Cytokine Release Syndrome Research Articles

Significant Advancements and Evolutions in Chimeric Antigen Receptor Design

Recent times have witnessed remarkable progress in cancer immunotherapy, drastically changing the cancer treatment landscape. Among the various immunotherapeutic approaches, adoptive cell therapy (ACT), particularly chimeric antigen receptor (CAR) T cell therapy, has emerged as a promising strategy to tackle cancer. CAR-T cells are genetically engineered T cells with synthetic receptors capable of recognising and targeting tumour-specific or tumour-associated antigens. By leveraging the intrinsic cytotoxicity of T cells and enhancing their tumour-targeting specificity, CAR-T cell therapy holds immense potential in achieving long-term remission for cancer patients. However, challenges such as antigen escape and cytokine release syndrome underscore the need for the continued optimisation and refinement of CAR-T cell therapy. Here, we report on the challenges of CAR-T cell therapies and on the efforts focused on innovative CAR design, on diverse therapeutic strategies, and on future directions for this emerging and fast-growing field. The review highlights the significant advances and changes in CAR-T cell therapy, focusing on the design and function of CAR constructs, systematically categorising the different CARs based on their structures and concepts to guide researchers interested in ACT through an ever-changing and complex scenario. UNIVERSAL CARs, engineered to recognise multiple tumour antigens simultaneously, DUAL CARs, and SUPRA CARs are some of the most advanced instances. Non-molecular variant categories including CARs capable of secreting enzymes, such as catalase to reduce oxidative stress in situ, and heparanase to promote infiltration by degrading the extracellular matrix, are also explained. Additionally, we report on CARs influenced or activated by external stimuli like light, heat, oxygen, or nanomaterials. Those strategies and improved CAR constructs in combination with further genetic engineering through CRISPR/Cas9- and TALEN-based approaches for genome editing will pave the way for successful clinical applications that today are just starting to scratch the surface. The frontier lies in bringing those approaches into clinical assessment, aiming for more regulated, safer, and effective CAR-T therapies for cancer patients.

Abstract 4114505: Cardiovascular Adverse Events After Anti-BCMA CAR-T (Ide-Cel and Cilta-Cel) for Relapsed/ Refractory Multiple Myeloma

Introduction: Idecabtagene vicleucel (Ide-Cel) and ciltacabtagene autoleucel (Cilta-cel) are novel CAR-T therapies targeting B-cell maturation antigen (BCMA) and approved for relapsed and refractory multiple myeloma (RRMM). While cardiovascular adverse events (CVAE) are relatively common with CD-19 CAR-T, the incidence of CVAE in the real-world setting for anti-BCMA CAR-T in RRMM is largely unknown. This study aims to determine the incidence of CVAE and its associated risk factors in patients treated with ide-cel and cilta-cel. Method: This single-center retrospective cohort study evaluated RRMM patients treated with ide-cel and cilta-cel from May 2021 to December 2023. We assessed baseline cardiac and oncologic characteristics and clinical outcomes post-CAR-T. Cytokine release syndrome (CRS) and immune cell-associated neurologic syndrome (ICANS) grading followed ASTCT consensus guidelines. Result: A total of 164 RRMM patients treated with ide-cel (N=109) or cilta-cel (N=55) with at least 6 months follow-up were included. The average age was 63 years, and 57% were male. Advanced RRMM stage (R-ISS III) was present in 17% with a median of 6 prior lines of therapy. CRS grade equal or greater than 2 occurred in 22%, and ICANS grade equal or greater than 3 in 6.7%. Twenty patients (12.2%) experienced CVAE, including atrial fibrillation (7.9%), non-sustained ventricular arrhythmia (3.0%), heart failure (3.7%), and cardiovascular death (0.6%). R-ISS III was associated with increased CVAE (52.9% vs. 11.5%; P=0.001). Patients with CVAE had higher baseline ferritin and CRP levels and a higher incidence of CRS grade ≥ 2 (60% vs. 16.7%; P<0.001) and ICANS grade ≥ 3 (20% vs 4.9%; P=0.001). Treatment with tocilizumab, steroids, or anakinra was more common in patients with CVAE. Conclusion: CVAE occurred relatively frequently following BCMA CAR-T therapy, with high-grade CRS identified as a consistent risk factor. Most CVAEs were manageable with appropriate supportive care, including careful observation and active treatment of CRS.

