Outcomes for patients with EBV-positive PTLD post-allogeneic HCT after failure of rituximab-containing therapy

Epstein–Barr virus-positive (EBV+) post-transplant lymphoproliferative disease (PTLD) is an ultra-rare and aggressive condition that may occur following allogeneic hematopoietic cell transplant (HCT) due to immunosuppression. Approximately half of EBV+ PTLD cases are relapsed or refractory (R/R) to initial rituximab-containing therapy. There are limited treatment options and no standard of care for patients with R/R EBV+ PTLD, and little is known about their treatment history and outcomes. We performed a multinational, multicenter, retrospective chart review of patients with R/R EBV+ PTLD following HCT to describe patients’ demographic and disease characteristics, treatment history, and overall survival (OS) from rituximab failure. Among 81 patients who received initial treatment with rituximab as monotherapy (84.0%) or in combination with chemotherapy (16.0%), median time from HCT to PTLD diagnosis was 3.0 months and median OS was 0.7 months. Thirty-six patients received a subsequent line of treatment. The most frequent causes of death were PTLD (56.8%), graft-versus-host disease (13.5%) and treatment-related mortality (10.8%). In multivariate analysis, early PTLD onset and lack of response to initial treatment were associated with mortality. This real-world study demonstrates that the prognosis of patients with R/R EBV+ PTLD following HCT remains poor, highlighting the urgent unmet medical need in this population.


INTRODUCTION
Post-transplant lymphoproliferative disease (PTLD) is an aggressive and potentially fatal hematologic malignancy that can occur following transplantation due to immunosuppression.Nearly all PTLD cases following hematopoietic stem cell transplant (HCT) are Epstein-Barr virus (EBV)-positive (EBV + ) and occur as a result of EBV activation in EBV-negative patients who receive a transplant from EBV + donors or due to EBV reactivation in previously infected patients following transplantation [1,2].
EBV + PTLD is an ultra-rare disease, with an incidence of 1.1-1.7%within the first year after allogeneic HCT [3,4].In the USA, there were about 8200 HCTs in 2021, thus resulting in fewer than 150 new PTLD cases per year, and in Europe there were 19,806 HCTs, thus resulting in approximately 275 new cases [5,6].The median time to PTLD from HCT is about 2-4 months, with the majority of cases occurring within the first year following transplant, corresponding to recovery of the immune system [3,7,8].The most frequently and consistently identified risk factors for developing EBV + PTLD are prior HCT, post-transplant EBV DNAemia, T-cell depletion ex vivo or in vivo, histocompatibility or EBV serology mismatch between the donor and the recipient, and the use of cord blood [8][9][10][11][12][13][14][15][16].
Clinical practice treatment guidelines recommend rituximab with or without reduction in immunosuppression (RIS) as pre-emptive therapy for EBV reactivation (based on EBV viral load) and for treatment of EBV + PTLD following HCT [17].Patients who fail rituximab have poor outcomes with limited treatment options.Although results vary according to protocol, up to 50% of patients with EBV + PTLD post-HCT may experience failure to rituximab-containing treatment [3,16].Factors associated with a poor response to rituximab include acute graft-versus-host disease (GvHD) with immunosuppressive drugs, extranodal involvement, the inability to tolerate RIS, and the use of bone marrow graft [7,18].The 3-year overall survival (OS) for allogeneic HCT recipients with EBV + PTLD treated with rituximabcontaining therapies ranges from 20% to 48% [8,19,20], and patients with multiple risk factors experience the worst OS rates [7].
Alternative treatment options for patients with EBV + PTLD post-HCT after failure of initial therapy represent a significant unmet clinical need.Guidelines for subsequent treatment options in patients with relapsed or refractory (R/R) EBV + PTLD post-HCT are based on a limited body of evidence [17], and outcomes following rituximab ± chemotherapy failure are usually poor, with a reported median OS of 33 days [18].Further, chemotherapy is usually ineffective, with a high treatment-related mortality rate in patients with R/R EBV + PTLD post-HCT [7,18], which limits treatment options following failure of rituximab.Little information is available regarding the clinical characteristics, treatment patterns, and survival of patients with R/R EBV + PTLD following HCT in a realworld setting.Collation of such data may help inform future treatment decisions and guide how physicians manage these patients in the absence of well-defined, global treatment guidelines.
To address the knowledge gap, we conducted a retrospective chart review at multiple stem cell transplant centers to describe the clinical characteristics and survival of HCT recipients with R/R EBV + PTLD following rituximab ± chemotherapy failure.

