Efficacy and safety of ruxolitinib in the treatment of chronic graft-versus-host disease: a retrospective analysis

Steroid-refractory chronic graft-versus-host disease (cGvHD) is associated with significant morbidity and mortality, with ruxolitinib being the first drug approved for its treatment. We retrospectively analyzed the safety and efficacy of ruxolitinib for treatment of cGvHD at our center between 07/2015 and 12/2022 and identified 48 patients receiving ruxolitinib as second (18/48) or advanced (30/48) treatment line. Ruxolitinib was started on median day 340 (range 119–595) after cGvHD onset; median duration of administration was 176 (range, 79–294) days with 16/48 patients continuing treatment at last follow-up. National Institutes of Health organ grading and the intensity of immunosuppression were assessed at the start of ruxolitinib treatment and repeated after 1, 3, 6, and 12 months. Response assessment was terminated at the start of any additional new immunosuppressant treatment. The median time of follow-up was 582 (range, 104–1161) days. At the primary analysis after six months on ruxolitinib treatment, the overall response rate was 33%, and failure-free survival was 58%. Infectious adverse events ≥ CTCAE grade III were observed in 10/48 patients. The response rate was not associated with the severity of cGvHD, number of previous treatment lines, or number of additional agents combined with ruxolitinib applying a univariate regression model. At the time of the 12-month follow-up, four patients experienced recurrence of the underlying malignancy and two patients had experienced non-relapse-related mortality. Overall, ruxolitinib was relatively well-tolerated and showed outcomes comparable to the REACH3 trial in a heavily pretreated patient population.


Introduction
Chronic graft-versus-host disease (cGvHD) represents a major complication after allogeneic stem cell transplantation (allo-HSCT) that significantly contributes to nonrelapse mortality (NRM) and reduced quality of life [1,2].According to current data, cGvHD occurs in approximately 30-50% of patients, as recent modifications in GvHD prophylaxis and regimens and host compatibility contributed to a decline in its prevalence [3][4][5].As a result of chronic the randomized controlled REACH3 trial, which compared ruxolitinib with other available therapies for treatment of cGvHD, ruxolitinib was approved by the United States Food and Drug Administration and the European Medicines Agency [16,17].Because the REACH3 trial was conducted in a select patient population evaluating ruxolitinib as second-line therapy, and real-world data are not yet sufficiently available, there is an urgent need for data from unselected patients in routine clinical practice, including those receiving advanced treatment lines.Therefore, we retrospectively analyzed the efficacy and safety of all patients receiving ruxolitinib for the treatment of cGvHD between 2015 and 2022 at the University Hospital Regensburg in Germany.

Patients and methods
Patients 48 patients who received ruxolitinib for the treatment of cGvHD between July 2015 and December 2022 at the University Hospital Regensburg (Germany) were included in this retrospective analysis, which was approved by the institutional review board of the University of Regensburg (no.22-3076-104).The analysis was conducted in accordance with the current Declaration of Helsinki.Diagnosis, assessment of organ involvement, and documentation of cGvHD were conducted as part of routine clinical practice using the National Institutes of Health consensus criteria [10] either during inpatient therapy or at outpatient follow-up visits.

Definition of response to ruxolitinib treatment and adverse events
Clinical response was evaluated at 1 month, 3 months, 6 months, and 12 months after the start of ruxolitinib therapy.If a new immunosuppressive medication (ISM) was given after the start of ruxolitinib treatment, the response assessment was discontinued.Complete remission (CR) was defined as the resolution of all symptoms of cGvHD without initiation of new or additional ISM during treatment with ruxolitinib.Partial remission (PR) was defined as an improvement of at least one organ grade without progression of cGvHD in other organs, whereas mixed response (MR) was defined as an improvement in one organ, while progression occurred elsewhere.Progressive disease (PD) was defined as progression of at least one organ site without any improvements in other sites.Stable organ involvement without any changes in grading was classified as stable disease (SD).For evaluation of predictive markers, patients were divided into "responder" (CR, PR) and "nonresponder" (MR, SD, PD, and additional ISM) categories.
Failure-free survival (FFS) was defined as absence of relapse of the underlying disease or NRM, and no addition of further ISM.Calculation of overall response rates (ORRs) was based on an intention-to-treat analysis.If a patient did not complete the entire follow-up period of 12 months, the respective patient was excluded from ORR and FFS calculations from the first follow-up time point that had not been completed (i.e., 1 month, 3 months, 6 months, or 12 months) onward.To assess infectious adverse events (AEs) and hematological toxicities, the Common Terminology Criteria for Adverse Events version 5.0 (CTCAE 5.0) was used.