CTIM-02. PIONEERING QUAD-TARGETING CAR T CELL THERAPY IN PEDIATRIC CNS TUMORS – ANALYSIS FROM THE INITIAL PATIENTS TREATED ON THE FIRST-IN-HUMAN PHASE 1 TRIAL BRAINCHILD-04

Abstract BACKGROUND BrainChild-04 is a first-in-human clinical trial of quad-chimeric antigen receptor (CAR) T cell therapy for children and young adults with central nervous system (CNS) tumors. This trial administers repeated locoregional CAR T cells targeting B7-H3, EGFR, HER2, and IL-13Ralpha2 (“quad-CAR T cells”), leveraging multi-antigen targeting to address the tumor heterogeneity of high-grade CNS tumors. METHODS The primary endpoints are feasibility and safety, and secondary endpoints are disease response and correlative studies of CAR T cell activity. The trial utilized a Bayesian Optimal Interval (BOIN) statistical design with three planned dose regimens(DR). There are 2 arms with weekly delivery for 3 weeks of a 4-week cycle:(A) –diffuse intrinsic pontine glioma (DIPG), (B) –non-pontine diffuse midline glioma (DMG) or other relapsed CNS tumors. RESULTS Enrolled patients include DMG N=6, DIPG N=5, other CNS tumors N=4. Of the 15 enrolled patients, 7 have been infused with 8 awaiting infusions. A total of 33 intracranial CAR T doses have been delivered, including Arm A DR 1 (N=1), Arm B DR 1 (N=3), DR2 (N=3). The most common adverse events have been grade 1-2 fever (7/7 patients), grade 1-3 headache (6/7), and grade 1-2 nausea/vomiting (6/7). There have been no DLTs and no cytokine release syndrome (CRS) or immune effector cell-associated neurotoxicity (ICANS). CTCAE and tumor inflammation-associated neurotoxicity are both being captured. All treated patients are alive with median follow up time post-initial infusion of 93(14-198) days. CAR T cells were detected by flow cytometric analysis of CSF post-infusion in 14/24 CSF samples. Radiographic response, CSF circulating tumor DNA, targeted mass spectrometry, and cytokine analysis will be presented. CONCLUSIONS Our preliminary experience suggests tolerability of locoregional delivery of quad-CAR T cells at doses currently evaluated. The trial remains ongoing and these data support continued evaluation of this product to better assess anti-tumor activity in patients with CNS tumors, including DIPG/DMG.

CTIM-09. INB-200: FULLY ENROLLED PHASE 1 STUDY OF GENE-MODIFIED AUTOLOGOUS GAMMA-DELTA (ΓΔ) T CELLS IN NEWLY DIAGNOSED GLIOBLASTOMA MULTIFORME (GBM) PATIENTS RECEIVING MAINTENANCE TEMOZOLOMIDE (TMZ)

Abstract IN8bio’s DeltEx drug resistant immunotherapy (DRI), comprising TMZ-resistant γδ T cells engineered to express methylguanine-DNA methyltransferase (MGMT), enables γδ T cells to target upregulated NKG2D ligands on tumor cells in real time during alkylating chemotherapy exposure. Updated results from the fully enrolled Phase 1 trial evaluating DRI in adult newly diagnosed GBM subjects with IDH wild type and mutant tumors, adequate organ function and KPS ≥ 70%. Cohorts (C) 1, 2 and 3 received 1, 3 or 6 doses (1 x 107 DRI cells/dose) into the resection cavity with 150 mg/m2 of IV TMZ on Day 1 of each of 6 Stupp maintenance cycles. The primary endpoint is safety and secondary endpoints include survival; immunologic correlative analyses are included. Dose limiting toxicities (DLTs) are defined as treatment related ≥ grade (G) 3 cardiopulmonary or hepatic toxicity, G4 toxicity exceeding 72 hours or neurologic deterioration that exceeds 2 weeks. A total of 23 subjects were enrolled and 13 dosed (61% male; median age 68 (range: 21-74); 92% IDH-WT, 54% MGMT unmethylated). No DLTs, cytokine release syndrome (CRS), neurotoxicity (ICANS) or treatment related deaths were reported. The most common adverse events were decreased WBC/platelet count, asthenia, fatigue, hydrocephalus, headache, decreased appetite, urinary tract infection, thrombosis and balance disorder with ≥G3 platelet count decreased in 23% and WBC/ neutrophil/ lymphocyte count decreased in 7.7% each. Peripheral TMZ-based lymphodepletion was maintained for up to 1 year evidenced by near or below normal range T, B, and NK subsets. With median follow-up of 10.8 months, 83% of subjects exceeded the median 7 month Progression Free Survival (PFS) of the Stupp regimen alone, had manageable toxicity with a continued encouraging trend in PFS. Subject with IDH mutant tumor remains progression free for > 35 months. Long-term follow-up for durability of PFS and OS continues.

