Axicabtagene ciloleucel as second-line therapy in large B cell lymphoma ineligible for autologous stem cell transplantation: a phase 2 trial

Axicabtagene ciloleucel (axi-cel) demonstrated superior efficacy compared to standard of care as second-line therapy in patients with high-risk relapsed/refractory (R/R) large B cell lymphoma (LBCL) considered eligible for autologous stem cell transplantation (ASCT); however, in clinical practice, roughly half of patients with R/R LBCL are deemed unsuitable candidates for ASCT. The efficacy of axi-cel remains to be ascertained in transplant-ineligible patients. ALYCANTE, an open-label, phase 2 study, evaluated axi-cel as a second-line therapy in 62 patients with R/R LBCL who were considered ineligible for ASCT. The primary end point was investigator-assessed complete metabolic response at 3 months from the axi-cel infusion. Key secondary end points included progression-free survival, overall survival and safety. The study met its primary end point with a complete metabolic response of 71.0% (95% confidence interval, 58.1–81.8%) at 3 months. With a median follow-up of 12.0 months (range, 2.1–17.9), median progression-free survival was 11.8 months (95% confidence interval, 8.4–not reached) and overall survival was not reached. There was no unexpected toxicity. Grade 3–4 cytokine release syndrome and neurologic events occurred in 8.1% and 14.5% of patients, respectively. These results support axi-cel as second-line therapy in patients with R/R LBCL ineligible for ASCT. ClinicalTrials.gov Identifier: NCT04531046.