Statistical analyses
Statistical analyses were conducted with SPSS Statistics 26 (SPSS Inc, Chicago, Illinois).Absolute numbers, percentual frequency (n, %), and median including interquartile range (IQR) are shown.Due to the limited number of patients, only univariate analyses were conducted.The effect of ten clinical parameters on the response to ruxolitinib treatment were analyzed using univariate binary logistic regression; the parameters were the patient's age, sex, ruxolitinib dose at onset of therapy, azole comedication, prednisolone dose at onset of therapy, severity of cGvHD, number of additional ISMs, prior therapy lines, CTCAE thrombocytopenia, and CTCAE anemia at the start of treatment.Assessment of the GS-sparing effect during ruxolitinib treatment was conducted by non-parametric matched pairs analysis (Wilcoxon signed rank test).Assessment of GS dosing/weaning was captured among all patients, regardless of response, as long as no other ISM was added.Comparison of cytopenia at the start of treatment and within 6 months after ruxolitinib treatment (paired nominal data) was conducted using nonparametric McNemar test; Assessment of severe AEs regarding cytopenia was also conducted using the nonparametric McNemar test.The level of significance was set at p two−sided ≤0.050.

Characteristics of patients
Patient characteristics and history of aGvHD are summarized in Table 1.The median age at the start of ruxolitinib treatment was 51 years (range, 42-58 years).Underlying malignancies were myeloid disorders in 31 patients, and lymphatic malignancies in 17 patients (Table 1).41 patients had received peripheral blood stem cells and seven patients had received bone marrow as a graft source.Prior acute GvHD grade II or higher, according to Glucksberg criteria, was observed in 32 patients (67%).
Using univariate regression analyses, none of the following nine factors (patient's age, sex, initial ruxolitinib and prednisolone dose, severity of cGvHD, number of additional ISMs, prior therapy lines, CTCAE thrombocytopenia, and CTCAE anemia at start of treatment) were significantly associated with treatment response at the 6-month follow-up.

Response to ruxolitinib at 1 month
One month after the first administration of ruxolitinib, four patients (9%) achieved CR and 13 patients (28%) PR, while four patients showed MR, 20 patients (43%) SD, and five patients (11%) PD.One patient (2%) developed clinical signs of human polyomavirus 1 (or BK virus) reactivation necessitating termination of ruxolitinib treatment and another patient was excluded from the response assessment due to an episode of intestinal aGvHD necessitating additional ISM.The ORR at 1 month was 36% (17/47) and FFS was 98% (46/47) (Fig. 1).

Response to ruxolitinib at 3 months
Three months after the start of ruxolitinib therapy, three patients (7%) showed CR, 10 patients PR (22%), and 10 patients MR.Six patients (13%) had SD, while five patients (11%) had PD.Eight patients (17%) received an additional ISM due to new organ involvement (including eyes, lung, skin, oral mucosa, fascia) or lack of response to ruxolitinib, Of note, in one patient (2%) with PR, ruxolitinib had to be discontinued due to thrombocytopenia and molecular relapse of the underlying malignancy 40 days after the onset of treatment.The same patient had PD while receiving treatment with everolimus and ibrutinib.One more patient received additional ISM due to progressive cGvHD and discontinued ruxolitinib therapy later due to severe BK-and John Cunningham (JC)-virus nephropathy.Noteworthy, one of the aforementioned patients with PD initially reached a PR, but required a dose reduction of ruxolitinib after one month of treatment due to cytopenia, and subsequently had PD, with cGvHD of the skin and fascia.Despite increasing ruxolitinib back to the baseline dose, the latter patient did not respond.One patient with CR died due to pneumonia associated with coronavirus disease 2019 (COVID-19), and one patient with PR at the last follow-up had not reached the 3-month follow-up and was excluded from the ORR and FFS calculations.Therefore, the ORR was 28% (13/46) and FFS was 74% (34/46) (Fig. 1).aGvHD.Ruxolitinib administration was discontinued in two patients due to relapse of the underlying malignancy, due to cytopenia plus relapse of underlying malignancy in another two patients and due to cytopenia solely in one patient.Similarly, ruxolitinib treatment was discontinued due to infectious AEs in five patients.Three of the latter patients lacked response to ruxolitinib treatment, while two of them presented with CR at discontinuation.In one patient, ruxolitinib was terminated due to cytopenia in combination with an infection.Of note, in five patients responding to ruxolitinib, treatment was successfully terminated without any flare of cGvHD.In another patient with PR, ruxolitinib treatment was terminated due to relapse of multiple myeloma after 14 months.The latter patient continued with prednisolone monotherapy and did not display any flare of cGvHD within further follow-up period of three months.Three patients that did not initially respond to ruxolitinib were re-exposed in a later episode of cGVHD but did not respond with two of them then displaying new significant cytopenia.

