Introduction
Invasive fungal disease (IFD) is a common infectious complication of allogeneic hematopoietic stem cell transplantation (allo-HSCT) [
1]. Especially in China, the incidence of IFD after secondary antifungal prophylaxis (SAP) was 38.6% among patients receiving allo-HSCT [
2]. In general, broad-spectrum antifungal agents such as voriconazole, itraconazole, liposomal amphotericin B, and caspofungin are effective for patients with a history of fungal infection [
3]. However, due to the lack of large prospective study, there is no consensus on SAP regimen. In order to avoid prophylaxis failure, medication that had been effective and well tolerated in initial antifungal therapy should be used for SAP [
4]. However, in study done by Liu, they found no significant difference in IFD occurrence rate between such medication and other broad-spectrum medication. Therefore, using a broad-spectrum antifungal medication as SAP is feasible [
3]. In addition, the opportunistic molds and yeast-like fungi (e.g.
Zygomycetes, Fusarium spp. and
Candida spp.) are gradually emerging in HSCT recipients during recent broad-spectrum antifungal treatment [
5]. Therefore, SAP drug selection needs to take in account of drug resistance from such strains.
Posaconazole has become a widely accepted strategy for IFD prevention in acute myeloid leukemia (AML) or myelodysplastic syndromes (MDS) patients who undergo intensive chemotherapy and allo-HSCT recipients with graft-versus-host disease (GVHD) [
6,
7]. Compared with other azole antifungals, it has strengths of broad spectrum, great potency, cost-efficiency and good long-term tolerance [
6,
8‐
11]. However, absorption is still an important factor to consider in efficacy assessment of posaconazole.
In this retrospective study, the efficacy of posaconazole SAP therapy for IFD was assessed. In addition, we compared the clinical outcomes between allo-HSCT recipients with IFD before transplantation and those without when posaconazole was used as systemic antifungal prophylaxis.
Methods
Patients
We retrospectively analyzed the records of consecutive adult patients who underwent allogeneic HSCT and used posaconazole as systemic antifungal prophylaxis from June 2016 to January 2021 in The Affiliated People's Hospital of Ningbo University. During this period, 212 patients received allogeneic HSCT. Among the HSCT recipients, 116 (54.7%) received posaconazole oral suspension 200 mg orally three times daily and 7 (3.3%) received posaconazole oral suspension 400 mg twice daily. These 123 patients were included for our study. This study was conducted in accordance with the Declaration of Helsinki and approved by the Ethics Committee of The Affiliated People's Hospital of Ningbo University. All patients have signed informed consent forms to participate in the study.
Transplant regimens and post-transplant immunosuppression
All patients received conventional regimen such as myeloablative/reduced-intensity conditionings, and were classified based on criteria described by Giralt et al. [
12]. Cyclosporine A (CsA) + mycophenolate mofetil (MMF) + a short course of methotrexate (MTX) were administered to the patients undergoing human leukocyte antigen (HLA)-matched sibling donor (MSD) transplant for GVHD prophylaxis. After January 2019, CsA + MMF + MTX + anti-thymocyte globulin (ATG) (ThymoglobulinⓇ, Genzyme, Cambridge, MA) were administered for 1.5 mg/kg i.v. on day-3, -2 and -1 to the MSD transplant patients whose age ≥ 45 years, and CsA + MMF + MTX + ATG (2.5 mg/kg i.v. on day-4, -3, -2 and -1) were administered to the patients undergoing haploidentical donor [
13] transplants for GVHD prophylaxis, some haploidentical recipients received transplant cyclophosphamide 50 mg/kg on day + 3.