Large B cell lymphoma (LBCL) is successfully treated in approximately two-thirds of patients with rituximab-based chemoimmunotherapy 1,2 .Until recently, the standard of care (SOC) for second-line therapy consisted of salvage chemoimmunotherapy followed, if possible, by consolidation with high-dose chemotherapy (HDCT) and autologous stem cell transplantation (ASCT) in fit and responding patients 3 .However, patients who are primary refractory or who relapse early after a rituximab-containing first-line therapy, notably within a year from initial therapy, have a poor prognosis with standard salvage chemoimmunotherapy [4][5][6] .The recent advent of chimeric antigen receptor (CAR)-T cell therapy has led to an important paradigm shift in the management of these patients with high-risk relapsed/refractory (R/R) LBCL [7][8][9][10] .
In patients with high-risk R/R LBCL considered eligible for ASCT, axicabtagene ciloleucel (axi-cel), an autologous anti-CD19 CAR-T cell therapy, demonstrated superior efficacy over the SOC as a second-line therapy in the ZUMA-7 trial 8 .In this international, phase 3 trial, patients intended for transplant were randomized to receive either a single infusion of axi-cel after fludarabine and cyclophosphamide lymphodepleting chemotherapy or SOC consisting of two or three cycles of chemoimmunotherapy followed by HDCT/ASCT in patients who achieved a complete or partial remission.At a median follow-up of 24.9 months, axi-cel demonstrated superior efficacy compared to SOC, with an estimated median event-free survival (EFS) of 8.3 versus 2.0 months, respectively (P < 0.001) 8 .Moreover, at a median follow-up of 47.2 months, set (FAS).Of these 69 patients, 62 (89.8%) received a single axi-cel infusion between 26 April 2021 and 16 June 2022 and were consequently included in the modified full analysis set (mFAS).There were five important protocol deviations from inclusion criteria: three related to a relapsed disease occurring beyond 12 months from completion of first-line chemoimmunotherapy and two related to patients with a histological diagnosis of grade 1-3A follicular lymphoma after central review.The patient disposition flow diagram is shown in Fig. 1.The study design is summarized in Extended Data Fig. 1.Overall, seven patients underwent leukapheresis but did not receive axi-cel infusion because of disease progression (n = 1), investigational medicinal product out of specification (n = 1), CMR before axi-cel infusion (n = 1) based on the investigator's assessment, absence of documented relapse on biopsy before axi-cel infusion (n = 1), consent withdrawal (n = 1), occurrence of cutaneous nocardiosis (n = 1) and lymphoma-related death (n = 1) (Fig. 1).At the data cutoff date of 19 January 2023, median time between study inclusion and axi-cel infusion was 41.5 days (interquartile range (IQR), 38.0-48.0)and median follow-up duration from axi-cel infusion was 12.0 months (IQR, 9. 1-12.6).
The demographics and disease characteristics of patients in the mFAS (N = 62) are summarized in Table 1.Median age was 70 years (range, 49-81), 15 patients (24.2%) were female and 35 patients (56.5%) had an international prognostic index (IPI) of 3 or higher.Almost all patients had an Eastern Cooperative Oncology Group (ECOG) overall survival (OS) was superior in the axi-cel arm compared to the SOC (median not reached versus 31.1 months, respectively; P = 0.03) 11 .
In clinical practice, about half of patients with R/R LBCL are considered ineligible for HDCT/ASCT 3 .This population has not been evaluated in the ZUMA-7 trial 8 .Several factors may preclude patients from receiving HDCT/ASCT including advanced age, frailty and coexisting medical conditions 12 .Furthermore, patients who have undergone a previous ASCT as first-line consolidation are usually considered ineligible for a second ASCT 12 .
The prognosis of patients with R/R LBCL who are ineligible for HDCT/ASCT is usually poor with standard salvage chemoimmunotherapy 6,13 .Typical therapeutic choices within this context encompass rituximab, gemcitabine and oxaliplatin (R-GemOx) 14 ; polatuzumab vedotin plus bendamustine and rituximab (Pola-BR) 15 ; and tafasitamab plus lenalidomide (Tafa-Len) 16 .The R-GemOx regimen is one of the most widely used because of its acceptable tolerability.The real-world use of R-GemOx was evaluated in a large retrospective analysis of 196 patients with R/R LBCL who were not eligible for HDCT/ASCT 6 .At a median follow-up of 22 months, R-GemOx demonstrated modest efficacy, with a complete response rate of 33% and median progression-free survival (PFS) and OS of 5 and 10 months, respectively 6 .Patients who were refractory or who relapsed within 1 year after first-line chemoimmunotherapy with rituximab, cyclophosphamide, doxorubicin, vincristine and prednisone (R-CHOP) (n = 60) had a particularly poor prognosis when treated with second-line R-GemOx, with a complete response rate of 12% and a PFS of 22% at 6 months and 14% at 1 year 17 .Thus, in patients with R/R LBCL who are not eligible for HDCT/ASCT, the outcome is poor after second-line chemoimmunotherapy, notably in patients who are refractory or relapse early (within 12 months from first-line therapy).
Although axi-cel has not been evaluated as a second-line therapy in patients with R/R LBCL who are ineligible for HDCT/ASCT, clinical trial data and real-world evidence have shown that CAR-T cell therapy is feasible in a subset of transplant-ineligible patients, notably in elderly and less-fit patients 12,[18][19][20][21][22][23] .In this context, we conducted a phase 2 study (ALYCANTE) to assess the efficacy and safety of a single axi-cel infusion as a second-line therapy in patients with high-risk R/R LBCL deemed ineligible for ASCT but eligible for CAR-T cell therapy.

Results
The primary end point was investigator-assessed complete metabolic response (CMR) at 3 months from the axi-cel infusion.Secondary end points were objective response rate (ORR) at 3 months from the axi-cel infusion, CMR at 6 months from the axi-cel infusion, best ORR, best CMR, duration of response (DOR), EFS from leukapheresis, PFS from infusion, OS from infusion and the incidence, nature and severity of adverse events.Additional planned secondary end points not reported in this manuscript include health-related quality of life and the cell product characteristics and cellular kinetics of axi-cel.
In the initial study protocol, we calculated that a sample size of 40 patients with aggressive B cell non-Hodgkin lymphoma that was refractory to or had relapsed no more than 12 months after first-line chemoimmunotherapy and who were ineligible for HDCT/ASCT based on a physician's assessment was sufficient to test the efficacy of axi-cel infusion.Our initial part of the study (n = 40) met its primary end point with an investigator-assessed CMR of 67.5% at 3 months after infusion.The protocol was amended to enroll additional patients to enable a balanced comparison of the efficacy and toxicity of axi-cel in different age subgroups (<70 and ≥70 years).Here, we report the results of the study cohort of 62 patients who received axi-cel infusion.Of note, patient characteristics and outcomes were similar between the initial (n = 40) and expanded (n = 62) cohorts (Extended Data Table 1).