Organ grading at 3-months follow-up
Additionally, organ grading at 3-months follow-up or, if any additional ISM has been administered before, organ grading at the respective time point was assessed.Two patients, in whom new ISM has been added before 1-month follow-up, were excluded from assessment of organ grading.In terms of organ response of organs affected in at least five patients at start of ruxolitinib, skin (56%), oral mucosa (58%) and liver manifestations (83%) were more likely to respond to ruxolitinib treatment compared to eyes (11%), lung (36%) and fascia (7%) (Table 3).

Safety -infectious and other adverse events during ruxolitinib treatment
Infectious AEs during ruxolitinib treatment were captured within the first six months after the onset of therapy.Within this timeframe, 29 patients (60%) developed an infectious AE. 10 patients included in the analysis developed significant infectious AEs (≥ CTCAE grade III) with one patient succumbing to COVID-19 pneumonia, and another patient due to Klebsiella pneumoniae.Of note, one patient suffered from life threating CMV-colitis and one patient from ruxolitinib associated BK-and JC-virus nephropathy [18].
In total, 44 events of infectious AEs were documented within the first six months of treatment.Of those, 25 events were viral infections, with Epstein-Barr virus reactivation (n = 6), COVID-19 pneumonia (n = 5), and BK virus reactivation (n = 4) being the most frequent.
Additionally, in one patient (2%) with PR, treatment was changed to ixazomib after four months ruxolitinib due to molecular relapse of multiple myeloma and anemia.
Of note, one of the patients with PR also experienced molecular relapse after five months and continued with prednisolone monotherapy.One more patient showing SD at the last follow-up did not reach the 6-month follow-up and was excluded from the ORR and FFS calculations, resulting in an ORR of 33% (15/45) and an FFS of 58% (26/45) (Fig. 1).

Response to ruxolitinib at 12 months
Twelve months after the start of ruxolitinib therapy, six patients (14%) showed CR, five patients (12%) PR, two patients (5%) MR, and one patient (2%) SD, while another patient experienced PD.Three additional patients (two patients with PR and one patient with MR at last follow-up) did not reach the 12-month follow-up (total n = 5) and were excluded from calculations of ORR and FFS.
Six patients (14%) changed ISM due to new organ involvement, MR, or PD, while one patient changed ISM due to a local relapse of lymphoma and progressive cGvHD.Another patient, who experienced molecular relapse before the start of ruxolitinib treatment and discontinued ruxolitinib after 43 days due to cytopenia resulting in prednisolone monotherapy, now showed progressive cGvHD of the lung with need for additional ISM and increasing level of minimal residual disease.Another patient (2%) died of pneumonia, resulting in an ORR of 26% (11/42) and an FFS rate of 36% (15/42) (Fig. 1).In total, during the 12-month followup, two patients died due to NRM, and four patients experienced relapse of the underlying hematologic malignancy.

Discussion
Steroid-refractory cGvHD poses a therapeutic challenge for patients due to the fact that empiric second-line treatments show unsatisfactory outcomes [11,19].Since cGvHD reduces quality of life and significantly contributes to NRM, there is still a high clinical need for effective second-line treatments [20,21].The REACH3 trial showed a superior response rate and FFS for ruxolitinib compared with best available therapy (BAT) for the first time (ORR after 6 months: ruxolitinib 49.7% vs. BAT 25.6%; FFS: 74.9% vs. 44.5%)and ruxolitinib has since then been approved in steroid-refractory cGVHD [12,16,17].In this trial, ruxolitinib was given as a second-line treatment only and the study excluded patients with pre-existing cytopenia and infectious complications.This was the rationale to assess the response rate and safety of ruxolitinib within a single-center, retrospective analysis conducted on unselected patients, including those receiving advanced treatment lines.
In our study we observed an ORR of 33% within 6 months of treatment.This response rate is lower compared with that in previously published trials [12,[22][23][24][25], in which ORRs ranged from 44 to 74%.This difference may At onset of ruxolitinib treatment, 23 patients presented with anemia and 24 patients with thrombocytopenia of any grade (3 each with CTCAE ≥ grade III), respectively, whereas no patient had neutropenia.Within six months, 36 patients had anemia and 25 patients had thrombocytopenia of any grade (14/3 ≥ CTCAE grade III), showing a significant increase in anemia (p < 0.001 and p = 0.003, respectively), but not in thrombocytopenia.In addition, six patients had developed neutropenia, (p = 0.031) (Table 4).