Study design and conduct
A multicenter, non-interventional, retrospective chart review of allogeneic HCT recipients with R/R EBV + PTLD following rituximab ± chemotherapy failure was performed.The study was approved by an independent ethics committee, research ethics board, or institutional review board at each center and complied with the Declaration of Helsinki, the International Council for Harmonisation Tripartite Guideline for Good Clinical Practice, and local laws.

Selection of the study population
A total of 22 sites in Europe (Austria, Belgium, Germany, France, Italy, Spain, and Sweden) and North America (Canada and the USA) contributed data to the study.
Inclusion and exclusion criteria were aligned with the multicenter, openlabel, phase III ALLELE trial assessing tabelecleucel in patients with R/R EBV + PTLD following rituximab ± chemotherapy [21].Eligible patients were HCT recipients who were diagnosed with R/R EBV + PTLD following rituximab ± chemotherapy failure, of any age, and with data records available.PTLD was locally assessed using confirmatory histology or high EBV viremia with clinical and/or radiologic assessment via computed tomography or positron emission tomography.Patients were excluded if they had received cytotoxic T-lymphocytes (CTL), donor lymphocyte infusion (DLI), or had specific PTLD histology of Burkitt, Hodgkin, or T-cell lymphoma.
Existing chart data on patients diagnosed with EBV + PTLD following HCT who received rituximab or rituximab plus chemotherapy between January 2000 and December 2018 and in whom disease was refractory (failed to achieve complete response or partial response) or had relapsed at any point after such therapy were collected.A comprehensive data collection form was developed to capture the heterogeneity of the disease, and electronic case report forms (eCRFs) were developed and utilized through a secured website for study site personnel to submit information.The conduct of the study was standardized, and rigorous procedures to ensure accuracy were followed throughout the data collection process.Data management procedures were implemented following good clinical practice guidelines and included validation and skip patterns to minimize data entry errors, development of guidelines for completion of the eCRFs, and extensive training of study site personnel.
The collected data were entered into a validated database.The data were reviewed manually by trained personnel to ensure data quality, and any data issues identified were addressed through queries and communicated to the sites for resolution.An extensive effort was undertaken to ensure data quality with multiple rounds of medical review to reach resolution.Data management procedures were implemented following Good Clinical Practice guidelines.

Patient characteristics and outcomes
Demographic information, HCT characteristics, PTLD characteristics, treatment history, and OS data were evaluated.Demographic information included patients' age (years) and sex (male/female).HCT characteristics included age at HCT, initial diagnosis leading to HCT, the type of allograft used, the stem cell source, and the conditioning regimen used.PTLD characteristics included the time from transplant to PTLD, pre-emptive use of rituximab for PTLD, PTLD histology type, PTLD stage, extranodal sites of PTLD, CD20 marker, Eastern Cooperative Oncology Group (ECOG)/ Karnofsky/Lansky score, and the incidence of secondary central nervous system involvement.OS was defined as the time from the index date to the date of death from any cause.OS was assessed using the date of failure to rituximab-containing therapy as the index date, unless otherwise stated.Patients who were lost to follow-up or still alive were censored at the last reported contact or recorded visit date.Cause of death was reported as recorded by the physicians in the case report form.

Statistical analyses
All continuous variables were summarized using descriptive statistics and all categorical variables were summarized using frequencies and percentages.OS was summarized using the Kaplan-Meier method.Association between several important clinical and demographic variables and mortality was evaluated using Cox proportional hazards multivariate regression analysis.These variables included age (years) at initial PTLD diagnosis, sex, time from transplantation to PTLD diagnosis (days), baseline lactate dehydrogenase (LDH), stage at initial PTLD diagnosis, ECOG performance status, PTLD histology at initial diagnosis, extranodal PTLD sites, pre-emptive use of rituximab for EBV viremia, and response to initial rituximab-containing treatment.