Primary efficacy outcome
The CMR at 3 months from the axi-cel infusion, as assessed by the investigator according to the Lugano response criteria 25 , was 71.0% (95% confidence interval (CI), 58.1-81.8%) in the mFAS (N = 62) (Table 2).Compared to the mFAS, the sensitivity analysis on the FAS (N = 69) did not show a notable difference in the investigator-assessed CMR at 3 months, which was 66.7% (95% CI, 54.3-77.6%).Likewise, a post-hoc analysis, which excluded two patients with grade 1-3A follicular lymphoma and four patients who achieved complete response with bridging therapy, found an investigator-assessed CMR at 3 months of 67.9% (95% CI, 54.0-79.7%),which is comparable to the 3-month CMR reported in the mFAS.Of note, out of ten patients with a partial metabolic response (PMR) at 1 month after axi-cel infusion, five patients converted to a CMR at 3 months without any additional therapy (Extended Data Fig. 3).

Safety
All study participants had at least one adverse effect of any grade.Adverse effects of grade 3 or higher occurred in 59 out of 62 patients (95.2%).The most commonly reported adverse effects of grade 3 or higher were neutropenia (occurring in 66.1% of patients), anemia (38.7%) and thrombocytopenia (38.7%) (Extended Data Table 2).Various infections of any grade (that is, COVID-19, urinary tract infection, sepsis, respiratory tract infection, skin infection) occurred in 33 patients (53.2%).The most frequent infection was COVID-19, which was reported in 15 patients (24.2%), including 7 with grade ≥3 and 2 with grade 5.
Adverse effects of special interest related to CAR-T cell toxicities are reported in Table 3. Cytokine release syndrome (CRS) occurred in 93.5% of patients, with CRS of grade 3 or higher reported in 8.1% of patients.The median time to onset of CRS was 1.5 days (IQR, 1.0-3.0)after axi-cel infusion and the median CRS duration was 5.0 days (IQR, 4.0-9.0).Immune effector cell-associated neurotoxicity syndrome (ICANS) occurred in 51.6% of patients, with ICANS of grade 3 or higher reported in 14.5% of patients.The median time to onset of ICANS was 6.0 days (IQR, 5.0-8.0)after axi-cel infusion and the median ICANS duration was 5.0 days (IQR, 3.0-8.0).No deaths related to CRS or neurologic events occurred.CAR-T cell toxicities were mainly managed with the interleukin-6 receptor antagonist tocilizumab (administered in 77.4% of patients) and/or corticosteroids (64.5% of patients).A total of 16 patients (25.8%) were admitted to the intensive care unit (ICU) as a result of CAR-T cell toxicities.Grade 3 or worse prolonged cytopenias (defined as a grade ≥3 laboratory result of anemia, neutropenia and/or thrombocytopenia not resolved 30 days after axi-cel infusion) occurred in 23 out of 62 patients (37.1%).
At the time of data cutoff, 12 patients died, 5 of whom from lymphoma and 1 of unknown reason.Nonrelapse mortality (NRM) was recorded in six patients (9.7%).All fatal adverse effects occurred late (beyond 2 months after axi-cel infusion) and were infections: two COVID-19, one aspergillosis, one mucormycosis, one sepsis and one perineal infection (Extended Data Table 3).