RADT-39. CENTRAL NERVOUS SYSTEM BRIDGING RADIOTHERAPY (CNS-BRT) ACHIEVES RAPID CYTOREDUCTION PRIOR TO CAR T-CELL THERAPY FOR AGGRESSIVE B-CELL LYMPHOMAS

Abstract BACKGROUND CAR T-cell therapy (CART) for central nervous system lymphoma (CNSL) is a promising strategy, yet responses are frequently not durable. Bridging radiotherapy (BRT) is used for extra-cranial lymphoma to improve CART outcomes through cytoreduction of high-risk lesions. We hypothesized that CNS-BRT would achieve similar, significant cytoreduction prior to CART for CNSL. METHODS We analyzed CNSL patients with non-Hodgkin B-cell lymphomas who received CNS-BRT prior to commercial CART. Best CNS response post-CART was evaluated using the International Primary CNS Lymphoma Collaborative Group (IPCG) or RANO for parenchymal or leptomeningeal lesions, respectively. Cytoreduction from CNS-BRT was calculated as change in lesion size prior to CART. RESULTS Twelve patients received CNS-BRT, with median follow up of 11.8m (IQR: 8.5–21.9). Ten had CNSL (9 secondary, 1 primary) and 2 patients had epidural disease (evaluable for toxicity). All ten CNSL patients had progressive disease at the time of CNS-BRT. RT targets included whole brain (n=3), involved site (partial) brain (n=4), involved site spine (n=4), and orbits (n=1) with median dose 24Gy (range: 15-33). 1/12 patients experienced grade ≥3 cytokine release syndrome (CRS), and 3/12 patients experienced grade ≥3 immune effector cell-associated neurotoxicity syndrome (ICANS). CNS-BRT achieved a 74.0% (95%CI: 62.0–86.0) mean reduction in lesion size from baseline (p=0.014) at a median of only 12d from BRT completion and pre-CART infusion. Best CNS response included 8 complete responses (CR), 1 partial response (PR), and 1 progressive disease (PD). Three patients experienced CNS relapse outside the BRT field for a 12-month estimated risk of CNS progression post-CART of 20.0% (95%CI: 3–49). CONCLUSIONS Early data suggest CNS-BRT achieves rapid cytoreduction and favorable CNS response. The rates of severe CRS/ICANS were similar to comparison series of CNSL patients treated with CART without BRT suggesting an acceptable safety profile. Our data support further study of BRT as a bridging strategy for CNSL-directed CART.

CTIM-01. OUTCOMES AND IMMUNE RESPONSES AFTER PEPTIDE VACCINATION TARGETING HUMAN CYTOMEGALOVIRUS ANTIGEN PP65 IN CHILDREN AND YOUNG ADULTS WITH RECURRENT HIGH-GRADE GLIOMA AND MEDULLOBLASTOMA: RESULTS OF A PHASE 1 TRIAL

Abstract INTRODUCTION The human cytomegalovirus (CMV) antigen pp65 is ubiquitously expressed in high-grade glioma (HGG) and medulloblastoma but not in adjacent brain. The primary objective of this phase I trial (NCT03299309) was to assess the safety and feasibility of a novel peptide vaccine targeting pp65 (PEP-CMV) in children/young adults with recurrent medulloblastoma and HGG. METHODS PEP-CMV is comprised of a synthetic long peptide of 26 amino acids and is administered as an emulsion in Montanide ISA 51. Patients receive a 5-day course of temozolomide to induce lymphopenia, tetanus/diphtheria toxoid site preconditioning to promote dendritic cell migration, then PEP-CMV intradermally in the groin every two weeks for 3 doses, then monthly. RESULTS 42 patients were enrolled. The mean age was 23.2 ± 9.3 years. 55% of patients were male. The median KPS was 80. The median number of prior chemotherapy regimens was 4 (range 1-15). Of the 38 patients who received PEP-CMV, the maximum grade adverse events (AE) possibly, probably, or definitely related to PEP-CMV were: 17 (45%) Grade 1 AEs, 16 (42%) Grade 2 AEs, 2 (5%) Grade 3 AEs (encephalopathy and pyramidal tract syndrome), and one (3%) Grade 4 AE (cerebral edema). One patient developed cytokine release syndrome (Grade 2). The median PFS was 2.5 months (95% CI:2.2, 3.2) and median OS was 6.4 months (95% CI:3.4, 7.9). The 12-month OS was 26.6% (95% CI:14, 41.1%). Of the 21 patients with evaluable immune monitoring data (received ≥3 vaccines/known CMV status), T cell reactivity on IFNγ pp65 ELISpot was increased after PEP-CMV delivery (median 2 vs 22, P=0.01). PFS and OS were significantly better in patients with low levels of CD56brightCD16dim phenotype NK cells: P=0.029 and P=0.047, respectively. Patients with naïve CD8+ counts over the median had significantly better PFS (P=0.006). CONCLUSIONS PEP-CMV is well-tolerated and elicits an antigen-specific immune response in heavily pretreated, multiply recurrent patients with a 12-month OS of 26.6%.