Steroid-sparing effect of ruxolitinib
As shown in Fig. 2, the median steroid dose was constantly reduced during follow-up.After one month, the median be explained by the fact that 63% of patients in this analysis were treated with ruxolitinib after failure of second-line treatment, including patients with sclerosing manifestations.Moreover, our cohort of unselected patients treated  consistent with the previously reported data [12,24,26].Nonetheless, these data reflect the importance of continuous surveillance of outpatients for infectious complications.
In conclusion, ruxolitinib is an effective treatment option for cGvHD including efficacy in advanced treatment lines.Mallinckrodt, Neovi, Takedaz, and Novartis.Sibel Güneş is an employee of Novartis Pharma AG.Matthias Fante received honoraria from Novartis.All other authors have no competing interests.
Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made.The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material.If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder.To view a copy of this licence, visit http://creativecommons. org/licenses/by/4.0/.Nevertheless, ORR was better than that reported in the REACH3 trial for patients that received BAT (ORR after 6 months: 25.6%).
In line with the previously published data [26], response to ruxolitinib was not associated with the severity of cGvHD, number of additional ISMs, or prior therapy lines.The univariate regression analysis did not show differences for age, sex, ruxolitinib dose at onset, azole comedication, steroid dose at onset, CTCAE platelets, and CTCAE hemoglobin at the start of ruxolitinib treatment between responder and non-responder.
A major concern in patients treated with ruxolitinib is the increased risk of cytopenia and infectious morbidity.In line with the results from the REACH3 trial, the most common adverse event was anemia, which is not surprising taking into account the mechanism of action with JAK inhibition interfering with erythropoietin receptor signaling and the reported safety profile of ruxolitinib [27,28].Neutropenia, another known side effect of ruxolitinib, also increased significantly with therapy.In terms of ≥ CTCAE grade III cytopenia, the number of patients with anemia, but not neutropenia, significantly increased within the first 6 months after the onset of therapy.However, both anemia and neutropenia can be well managed with supportive care, including the use of erythropoietin or G-CSF.In contrast, there was no significant increasement in thrombocytopenia.Considering that thrombocytopenia can also be due to cGvHD itself, we investigated whether there was a difference between CTCAE score at onset of therapy and during follow-up period between responder and non-responder to ruxolitinib treatment.Interestingly, within the cohort of non-responder, 61% maintained the same CTCAE score during follow-up, whereas 13% had a lower CTCAE score and 26% a higher CTCAE score compared to start of ruxolitinib treatment.In contrast, 76% of the patients responding to ruxolitinib treatment maintained the same CTCAE score, while 18% displayed a lower CTCAE score and only 6% a higher CTCAE score than before.Therefore, the lack of increase in thrombocytopenia could also be a result of an effective GvHD therapy.
The incidence of infections ≥ grade III per patient was 21% (n = 10), comparable to the findings from the REACH3 trial [12].Three patients needed intensive care and two of them died during ruxolitinib treatment due to pulmonary infectious complications.Of note, one patient suffered from severe BK virus reactivation, and 4 patients in total presented with BK viremia.BK virus replication is controlled by binding of interferon-γ to its surface receptor (IFNγR), resulting in JAK/STAT pathway activation.Targeting of the IFNγR downstream kinases JAK1 and JAK2 by ruxolitinib thereby impairs the antiviral properties of IFNγ [29].Taken together, in the present study, the safety profile was

Table 3 Fig. 1
Fig. 1 Response assessment.Overall response rates (ORR, columns) and failure-free survival (FFS, line) over time after initiation of ruxolitinib therapy: ORR and FFS are shown as a percentage of all patients included at the respective time points

Fig. 2
Fig.2Tapering of steroid dose during follow-up.Steroid dose per kg bodyweight within a 12-month follow-up period.A significant reduction is observed.(P value 0.05 > * >0.01 > ** >0.005, treatment-induced changes are analyzed with Wilcoxon test, data are presented as median with interquartile range).A direct comparison of the steroid dose between the 6-and 12-month follow-up did not show a significant decrease, most likely as with the statistical method chosen, only those patients from the 6-month follow-up, who were still represented in the 12-month followup, are included in the latter calculation.RUX = ruxolitinib.

Table 1
Detailed characteristics of the patients, including sex, age, diagnosis, donor type, stem cell source, GvHD prophylaxis, and history and onset of acute GvHD

Table 2
Treatment characteristics and concomitant immunosuppressive medication

Table 4
Safety within 6-months follow-up