Definition
IFD was classified as proven, probable, or possible infection according to the European Organization for Research and Treatment of Cancer and the Mycoses Study Group Education and Research Consortium (EORTC/MSG) [
14]. Suspected IFD included these proven, probable, possible IFD. Responses to treatment were classified into CR, partial response (PR), stable responses, and failure of therapy [
15]. Stable IFD was defined as CR response to prior IFD at transplantations while active IFD was defined as PR or stable responses to prior IFD at transplantations [
4]. Failure of antifungal prophylaxis was defined by any of following cases: changing to an alternative antifungal agent or dosing modification due to suspected IFD, gastrointestinal intolerance (GI) in patients with severe mucositis, colitis, diarrhea, nausea, or emesis, drug-drug interactions, persistent fever in an appropriate clinical context and failure to defervesce after administration of empiric antibiotics during IFD prophylaxis. The absence of suspected IFD, as well as no emerging IFD (for SAP patients specifically) without antifungal agent or dosing modification, were defined as successful cases.
Administration of prophylactic antifungal agents
Antifungal prophylaxis was started on the first day of the conditioning regimen until 90 days after transplantation in patients without IFD before transplantation. SAP was given started on the first day of the conditioning regimen until 180 days after transplantation for patients with IFD before transplantation. For patients with active IFD and received SAP for more than 180 days but never reached the eradication or stability of residual foci, the SAP will be further extended till the eradication or stability of residual foci. The antifungal prophylaxis agent was given again if patients developed chronic GVHD (cGVHD), or they were treated with long-term systemic corticosteroids. Posaconazole oral suspension (200 mg orally three times a day) was administered as primary antifungal prophylaxis (PAP) and SAP for patients who had a history of IFD and achieved complete response (CR) after antifungal treatment before HSCT. Posaconazole oral suspension was administered at 400 mg twice daily as SAP for patients who had active IFD, then switched to 200 mg three times a day when the residual foci in the patients was eradicated. In case of antifungal prophylaxis failure, we would either change dose of posaconazole, or replace posaconazole with other broad-spectrum antifungal drugs (voriconazole, caspofungin, amphotericin B. or combination of voriconazole and caspofungin).
Efficacy evaluation
All the patients were followed up until at least 12 months after allo-HSCT. IFD was routinely monitored through clinical symptoms, chest, sinuses, and/or abdomen computed tomography test, bronchoscopy and bronchoalveolar lavage serological testing for Aspergillus galactomannan, (1,3)-B-D-glucan, the culture of related tissue or samples and next-generation sequencing.
Statistical analysis
Continuous variables were represented in median, and categorical variables were represented in percentages. The PAP and SAP groups were compared using the chi-square test for categorical variables and Wilcoxon rank sum test for quantitative data. The survival curves for OS was plotted using the Kaplan–Meier method. A multivariate analysis was performed using logistic regression for the occurrence of IFD. The cumulative incidences of prophylaxis failure, IFD by 1 year after allo-HSCT were calculated using Fine and Gray’s model with death as a competing event. As this retrospective analysis was designed as an exploratory investigation, statistical power calculation (sample size) was not conducted. The endpoint of the last follow-up for all of the surviving patients was December, 2021. SPSS16.0 (IBM, Chicago, IL, USA) was used for the statistical analysis. The R version 3.6.0 (
http://www.r-project.org) software was used for competing risks analysis. P < 0.05 was considered as statistically significant.
Discussion
To our knowledge, this is the first report to evaluate the efficacy and safety of secondary prophylaxis with posaconazole in patients undergoing allo-HSCT. The number of observed prophylaxis failure (43.1%) during the study was high comparing to previous reports (33%) [
9]. However, previous report mainly focused on PAP in recipients of intensive chemotherapy with a short follow-up phase [
9]. Our study had found some risk factors for prophylaxis failure such as more GI events during conditioning regimens, use of corticosteroid and immunosuppressant, GVHD, CMV infections, extended follow-up time and so on. In patients with IFD history undergoing allo-HSCT, 2 retrospective studies had demonstrated the incidence of IFD was 42.9% with itraconazole as SAP agent, 31.3% with voriconazole as SAP agent, 0% to 55.5% with L-AmB as SAP agent and 13.8% to 16.7% with caspofungin as SAP agent. Our results showed a relatively low rate of the 1-year incidence of IFD (23.1%) in allo-HSCT recipients who received posaconazole as second prophylactic. It is suggested that posaconazole is relatively effective. A major cause of prophylaxis failure, accounting for nearly half of cases, was GI intolerance. Posaconazole was stopped in only three patients with abnormal liver function tests, while two of them were later found to be related to liver GVHD based on biopsy. Therefore, posaconazole is suggested to be safe and suitable for long-term treatment. The most common cause for posaconazole discontinuation was intolerance and clinician concern for absorption that occurred much earlier than discontinuations for suspected IFD, which was in line with recent reports [
16]. Overall, posaconazole appears to be safe and effective in protecting such patients without severe mucositis, colitis, diarrhea, nausea, or emesis from recurring or new systemic fungal disease.