Subgroup analysis
We investigated whether the efficacy and safety of axi-cel were consistent among different patient populations, especially in patients aged ≥70 years and with comorbidities defined by a HCT-CI score ≥3.In patients aged ≥70 years (n = 33), the 3-month CMR was 72.7% versus 69.0% in patients <70 years (n = 29) (Extended Data Table 4).Survival outcomes and DOR were comparable between patients aged <70 years and ≥70 years (Fig. 3).Patients aged ≥70 years did not show increased toxicity compared to those aged <70 years, with similar rates of CRS, ICANS and ICU transfer (Extended Data Table 4).Likewise, patients with a HCT-CI score ≥3 (n = 20) reported a 3-month CMR of 80.0%, with similar survival and no increase in toxicity compared to those with a HCT-CI score < 3 (n = 42) (Extended Data Table 5).Finally, a similar investigator-assessed CMR at 3 months was observed across all evaluated subgroups but one.The only exception was total metabolic tumor volume (TMTV), as a high TMTV > 80 ml at inclusion was associated with a reduced CMR at 3 months (Extended Data Fig. 4) 26 .

Discussion
Patients with LBCL who are refractory or who relapse early after first-line chemoimmunotherapy are often chemorefractory and have a very limited cure rate after standard chemoimmunotherapy 27 .The ALYCANTE study is the first to assess the efficacy and safety of axi-cel as a second-line therapy in patients with high-risk R/R LBCL who are deemed ineligible for HDCT/ASCT.In this prospective, multicenter, open-label, phase 2 trial, a single axi-cel infusion was associated with a manageable safety profile and a high antitumor activity.The study met its primary end point with a CMR at 3 months of 71% versus 12% with SOC (second-line chemoimmunotherapy) based on historical controls 6 .
In this patient population with poor prognostic features, including 54.8% with primary refractory disease and 63.4% who were refractory to bridging therapy, treatment with axi-cel resulted in high response rates and durable remissions.The investigator-assessed best ORR and best CMR were 90.3% and 79.0%, respectively.Median PFS was 11.8 months and median OS was not reached.Furthermore, the efficacy of axi-cel was maintained across key subgroups, including patients with high-risk features, such as age ≥70 years, HCT-CI score ≥3, IPI ≥ 3 and primary refractory disease.The only exception was in patients with a high TMTV at inclusion, as we observed a reduced CMR at 3 months among these patients.This observation is consistent with other studies Nonrelapse mortality, n (%) 6 (9.7) a Grade ≥3 prolonged cytopenia was defined as a grade ≥3 laboratory result of anemia, neutropenia and/or thrombocytopenia not resolved 30 days after axi-cel infusion.CAR, chimeric antigen receptor; CRS, cytokine release syndrome; ICANS, immune effector cell-associated neurotoxicity syndrome; ICU, intensive care unit; Q, quartile. https://doi.org/10.1038/s41591-023-02572-5 evaluating CAR-T cell therapy for R/R LBCL, in which a high TMTV was associated with an increased risk of early relapse or progression 26,[28][29][30][31] .The findings of ALYCANTE are overall consistent with the results of the phase 3 ZUMA-7 trial 8,11 evaluating axi-cel as second-line therapy in patients with high-risk R/R LBCL deemed eligible for HDCT/ASCT.In ZUMA-7, axi-cel resulted in a CMR of 65% and a median PFS of 14.7 months.At a median follow-up of 24.9 months, median OS was not reached 8 .There are, however, many differences in design and patient populations between ALYCANTE and ZUMA-7 (ref.8).For instance, no bridging therapy was allowed in ZUMA-7, except for corticosteroid use, in contrast to ALYCANTE where bridging with R-GemOx was permitted to reflect real-world clinical practice.Indeed, many patients with aggressive lymphomas cannot be spared from bridging chemoimmunotherapy after leukapheresis 21 .As expected, patients were notably older in the ALYCANTE study than in the ZUMA-7 study with a median age of 70 versus 59 years, respectively.Despite the advanced age and comorbidity burden in ALYCANTE, the observed toxicity of axi-cel was overall consistent with that in ZUMA- 7 (ref.8).For instance, the incidences of severe CRS and ICANS were comparable, at 8% and 15% for grade 3-4 CRS and ICANS in ALYCANTE versus 6% and 21% in ZUMA-7, respectively 8 .Likewise, the rate of patients admitted to the ICU was 26% in ALYCANTE and 25% in ZUMA-7.NRM was also similar in ALYCANTE and ZUMA-7 (refs.8,11), at 10% in both studies.It is nevertheless important to note that ZUMA-7 was conducted before the COVID-19 pandemic (between January 2018 and October 2019), whereas ALYCANTE was conducted between March 2021 and May 2022.If we omit the two cases of fatal COVID-19 infection that contribute to one-third of the NRM, the NRM in ALYCANTE would be 6%.This number is in a similar range to a post-marketing cohort study by Nastoupil et al. conducted before the COVID-19 pandemic, in which the NRM was 4% among 275 patients who received axi-cel for R/R LBCL 32 .Overall, the safety and efficacy of axi-cel seem comparable in the ALYCANTE and ZUMA-7 trials, supporting the role of axi-cel as a second-line therapy in a broad population of patients with R/R LBCL, regardless of transplant-eligibility.