Patient demographics and disease characteristics
Medical chart data from 81 patients with R/R EBV + PTLD following rituximab ± chemotherapy failure were analyzed.
Patient PTLD disease characteristics are described in Table 2. EBV + viremia was detected in the majority (95.1%) of patients at a median time from HCT of 1.9 months.Seventeen (22.0%) patients were treated pre-emptively with rituximab to prevent PTLD.The median time from HCT to initial PTLD diagnosis was 3.0 months and median age at initial PTLD diagnosis was 49.0 years.Most (74.1%) patients had a baseline LDH of ≥250 U/L.PTLD was diagnosed at an advanced stage (III or IV) in 63 (77.8%) patients.The most common histologic subtype was monomorphic PTLD, which was observed in 52 (64.2%) patients; 18 (

Treatments for PTLD
The median time (minimum-maximum) from PTLD diagnosis to initial treatment was 0.1 (0.0-3.1) months.After diagnosis of PTLD, RIS was reported for 54 (66.7%) patients.Sixty-eight (84%) patients received rituximab alone and 13 (16.0%) received rituximab combined with chemotherapy as their initial treatment for PTLD.Of the 68 patients who received rituximab alone, the median (minimum-maximum) number of doses was 2 (1-9).Thirty-six (44.4%) patients received next-line therapy, with a chemotherapycontaining regimen being most common (32/36).Only four (11.1%) patients who received next-line therapy achieved a durable response of >6 months from the treatment end date; two of these patients subsequently relapsed.

Risk factors associated with mortality
A multivariate analysis using the Cox proportional hazards ratio regression model was conducted to determine if key baseline characteristics were associated with mortality (Table 5).Early PTLD onset (defined as ≤100 days after HCT; hazard ratio (HR) [95% CI]: 2.33 [1.25-4.37])and a best overall response of stable or  progressive disease (i.e., non-responders) following initial therapy (HR [95% CI]: 3.74 [1.81-7.70])were significantly associated with mortality.