To identify the relevant risk factors of taking posaconazole orally as anti-fungal prophylaxis therapy in patients post allo-HSCT, further studies are required. CMV organ disease have been found as risk factor for IFD relapse for allo-HSCT[
17]. In this retrospective study, patients with CMV organ disease also had higher incidence of IFD than those without CMV organ disease during posaconazole prophylaxis. This might be attributed to local and systemic immunosuppression induction by CMV organ disease, use of glucocorticoids, prolonged lymphopenia, GVHD and ganciclovir treatment of CMV complicated by neutropenia [
17‐
19]. Therefore, intensification of antifungal prophylaxis and strict monitoring by radiological, serological method and molecular diagnostic should be considered for these patients [
20]. However, the result should be interpreted carefully due to low amount of events in the proportional hazard model to cause inconclusive result.
It has been demonstrated that prophylaxis with posaconazole is associated with an increased efficacy of IFD prevention and an improved survival comparing to fluconazole or itraconazole prophylaxis in acute leukemia or MDS patients undergoing intensive chemotherapy [
6]. Furthermore, safety and efficacy were recently assessed on a phase 3, randomized controlled, non-inferiority trial, and suggested that posaconazole had similar all-cause mortality and better tolerability than voriconazole for primary treatment in participants with invasive aspergillosis, including the patients undergoing allo-HSCT [
21]. These results were similar to ours and confirmed that PAP of posaconazole was effective and safe in patients undergoing allo-HSCT. It is theoretically feasible to select the agent that had been effective, broad-spectrum and well tolerated in primary antifungal therapy for SAP. In our study, the 2-year overall survival rate of the 30 patients with IFD history was 68.1% ± 8.9% which was not significantly different than patients without a history of IFD before transplantation. The majority of deaths were caused by primary disease relapse and III–IV GVHD. This indicates that posaconazole prophylaxis can be used safely for allo-HSCT patients with a history of IFD. In addition, it is important to note that early diagnosis and prompt antifungal therapy are all critical to patient outcomes.
Our study have several limitations. First, our study is single-centered study with small sample size, which means the findings of our study may not be generalized. Second, posaconazole was switched to other antifungal agents in approximately one-fifth of patients long before discontinuations for suspected IFD. Therefore, a small portion of our results did not reflect only the effect of posaconazole prophylaxis, but also multitude of challenges in clinical practice and in a real-world in this complex patient population. Therefore, for those patients with more complexed variables should be considered. Finally, routine therapeutic drug monitoring for posaconazole was not carried out in clinical practice in this study. In the literature, the plasma concentration of posaconazole was related to the incidence of IFD [
22]. This potential posaconazole serum concentration differences would make data analysis more difficult and complex, but will be considered in the future study.
Conclusion
In summary, our study support that allo-HSCT patients without impaired GI absorption and with a prior history of IFD can choose posaconazole as prophylactic option. Our study showed posaconazole is well-tolerated over a prolonged period of time. The availability of oral posaconazole makes the agent convenient for outpatient use, for example, in patients with cGVHD or taking long-term systemic immunosuppressant. Given the limitations we mentioned above, further investigation in prospective randomized large trials is required.
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