Another CD19-directed CAR-T cell product, lisocabtagene maraleucel (liso-cel), has also been evaluated as a second-line therapy in the open-label, phase 2 PILOT study performed in 61 patients with R/R LBCL who are ineligible for ASCT 33 .In PILOT, liso-cel yielded a best ORR and a best CMR, as assessed by an independent review committee, of 80% and 54%, respectively, with a median PFS of 9.0 months 33 .These results are overall consistent with those of ALYCANTE, in which centrally assessed best ORR and best CMR were 92% and 82%, respectively.The results of PILOT also complement the TRANSFORM trial, a phase 3 trial evaluating liso-cel as second-line therapy in patients with R/R LBCL intended to receive HDCT/ASCT 7,10 .In TRANSFORM, at a median follow-up of 17.5 months, the ORR and the CMR were 87% and 74%, respectively and the median PFS was not reached.As previously reported with liso-cel 7,10 , acute toxicities appeared particularly low in the PILOT study, notably grade ≥3 CRS and ICANS (2% and 5% respectively).In PILOT, 15% of patients were admitted to the ICU and 3% experienced NRM 33 .Regarding delayed toxicities, 30% of patients experienced grade ≥3 prolonged cytopenias in PILOT compared to 37% in ALYCANTE.Article https://doi.org/10.1038/s41591-023-02572-5 Despite the comparable study designs and sample sizes of ALY-CANTE and PILOT 33 , cross-trial comparisons should be approached with caution, particularly as eligibility criteria differed between these two studies.First, late relapses (beyond 12 months) were allowed in PILOT 33 , whereas only early relapses were allowed in ALYCANTE and TRANSFORM 7,10 .Overall, 25% of patients included in PILOT had late relapses 33 .Second, although ASCT ineligibility in both studies was based on physician's assessment (subjective assessment), the objective criteria for ASCT ineligibility differed between ALYCANTE and PILOT 33 .In ALYCANTE, patients had to meet at least one of the three protocol-defined criteria for ASCT ineligibility: age ≥65 years, HCT-CI score ≥3, or previous ASCT.On the other hand, patients in PILOT were required to meet at least one of the following criteria to define ASCT ineligibility: age ≥70 years; ECOG performance status of 2; diffusing capacity of the lung for carbon monoxide ≤60%; left ventricular ejection fraction <50%; creatinine clearance <60 ml min −1 ; aspartate aminotransferase (AST) or alanine aminotransferase (ALT) concentrations more than two times the upper limit of normal 33 .
Currently, there are no standard criteria nor consensus to determine whether a patient can undergo HDCT/ASCT.In most countries, a theoretical age limit for HDCT/ASCT is set to 65-70 years.The age cutoff to define ASCT ineligibility differed between ALYCANTE (65 years) and PILOT (70 years); however, in the present study, subgroup analysis demonstrated that efficacy and safety outcomes after axi-cel infusion were overall similar between patients aged <70 years and ≥70 years.Numerous investigations have additionally found that HCT-CI, a well-established prognostic model for comorbidities, can predict survival outcomes for both autologous and allogeneic stem cell transplantation 24,34,35 .A HCT-CI score ≥3 was shown to be independently associated with a higher risk of NRM (P < 0.001) and shorter survival (P = 0.03) among recipients of ASCT 34,35 .In ALYCANTE, the efficacy and safety of axi-cel were not altered in patients with high HCT-CI scores.
This study is limited by its single-arm design with no active control group.Therefore, selection bias cannot be ruled out.Although axi-cel compares favorably to second-line chemoimmunotherapy based on historical controls 6 , it remains to be compared to more recent regimens such as Tafa-Len, Pola-BR and bispecific antibodies 15,16,[36][37][38][39][40][41][42][43] .Our study is also limited by a small sample size and a relatively short follow-up duration (median of 12.0 months); however, the ALYCANTE trial is still ongoing, with a planned follow-up of up to 3 years per patient to determine the long-term efficacy and safety of axi-cel in this patient population.
In conclusion, axi-cel as a second-line treatment resulted in high response rates and durable remissions in patients with high-risk R/R LBCL with poor prognostic features and who were not eligible for HDCT/ASCT.Moreover, despite advanced age and comorbidities, axi-cel had an acceptable safety profile in this population considered unfit for HDCT/ASCT.Together, these results support axi-cel as a second-line treatment in patients with R/R LBCL who are deemed ineligible for HDCT/ASCT.