CTIM-04. MODULATION OF THE INTRATUMORAL IMMUNE MICROENVIRONMENT BY LOCAL THERAPY WITH NATURAL KILLER CELLS ENGINEERED WITH A HER2-TARGETED CHIMERIC ANTIGEN RECEPTOR IN COMBINATION WITH SYSTEMIC ANTI-PD-1 CHECKPOINT INHIBITION IN PATIENTS WITH RECURRENT GLIOBLASTOMA

Abstract Glioblastoma (GB) is characterized by a marked immunosuppressive tumor microenvironment. In the multicenter CAR2BRAIN phase I first-in-human clinical trial, we investigated the modulation of the tumor microenvironment by repetitive local injection of clonal chimeric antigen receptor (CAR)-NK cells (NK-92/5.28.z) targeting HER2 alone and in combination with systemic anti-PD-1 checkpoint inhibitor therapy in patients with recurrent HER2-positive GB. 6 patients were treated with repetitive doses of CAR-NK cells as monotherapy and 12 patients received a combination therapy with the anti-PD-1 checkpoint inhibitor ezabenlimab. In three of those, we were able to implement a biopsy-treat-resect-treat strategy. After initial biopsy, combination treatment was initiated before planned tumor resection, enabling analysis of the transformation of the tumor immune microenvironment by highplex multispectral fluorescent analyses and cytokine quantification. None of the patients developed a cytokine release syndrome or immune effector cell-associated neurotoxicity syndrome. Profound alterations of the immune cell distribution in the cerebrospinal fluid (CSF) and in the tumor were observed. In CSF sampled from the resection cavity, combination immunotherapy induced a local immune response with elevated pro-inflammatory cytokines and cell counts. In post-treatment tissue samples, we observed an increase of CD4+ and CD8+ T cells, and a decrease of regulatory CD4+FoxP3+ T cells. The three patients treated following the biopsy-treat-resect-treat strategy achieved a median progression-free survival (PFS) of 24 weeks, compared to 10 weeks for patients with upfront resection. Local immunotherapy with HER2-targeted CAR-NK cells is feasible and safe both as monotherapy and in combination with the systemic checkpoint inhibitor ezabenlimab and induces local immune reactions in CSF and tumor tissue. Given the signal for possible clinical benefit provided by the increase in PFS in the patients of the biopsy-treat-resect-treat cohort, further trials are warranted.

INNV-30. TOXICITIES AND OUTCOME AFTER CD19-DIRECTED CHIMERIC ANTIGEN RECEPTOR T-CELL THERAPY FOR NEUROLYMPHOMATOSIS

Abstract BACKGROUND Lymphomatous infiltration of the peripheral nervous system (PNS), termed neurolymphomatosis, represents a distinct extranodal non-Hodgkin lymphoma variant with dismal outcome. CD19-directed chimeric antigen receptor (CD19-CAR) T-cell therapy has emerged as a safe and effective treatment for B-cell lymphomas. We aimed to assess toxicity and efficacy of CD19-CAR T-cells in neurolymphomatosis. METHODS Neurolymphomatosis treated with CD19-CAR T-cells were retrospectively identified at Massachusetts General Hospital over a six-year period. Toxicities were graded according to the ASTCT classification. Management, and response rates were recorded. RESULTS Eleven neurolymphomatosis cases, who had received a median 2 prior PNS-directed treatments (range: 1-3) before CD19-CAR T-cell exposure, were identified. Neurolymphomatosis localized to the nerve roots (8/11, 73%), plexus (5/11, 45%), peripheral (4/11, 36%) and cranial nerves (5/11, 45%). Low grade cytokine release syndrome was detected in 8/11 (73%; grade 1: N = 7; grade 2: N =1) cases. Low- and high-grade immune cell-associated neurotoxicity syndrome were recorded in 5/11 (45%; grade 1: N = 4; grade 2: N = 1) and 1/11 (9%; grade 4) patients, respectively. Seven of eleven neurolymphomatosis patients (64%) responded to CD19-CAR T-cells. Complete remissions were achieved in three cases (27%), of which two are still sustained now 9 and 46 months after CD19-CAR T-cell infusion. All radiographic responses were associated with remission of neurological symptoms. CONCLUSIONS CD19-CAR T-cell treatment was well tolerated and yielded promising efficacy in recurrent neurolymphomatosis, a difficult to treat condition with unmet medical need. Findings suggest that CD19-CAR may sufficiently penetrate the blood-nerve barrier, and toxicity and outcomes were overall similar to CAR-T cell therapy in CNS lymphoma.