DISCUSSION
Medical literature describing clinical outcomes in patients with R/R EBV + PTLD is limited; available data reporting the experience of a few patients who receive a subsequent treatment after rituximab indicate very poor outcomes [22,23].This retrospective chart review is the first to describe the survival of HCT recipients with EBV + PTLD following rituximab ± chemotherapy failure.We observed that patients with R/R EBV + PTLD post-HCT experience poor survival, with a median OS of 0.7 months from the time of initial treatment failure, and only 14.7% of patients surviving at 12 months, with the majority dying because of PTLD-related mortality (56.8%) and treatment-related mortality (10.8%), while patients who received next-line therapy had a median OS of 2.0 months from the initiation of the next line, thus demonstrating an urgent unmet medical need in this patient population.These data can be used as a benchmark for future interventional studies in this disease setting.Given such poor outcomes, we sought to identify factors associated with mortality in patients with R/R EBV + PTLD.Identification of such factors may help delineate high-risk patients and ultimately improve early detection and treatment options for patients with R/R EBV + PTLD.Our multivariate analysis evaluated whether age at initial PTLD diagnosis, sex, region, baseline LDH, stage at initial PTLD diagnosis, PTLD histology at initial diagnosis, time from HCT procedure to initial PTLD diagnosis, extranodal PTLD sites, pre-emptive use of rituximab for EBV viremia, response to initial rituximab-containing treatment, number of systemic treatments, receipt of next-line therapy and ECOG/Karnofsky/ Lansky score were associated with survival in patients with R/R EBV + PTLD.In this multivariate analysis, two factors were significantly associated with mortality: early PTLD onset (≤100 days after HCT) and the lack of response to initial therapy.To our knowledge, this is the first time early PTLD onset and a lack of response to initial therapy has been associated with an elevated risk of mortality.There was a suggestion of an association between elevated baseline LDH (≥250 U/L) and mortality also observed, which is unsurprising as previous analyses in patients with PTLD following HCT or solid organ transplant have reported that elevated LDH was associated with a lack of response to initial treatment and reduced OS [4].
Our study is the first to assess patients with R/R EBV + PTLD in the HCT setting, albeit using a retrospective study design.Limitations associated with retrospective observational studies are that they may be difficult to establish causality and they may also be subject to certain biases.However, in the setting of a rare  Early PTLD onset is defined as ≤100 days after HCT, whereas late PTLD onset is defined as >100 days after HCT.
b Responders were patients who achieved a complete or partial response to initial therapy.Non-responders were patients who had stable disease or progressive disease following initial therapy.
specific CTL therapy after PTLD diagnosis (an option available for several years) or those with a history of Burkitt, Hodgkin, or T-cell lymphoma were excluded in our study protocol in order to align with the phase III ALLELE trial; thus, our results are only representative of patients with PTLD for whom such therapy is not available.Given these considerations, our study provides significant insights for this high unmet need population.
A key strength of this study is that it is the largest and most comprehensive multinational chart review of patients with R/R EBV + PTLD following failure of rituximab-containing therapy.A further strength is that careful thought was given to the identification of important prognostic factors and to minimization of missing data.Our study evaluated charts recorded between 2000 and 2018, during which time no novel therapies were approved that may have impacted the study findings.Data were not available after this time period.
Our study confirmed the lack of adequate treatment options that target the underlying pathology of PTLD.As there were no therapies approved for the management of PTLD from 2000 to 2018, rituximab-containing therapy became an established treatment option, although not all patients respond.Survival outcomes are worse for patients without a response to rituximab.HCT patients may also be frail and require a subsequent therapy that has a tolerable safety profile after failure of rituximab.Lack of a standard of care may contribute to differences in treatment patterns, which further limits comparability and generalizability between small studies and hinders research advances urgently needed by this subset of patients.The outcomes associated with the use of rituximab ± chemotherapy for patients with R/R EBV + PTLD post-HCT described in this retrospective chart review underline the unmet need for new treatment options that are safe and effective in this patient group.
In summary, this retrospective chart review has demonstrated that patients with R/R EBV + PTLD have limited therapy options, resulting in poor outcomes.Our analysis confirms the high unmet medical need in such patients post-HCT in whom EBV + PTLD relapses or becomes refractory to initial rituximab-containing treatment.

HCT
Hematopoietic stem cell transplant, PBMC Peripheral blood mononuclear cell, R/R Relapsed or refractory.
CNSCentral nervous system, DLBCL Diffuse large B-cell lymphoma, EBV Epstein-Barr virus, ECOG Eastern Cooperative Oncology Group, HCT Hematopoietic stem cell transplant, LDH Lactate dehydrogenase, PTLD Post-transplant lymphoproliferative disease, R/R Relapsed or refractory.a Data reported in 35 patients.b LDH levels ≥250 U/L were considered elevated.

Table 4 .
Overall survival.Kaplan-Meier plot of OS from date of R/R to rituximab ± chemotherapy.OS is from the R/R date to the end of follow-up.OS Overall survival, R/R Relapsed or refractory.diseaserequiring urgent care, a prospective cohort design is likely to be impractical.We focused on OS as the outcome of interest, given that it can be assessed accurately in a real-world setting, whereas other outcomes such as response rate have limitations in real-world settings, such as the lack of standardized modalities for evaluating response to treatment, temporal changes in treatment and technology, variable evaluation frequencies, and variability in physician practice.Patients who received DLI or EBV-or multivirus-

Table 5 .
Multivariate analysis of potential factors associated with mortality.ECOG Eastern Cooperative Oncology Group, HCT Hematopoietic stem cell transplant, HR Hazard ratio, LDH Lactate dehydrogenase, PTLD Post-transplant lymphoproliferative disease, ref Reference, R/R Relapsed or refractory. a