Online content
Any methods, additional references, Nature Portfolio reporting summaries, source data, extended data, supplementary information, acknowledgements, peer review information; details of author contributions and competing interests; and statements of data and code availability are available at https://doi.org/10.1038/s41591-023-02572-5.

ALYCANTE (ClinicalTrials.gov ID NCT04531046
) is an ongoing prospective, single-arm, multicenter, open-label, phase 2 trial.Study participants were enrolled in 18 centers across France.The full study protocol is provided in the Supplementary Information.Supplementary Table 1 provides information on the ALYCANTE study team as well as the study's investigators and co-investigators.

Inclusion and ethics
The study protocol was approved by French Ethics Committee Est I (Dijon) N°20.07.08.66206, in accordance with applicable French laws and regulations.The study was performed in accordance with the Declaration of Helsinki and the International Conference on Harmonization Good Clinical Practice guidelines.Written informed consent was obtained from each participant before any study procedure.

Participants
Eligible patients were aged 18 years or older with histologically confirmed aggressive B cell non-Hodgkin lymphoma, diagnosed according to the 2016 World Health Organization classification criteria 44 , as DLBCL, high-grade B cell lymphoma or follicular lymphoma grade 3B.Disease had to be refractory to or had relapsed no more than 12 months after the completion of first-line chemoimmunotherapy containing a monoclonal CD20 antibody and an anthracycline-containing regimen (CHOP or CHOP-like regimen).Refractory disease was defined as a lack of complete response to first-line therapy and relapsed disease as biopsy-proven disease relapse within 12 months from completion of first-line therapy.Patients must also have been ineligible for HDCT/ ASCT based on a physician's assessment and with at least one of the following criteria: age ≥65 years, HCT-CI score ≥3 (as reported by investigators) 24 or previous ASCT (as first-line consolidation).Patients were enrolled regardless of sex, which was collected according to the identity information provided by the patients.
There were in total, three important protocol deviations from the inclusion criteria in the present study, which were all related to relapsed disease longer than 12 months after first-line chemoimmunotherapy.For two patients, the central histological diagnosis was not aggressive B cell non-Hodgkin lymphoma but grade 1-3A follicular lymphoma.

Key exclusion criteria included:
1. Receipt of more than one prior line of systemic therapy.2. Previous CD19-targeted therapy.3. Cardiac involvement.4. Requirement for urgent therapy due to tumor mass effects such as bowel obstruction or blood vessel compression.5. Clinically significant pleural effusion.6. Known central nervous system disease.
7. History of cardiovascular disease within the past 6 months.8. History of autoimmune disease requiring systemic immunosuppression and/or disease-modifying agents within the last year.9. History of idiopathic pulmonary fibrosis, organizing pneumonia, drug-induced pneumonitis, idiopathic pneumonitis or evidence of active pneumonitis on a chest computed tomo graphy scan at screening.10.Active hepatitis B or C infection or positive HIV serology at the time of screening.