Infusion Reactions to Infliximab in Pediatric Patients with Inflammatory Bowel Disease

Infliximab (IFX) is a recombinant DNA-derived chimeric IgG monoclonal antibody protein that inhibits tumor necrosis factor alpha (TNF-α). IFX, like other agents derived from foreign proteins, can cause infusion reactions both during and after the infusion. The incidence of infusion reactions ranges between 0% and 15% in pediatric patients. The potential underlying mechanisms for these reactions may include anaphylaxis and anaphylactoid reactions, cytokine release syndrome, serum sickness-like reactions, and the development of antibodies against IFX. Several precautions can help reduce the risk of a new infusion reaction, such as a gradual increase in the infusion rate, scheduled infusions, and administering premedication or immunomodulators alongside IFX. Acute mild to moderate reactions often resolve spontaneously after a temporary cessation of the infusion or reduction in the infusion rate. Strategies like graded dose challenges and premedication can be utilized to prevent recurrence. In cases of severe reactions, desensitization or switching to an alternative biologic may be considered. This article aims to review the most recent guidelines for managing IFX-related infusion reactions in pediatric patients with inflammatory bowel disease (IBD), relying on the best available evidence.

Application of CAR-T cell therapy in B-cell lymphoma: a meta-analysis of randomized controlled trials.

This study aims to compare the efficacy and safety of chimeric antigen receptor T-cell (CAR-T) immunotherapy with standard treatment for B-cell lymphoma, providing evidence-based support for the more efficient use of CAR-T cell immunotherapy. We conducted a comprehensive literature search of high-quality randomized controlled trials (RCTs) on CAR-T therapy for B-cell lymphoma in the following databases: Wanfang, Web of Science, CNKI, VIP database, and PubMed, up to February 2024. The outcome measures included objective remission rate (ORR), complete remission rate (CRR), and incidence of adverse reactions. Subgroup analysis was performed based on the differences in co-stimulatory domains. Meta-analysis was conducted using Review Manager 5.4 and Stata software. A total of five RCTs involving 1670 patients were included in this meta-analysis. The results showed that the CAR-T treatment group had significantly higher ORR (RR: 1.47, 95% CI 1.23-1.76, I2 = 80%, p < 0.0001), CRR (RR: 2.19, 95% CI 2.16-3.79, I2 = 93%, p = 0.005), cytokine release syndrome (CRS) incidence (RR: 34.51, 95% CI 2.27-523.78, I2 = 98%, p = 0.01), neurotoxicity (NT) incidence (RR: 6.00, 95% CI 1.82-19.75, I2 = 80%, p = 0.003), neutropenia incidence (RR: 1.39, 95% CI 1.02-1.88, I2 = 93%, p = 0.03), leukopenia incidence (RR: 1.39, 95% CI 1.04-1.87, I2 = 61%, p = 0.03), and headache incidence (RR: 1.56, 95% CI 1.25-1.95, I2 = 34%, p < 0.0001) compared to the standard treatment group. Subgroup analysis based on co-stimulatory domains revealed that the 4-1BB subgroup had higher incidences of CRR, CRS, NT and leukopenia than the CD28 subgroup; however, the CD28 subgroup exhibited higher ORR and neutropenia than the 4-1BB subgroup. CAR-T cell immunotherapy demonstrates superior efficacy compared to standard therapy in treating B-cell lymphoma. However, CAR-T treatment can lead to adverse reactions such as CRS and NT. Infusion of an appropriate dose of CAR-T cells (e.g., 100 × 106) may be a strategy to mitigate the risk of CRS and NT.

Efficacy and safety of teclistamab in relapsed or refractory multiple myeloma: a systematic review and meta-analysis.

