和治疗细节。8 名患者为初治难治(4 = 诱导失败,4 = 巩固治疗失败)。11名患者为高危复发白血病患者(2=极早期,4=早期复发,2=晚期复发且复发后诱导MRD≥0.1%,3=二次复发)。复发白血病患者之前接受过三种化疗方案(5 例)、两种化疗方案(5 例)或一种化疗方案(1 例)。19名患者中有5人(26%)患有髓外疾病,3人中枢神经系统阳性,2人睾丸受累。12名患者(5人=原发性难治性;7人=复发性)的MRD从0.008%到4.21%不等(图1A),均接受了Blina单药治疗。Blina周期的中位数为2个(范围:1-3)。7例患者(3例为原发性难治性患者;4例为复发性患者)的疾病负担率从5.34%到78%不等;他们接受了一个周期的InO治疗(图1A)。六名患者对 InO 有反应;三名患者 MRD 阴性,三名患者反应良好。所有六名患者都接受了布利纳巩固治疗,并达到了MRD阴性状态。18名患者(95%)在采用适应疾病负担的方案后达到了MRD阴性状态。16名患者(84%)接受了异基因造血干细胞移植。七名患者接受了单倍体捐献者的移植物,六名患者接受了匹配的非亲属捐献者的造血干细胞移植,三名患者接受了匹配的同胞捐献者的造血干细胞移植。一名患者由于移植前存在慢性副病毒血症、肠道腺病毒脱落和肥胖等高风险因素,没有HLA匹配供体,接受了自体移植。另一名患者同样没有 HLA 匹配的供体,但由于慢性副病毒血症和肠道腺病毒脱落而选择了维持性化疗。免疫治疗后中位随访424天(范围:117-914;图1B,C),有15名患者(77%;95% CI:49.5-90.6)存活并持续处于MRD阴性CR状态。相比之下,在免疫治疗前高风险复发白血病队列中,20 名患者中有一人(5%)无病,中位生存期为 93 天(图 1D;P &lt;0.0001)。免疫治疗前队列与疾病负担适应方案治疗队列的比较见佐证资料 S1:图 1。两名患者(12%)出现 1 级神经毒性,但在短暂停用 Blina 后恢复。一名接受 InO 治疗的患者出现了 1 级 CRS。迄今为止,接受 InO 治疗的六名患者接受了 HCT,只有一名患者在 HCT 期间出现了轻度 VOD,但对液体限制和利尿剂有反应。没有患者出现免疫疗法相关的3级或4级毒性。一名患者死于急性呼吸窘迫综合征,另一名患者死于早期播散性腺病毒血症。以抗体为基础的免疫疗法靶向 B 细胞抗原的替代机制为精准医疗提供了更多机会。临床试验表明,将Blina作为复发B细胞ALL HCT前的桥接方案可提高无病生存率。4-8 在中位随访2年时,接受Blina治疗的患者的无病生存率为55%-65%。我们的方案是用Blina巩固InO反应,这样可以在InO给药和移植之间留出更多时间,从而降低VOD风险。此外,在低负担疾病中完全使用 Blina 可能会降低严重 CRS 或神经毒性的风险。
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HemaSphere
HemaSphere Medicine-Hematology
CiteScore
6.10
自引率
4.50%
发文量
2776
审稿时长
7 weeks
期刊介绍: HemaSphere, as a publication, is dedicated to disseminating the outcomes of profoundly pertinent basic, translational, and clinical research endeavors within the field of hematology. The journal actively seeks robust studies that unveil novel discoveries with significant ramifications for hematology. In addition to original research, HemaSphere features review articles and guideline articles that furnish lucid synopses and discussions of emerging developments, along with recommendations for patient care. Positioned as the foremost resource in hematology, HemaSphere augments its offerings with specialized sections like HemaTopics and HemaPolicy. These segments engender insightful dialogues covering a spectrum of hematology-related topics, including digestible summaries of pivotal articles, updates on new therapies, deliberations on European policy matters, and other noteworthy news items within the field. Steering the course of HemaSphere are Editor in Chief Jan Cools and Deputy Editor in Chief Claire Harrison, alongside the guidance of an esteemed Editorial Board comprising international luminaries in both research and clinical realms, each representing diverse areas of hematologic expertise.
期刊最新文献
Bortezomib before and after high-dose therapy in transplant-eligible patients with newly diagnosed multiple myeloma: Long-term overall survival after more than 10 years of follow-up from the phase III HOVON-65/GMMG-HD4 trial The incidence and clinical significance of monoclonal and oligoclonal protein bands in multiple myeloma patients after BCMA–CAR-T cell therapy: A retrospective study based on LEGEND-2 Monoclonal gammopathy of undetermined significance with multiple paraproteins: A population-based screening study A single-chain variable fragment-based bispecific T-cell activating antibody against CD117 enables T-cell mediated lysis of acute myeloid leukemia and hematopoietic stem and progenitor cells IL-11—An aging-related cytokine with opportunities for regulating hematopoiesis
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