Procedures
Extended Data Fig. 1 provides an overview of the study procedures.Within 15 days after screening, all eligible patients underwent leukapheresis to obtain enough peripheral blood mononuclear cells to produce axi-cel.Optional bridging therapy after leukapheresis consisting of 1-2 cycles of R-GemOx (rituximab at 375 mg m −2 , gemcitabine at 1,000 mg m −2 and oxaliplatin at 100 mg m −2 , intravenously administered every 2 weeks for one or two cycles), corticosteroids (type and dose at the investigator's discretion) or both was allowed.Upon the availability of axi-cel, patients received lymphodepleting conditioning chemotherapy for 3 days with cyclophosphamide (at a dose of 500 mg m −2 d −1 ) and fludarabine (30 mg m −2 d −1 ), followed 2-7 days later by a single intravenous infusion of axi-cel (at a target dose of 2 × 10 6 CAR-T cells per kilogram of body weight).Before lymphodepleting chemotherapy was administered, reconfirmation of study eligibility, including positron emission tomography (PET)-positive disease, was required.Hence, disease assessment by PET was performed at screening, within 7 days before the start of lymphodepleting chemotherapy, as well as at 1, 3, 6, 9 and 12 months after the axi-cel infusion.Clinical examination (including ECOG performance status), blood sampling and laboratory tests (including complete blood count and serum chemistry) were also performed at screening, on the day of axi-cel infusion, daily between day 1 and day 10 after the axi-cel infusion, on day 14 and at 1, 3, 6, 9 and 12 months following the axi-cel infusion.Patients were followed-up for 3 years after the axi-cel infusion and could then consent to participate in a long-term follow-up for up to 15 years via DESCAR-T (ClinicalTrials.govID NCT04328298), a French register of patients with malignant hemopathies eligible for CAR-T therapy.Safety was monitored continuously throughout the study.CAR-T cell toxicities such as CRS and ICANS were graded according to the American Society for Transplantation and Cellular Therapy grading system 45 .All other Adverse effects were graded according to the National Cancer Institute Common Terminology Criteria for Adverse Events (CTCAE v.5.0).

Outcomes
The primary end point was investigator-assessed CMR at 3 months from the axi-cel infusion according to the Lugano response criteria 25 .
Secondary efficacy end points included investigator-assessed ORR at 3 months from the axi-cel infusion, investigator-assessed CMR at 6 months from the axi-cel infusion and the best investigator-assessed ORR and CMR.CMR and ORR at 3 months from the axi-cel infusion were also assessed by a central review panel formed by two readers and an adjudicator.Other secondary efficacy outcomes included the best ORR and best CMR as assessed by the central review panel, DOR, EFS from leukapheresis, PFS from infusion and OS from infusion.DOR, EFS and PFS were investigator-assessed.DOR was defined as the time from attainment of PMR or CMR to the date of first documented disease progression/relapse or death from any cause.EFS was defined as the time between leukapheresis and any event preventing axi-cel infusion if axi-cel was never infused, or death, disease progression or instauration of a new lymphoma therapy for lymphoma progression after axi-cel infusion.PFS was defined as the time from axi-cel infusion to disease progression or death from any cause.OS was defined as the time from https://doi.org/10.1038/s41591-023-02572-5axi-cel infusion to death from any cause.The estimated rates of EFS, PFS and OS at 6 and 12 months were further evaluated.
Safety was evaluated as the incidence, nature and severity of adverse effects.Adverse effects of special interest were related to CAR-T cell toxicities and included CRS and ICANS.Mortality during the study was summarized by cause of death.