To synthesize the evidence on the efficacy and safety of teclistamab in treating relapsed/refractory multiple myeloma (RRMM). A systematic search for records published from inception until June 2024 was conducted on PubMed, Web of Science, EMBASE, and Google Scholar databases. Five studies with 661 RRMM patients were included in the analysis. The pooled results showed that teclistamab led to an overall response rate (ORR) of 62.8% (95% Confidence Interval (CI): 58.6-66.8), a ≥ very good partial response or better (VGPR) of 52.1% (95% CI: 46.8-57.3), and a ≥ complete response or better (CR) of 29.5% (95% CI: 21.9-38.4). When the ORR was assessed in different subgroups, we found that patients with extramedullary disease (EMD) had considerably lower ORR than those without EMD (45% vs. 71%, p < 0.0001). The ORR was significantly lower in patients with prior (B-cell maturation antigen) BCMA-directed therapy (OR: 2.24, p = 0.002) and those with stage III disease (OR: 3.69, p = 0.0001). However, the subgroup analyses showed no considerable difference in the ORR between patients with high or standard-risk cytogenetics (OR: 1.05 p = 0.82) and those with penta-drug or triple-class-refractory disease (OR: 0.97 p = 0.89). Regarding the safety of teclistamab, the pooled results showed that the incidence of grade ≥ 3 adverse events was high (90.7%). However, grade ≥ 3 cytokine release syndrome (CRS) and neurotoxic events were low (1.5% and 2.2%, respectively). RRMM patients treated with teclistamab display good response rates.

Equecabtagene Autoleucel in Patients With Relapsed or Refractory Multiple Myeloma

Equecabtagene autoleucel (eque-cel), a fully human-derived B-cell maturation antigen-targeting chimeric antigen receptor (CAR) T-cell therapy, has exhibited potential for the treatment of relapsed or refractory multiple myeloma (RRMM), and further investigation in a larger cohort is necessary. To evaluate whether eque-cel can benefit patients with RRMM and determine the overall response rate postinfusion. The FUMANBA-1 trial was a single-arm, open-label, phase 1b/2 trial that evaluated eque-cel in adult patients with RRMM. Enrollment began in April 2020, and patients who received eque-cel will be monitored for a minimum of 15 years following the infusion. As of September 2022, patients with heavily pretreated RRMM who received at least 3 prior courses of therapy from 14 centers were enrolled. Data were analyzed from April 2020 to September 2022. Patients received a single infusion of eque-cel at 1.0 × 106 CAR-positive T cells/kg after the lymphodepletion. Efficacy was the primary objective, and safety, pharmacokinetics, and pharmacodynamics were secondary objectives. Of 103 patients who received an eque-cel infusion, 55 (53.4%) were male, and the median (range) age was 58 (39-70) years. A total of 101 patients were evaluable for efficacy. At a median (range) follow-up of 13.8 (0.4-27.2) months, the overall response rate was 96.0% (97 of 101), with 74.3% (75 of 103) achieving a complete response or better. Among the 12 patients who had prior CAR T-cell treatment, 75% (9 of 12) achieved a response. The median progression-free survival was not reached, with a 12-month progression-free survival rate of 78.8% (95% CI, 68.6-86.0). A total of 96 patients (95.0%) achieved minimal residual disease negativity at a sensitivity threshold of 10-5. Adverse events were favorable: 96 of 103 patients (93.2%) experienced cytokine release syndrome (grade 1 to 2 in 95 patients [92.3%]) and 2 (1.9%) experienced immune effector cell-associated neurotoxicity syndrome (grade 1 to 2). All cases of immune effector cell-associated neurotoxicity syndrome and 94 of 96 cases of cytokine release syndrome resolved with treatment. Additionally, only 20 patients (19.4%) developed antidrug antibodies. Cellular kinetic analysis confirmed CAR-positive T cells in all patients, with the longest duration at 735 days. In this trial, eque-cel led to early, deep, and durable responses in patients with heavily pretreated RRMM with a manageable safety profile. Patients with prior CAR T-cell therapy also benefitted from eque-cel. Chinese Clinical Trial Registry Identifier: ChiCTR2000033946.

Acute kidney injury in hematological patients treated with CAR-T cells: risk factors, clinical presentation and impact on outcomes.

Chimeric antigen receptor T-cell (CAR-T) therapy has revolutionized the treatment of hematologic malignancies, yet it carries significant risks, including acute kidney injury (AKI). In this study, we investigated the risk factors and clinical impact of AKI in patients undergoing CAR-T cell therapy. This retrospective study involved hematologic patients treated with CAR-T therapy. Clinical and laboratory data were collected, and clinical outcomes were monitored during follow-up after CAR-T infusion. AKI was defined according to KDIGO criteria. The outcome measures included early mortality, overall survival (OS), and disease-free survival (DFS). Among the 48 patients analyzed, 14 (29%) developed AKI, with a mean onset of 6 days after CAR-T infusion. The risk of AKI was associated with baseline performance status (OR 8.65, IC95% 6.2-12, p = 0.032) and the development of severe cytokine release syndrome post-therapy (OR 16.4 95%CI 1.9-138.5, p = 0.01). Patients with AKI more frequently required intensive care. Furthermore, severe AKI was independently associated with worse clinical outcomes, including reduced OS and DFS (HR 18.2, 95%CI 2.6-27.3, p = 0.003). Additionally, patients who developed AKI post-CAR-T therapy were more likely to progress to chronic kidney disease during follow-up. In conclusion, frail patients undergoing CAR-T therapy are at an increased risk of developing AKI, which can significantly affect both short- and long-term outcomes. Preventive strategies and early recognition of AKI are essential in these patients.

Recommendations for the timing, dosage, and usage of corticosteroids during cytokine release syndrome (CRS) caused by chimeric antigen receptor (CAR)-T cell therapy for hematologic malignancies.

Recommendations for the timing, dosage, and usage of corticosteroids during cytokine release syndrome (CRS) caused by chimeric antigen receptor (CAR)-T cell therapy for hematologic malignancies.

Fluctuation of physical function during chimeric antigen receptor T‐cell therapy during rehabilitation intervention: Real‐world data and risk factor analyses

AbstractIntroductionPatients undergoing chimeric antigen receptor (CAR) T‐cell therapy face prolonged treatment timelines and are prone to cytokine release syndrome (CRS) and immune effector cell‐associated neurotoxicity syndrome (ICANS) after infusion. Disabilities in physical function and the importance of rehabilitation during CAR‐T‐cell therapy to maintain physical function have been poorly documented.MethodWe performed a retrospective cohort study to assess changes in exercise tolerance via differences in a 6‐min‐walking distance (Δ6MWD) and factors influencing it.ResultsA total of 77 patients who underwent rehabilitation during CAR‐T‐cell therapy were enrolled, and their 6MWD was 450 m (median, range 180–705 m) before and 450.5 m (107.0–735.0 m) 30 days after CAR‐T treatment. No significant alteration in Δ6MWD was observed overall (11.0 m, 95% confidence interval, −56.1 to 88.2 m). Multiple regression analyses indicated that age (over vs. under 65 years) revealed no notable differences in Δ6MWD (20 vs. 10 m), while ΔHb (β = 0.24, p = 0.03), moderate/severe CRS (grade 1 with continuous fever or grade ≥2; β = −0.25, p = 0.03), and ICANS (any grade; β = −0.22, p = 0.04) were significantly associated with lower Δ6MWD.ConclusionThis real‐world study indicated that CAR‐T‐cell therapy is less likely to reduce physical function even in older patients if rehabilitation is properly performed, whereas CRS and ICANS can be risk factors to deprive exercise tolerance.

Factors Associated With Infusion Reactions in Patients With Breast Cancer Receiving Trastuzumab.

Trastuzumab (TRA) is a key drug in human epidermal growth factor receptor type 2 (HER2)-positive breast cancer treatment. Infusion reactions (IR) with TRA are frequently observed in practice. Although the efficacy of premedication has been previously reported, it remains uncommon. The probability of severe IR due to TRA is low; however, when it does occur, it is associated with patient discomfort and expenditure of medical resources. This study aimed to analyze the factors associated with the occurrence of IR in patients with breast cancer who received TRA. We retrospectively studied 204 patients who underwent TRA for breast cancer treatment between September 2008 and June 2023, identifying factors influencing the occurrence of IR at the time of TRA administration. A total of 182 patients were included in this study, and the incidence of IR was 25.8% (47/182 patients). Multiple logistic regression analysis showed that pertuzumab (PER) use, high alkaline phosphatase (ALP), and low high-density lipoprotein (HDL) cholesterol levels were associated with IR. IR should be considered when PER is combined with TRA. ALP and HDL cholesterol levels may be predictive markers of TRA-induced IR in patients with breast cancer.

Timeline and outcomes of viral and fungal infections after Chimeric Antigen Receptor (CAR) T-cell therapy: A large database analysis