Statistical analysis
A one-sample binomial design was used to calculate the initial sample size.We hypothesized that axi-cel would yield a CMR at 3 months of 34% compared to 12% with a historical SOC estimated from a retrospective, real-world cohort 6 .On the basis of this assumption, the initial sample size was calculated to be 40 infused patients, with 96% power and a 0.05 α-level (one-sided).To enable a balanced comparison of the efficacy of axi-cel in different age subgroups (<70 and ≥70 years), with a power of 85% and considering potential dropouts, the required sample size was increased to 62 patients.
Efficacy and safety analyses were performed on the mFAS, which included all patients who signed an informed consent and were infused with axi-cel.A sensitivity analysis of the primary end point was also conducted on all patients who signed an informed consent and had leukapheresis (FAS).We calculated CMR with exact Clopper-Pearson CI values, without adjustment for multiplicity.Patients without response assessment, due to any reason, were considered as nonresponders.We used the Kaplan-Meier method to estimate medians and 95% CI values for PFS, EFS, OS and DOR.If patients did not have an event at the time of the PFS, EFS and DOR analysis, they were censored at the date of the last disease assessment.For assessment of OS, alive patients were censored at their last follow-up date.Safety end points were assessed using descriptive statistics (counts and percentages).A subgroup analysis of CMR at 3 months was conducted for prespecified covariates (such as sex) and a Forest plot was provided.

Reporting summary
Further information on research design is available in the Nature Portfolio Reporting Summary linked to this article.Abbreviations: HCT-CI, hematopoietic cell transplantation-specific comorbidity index; IPI, international prognostic index; LDH, lactate dehydrogenase; PMD, progressive metabolic disease; PMR, partial metabolic response; SD, stable disease; TMTV, total metabolic tumor volume.
Extended Data Table 1 |  Data are n (%), unless otherwise specified.*All samples previously diagnosed as high-grade B-cell lymphoma (double-hit/triple-hit/not otherwise specified) were classified as HGBCL with MYC-R and BCL2-R +/− BCL6-R (high-grade B-cell lymphoma with MYC and BCL2 rearrangements associated or not with BCL6 rearrangement) after central review.# Grade ≥3 prolonged cytopenia was defined as a grade ≥3 laboratory result of anemia, neutropenia, and/or thrombocytopenia not resolved on day 30 after axi-cel infusion.

Fig. 1 |
Fig. 1 | Patient disposition at the data cutoff date of 19 January 2023.IMP OOS, investigational medicinal product out of specification.

4 )
Median time between end of first-line therapy and refractory disease/relapse (minimumone treated with R-CHOP and two treated with R-CHOP + methotrexate) received radiotherapy following chemoimmunotherapy.b Enrolled in the study because of refractory disease.c One patient received corticosteroids only.ASCT, autologous stem cell transplantation; DLBCL, diffuse large B cell lymphoma; ECOG, Eastern Cooperative Oncology Group; HCT-CI, hematopoietic cell transplantation-specific comorbidity index; HGBCL with MYC-R and BCL2-R ± BCL6-R, high-grade B cell lymphoma with MYC and BCL2 rearrangements associated or not with BCL6 rearrangement; IPI, international prognostic index; R-CHOP, rituximab plus cyclophosphamide, doxorubicin, vincristine and prednisone; R-CHOP + X, addition of methotrexate (n = 22), etoposide (n = 1) or another investigational chemotherapy drug (n = 2) to R-CHOP; R-COPADEM, rituximab, cyclophosphamide, vincristine, prednisone, doxorubicin and methotrexate; R-GemOx, rituximab, gemcitabine and oxaliplatin; TMTV, total metabolic tumor volume.

Fig. 2 |
Fig. 2 | Kaplan-Meier estimates of event-free survival from leukapheresis, progression-free survival from axi-cel infusion, overall survival from axi-cel infusion and duration of response.a-d, Kaplan-Meier estimates of EFS from

Table 3 |
Adverse events of special interest in the modified full analysis set (N = 62)

Fig. 3 |
Fig. 3 | Kaplan-Meier estimates according to age of event-free survival from leukapheresis, progression-free survival from axi-cel infusion, overall survival from axi-cel infusion and duration of response.a-d, Kaplan-Meier estimates according to age (<70 versus ≥70 years) of EFS from leukapheresis (a), PFS from axi-cel infusion (b), OS from axi-cel infusion (c) and DOR (d).