ObjectivesThis large database analysis aims to describe the incidence, timeline, and risk factors for viral and fungal infections after chimeric antigen receptor (CAR) T-cell therapy. MethodsWe queried a global research network database, TriNetX, for patients who received CAR T-cell therapy, who were identified and followed for the development of viral and fungal infections. Baseline demographic, oncologic history, laboratory data and medication histories were collected. We evaluated risk factors for respiratory viral infections (RVI), herpesvirus, fungal infections and mortality using Cox regression. ResultsA total of 2,256 patients who received CAR T-cell therapy were included, 1,867 (82.7%) were CD19-targeted and 400 (17.7%) were BCMA-targeted. Following CAR T-cell infusion, RVI were the most prevalent (23.3%) with a median onset of 160 days (IQR 52-348 days), while herpesvirus and fungal infections were less frequent, occurring in 13.6% and 11.4% of cases with median onsets of 71 (IQR 18-252) and 73 days (IQR 14-236 days), respectively. On multivariable Cox regression, independent predictors of RVI included acute lymphoblastic leukemia (ALL, HR 1.61), prior hematopoietic cell transplant (HCT, HR 1.29), cytokine release syndrome (CRS, HR 1.41), hemophagocytic lymphohistiocytosis (HLH, HR 1.96), and glucocorticoids (HR 3.37). Prior HCT (HR 2.00), hypogammaglobulinemia (HR 1.51), immune-effector cell-associated neurotoxicity syndrome (ICANS, HR 1.52), and HLH (HR 1.99) were associated with a higher risk of herpesviruses. Independent predictors of fungal infections included prior HCT (HR 1.59), CRS (HR 1.58) and hypogammaglobulinemia (HR 1.40). Idecabtagene vicleucel was associated with a lower risk of herpesvirus and fungal infections (HR 0.39 and 0.44, respectively). ConclusionsIn a large cohort of CAR T-cell therapy recipients, respiratory viral infections were the most common but occurred later, while herpesvirus and fungal infections were less frequent but occurred earlier. Prospective studies investigating prophylaxis and pre-emptive monitoring strategies are needed in this population.

Harnessing Chimeric Antigen Receptor-engineered Invariant Natural Killer T Cells: Therapeutic Strategies for Cancer and the Tumor Microenvironment.

Chimeric antigen receptor (CAR)-engineered T (CAR-T) cell therapy has emerged as a revolutionary approach for cancer treatment, especially for hematologic cancers. However, CAR-T therapy has some limitations, including cytokine release syndrome (CRS), immune cellassociated neurologic syndrome (ICANS), and difficulty in targeting solid tumors and delivering allogeneic cell therapy due to graft-versus-host disease (GvHD). Therefore, it is important to explore other cell sources for CAR engineering. Invariant natural killer T (iNKT) cells are a potential target, as they possess powerful antitumor ability and do not recognize mismatched major histocompatibility complexes (MHCs) and protein antigens, thus avoiding the risk of GvHD. CAR-engineered iNKT (CAR-iNKT) cell therapy offers a promising new approach to cancer immunotherapy by overcoming the drawbacks of CAR-T cell therapy while retaining potent antitumor capabilities. This review summarizes the current CAR-iNKT cell products, their functions and phenotypes, and their potential for off-the-shelf cancer immunotherapy.

Novel therapeutic effects of rifaximin in combination with methylprednisolone for LPS-induced ‎oxidative stress and inflammation in mice‎: ‎an in vivo study

Cytokine-releasing syndrome (CRS) is a special form of ‎‎systemic inflammatory response syndrome provoked by ‎factors ‎like viral infections and certain immunomodulatory drugs.‎ To elucidate the potential ‎role of rifaximin (RIF) and its combination with methylprednisolone (MP) against the development and ‎progression of CRS in ‎mice.‎ This experiment consists of two parts: protective and therapeutic interventions. The protective experiment: in the induction group, mice received an intraperitoneal injection (IP) of 5mg/kg lipopolysaccharide (LPS) without intervention. The other group received various drugs before the induction by three days, then observed for an additional two days (50mg/kg MP, 50mg/kg RIF, and a combination of 25mg/kg RIF with 25mg/kg MP. The second part of the study involves the therapeutic potential; all groups received similar doses of drugs to that received in the prevention groups, except LPS induction was given first, and after one hour, the mice received daily doses of the drugs for five days. At the end of the experiment, blood and tissue samples were obtained. Mice treated with RIF and its combination with MP showed improved serum TNF-α, IL-6, IL-8, IL-1β, INF-γ, MDA, and GSH in both prevention and therapeutic groups. Histopathologically, mice treated with rifaximin and its combination with MP ameliorates the tissue damage in both lung and liver tissues following LPS induction. In conclusion, rifaximin showed protective and therapeutic effects in LPS-induced cytokine storms in mice through anti-inflammatory and antioxidant mechanisms, and its combination with methylprednisolone showed additive/ synergistic action.

Exposure-biomarker analyses for cytokine release syndrome or infusion-related reaction, pain, and cytokine concentrations in serum during treatment with ubamatamab, a MUC16xCD3 bispecific antibody, among patients with recurrent ovarian cancer

Exposure-biomarker analyses for cytokine release syndrome or infusion-related reaction, pain, and cytokine concentrations in serum during treatment with ubamatamab, a MUC16xCD3 bispecific antibody, among patients with recurrent ovarian cancer