key: cord-0747382-i5jzfmrh
authors: Lafarge, Antoine; Mabrouki, Asma; Yvin, Elise; Bredin, Swann; Binois, Yannick; Clere-Jehl, Raphael; Azoulay, Elie
title: Coronavirus disease 2019 in immunocompromised patients: a comprehensive review of coronavirus disease 2019 in hematopoietic stem cell recipients
date: 2021-11-22
journal: Curr Opin Crit Care
DOI: 10.1097/mcc.0000000000000907
sha: fd980aae42ca3c51028b5950df38de791110cbe4
doc_id: 747382
cord_uid: i5jzfmrh

Immunocompromised patients are notably vulnerable to severe coronavirus disease 2019. This review summarizes COVID-19 features and outcomes in autologous and allogeneic hematopoietic stem cell transplantation (HSCT) recipients. RECENT FINDINGS: Recent findings suggest that HSCT recipients exhibit a high burden of comorbidities and COVID-19 clinical features almost similar to the general COVID population. Furthermore, HSCT recipients exhibit a protracted SARS-CoV-2 shedding, prolonging duration of symptoms and promoting the generation of highly mutated viruses. Last, most of studies report a higher COVID-19 mortality in HSCT recipients, mainly driven by age, comorbidities, time from transplantation, and immunosuppression because of both treatments and underlying hematological malignancy. SUMMARY: Further studies are warranted to determine the proper impact of HSCT-related immune disorders on COVID-19 outcomes, and to evaluate specific treatments and vaccination strategy in this high-risk population. Taken together, those findings emphasize the need for more rigorous surveillance and preemptive measures for all HSCT recipients.

Immunocompromised patients are notably vulnerable to severe coronavirus disease 2019 caused by the novel severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) [1,2 && ,3]. Solidorgan transplantation recipients, cancer, and hematological malignancy patients more often present with severe COVID-19 diseases, requiring more frequently ICU management, mechanical ventilation. Furthermore, case fatality is higher when compared with the general population [2 && , [3] [4] [5] . By September 2021, almost 5000 HSCT recipients with COVID- 19 have been reported to the Center for International Blood and Marrow Transplant Research (CIBMTR) (https://www.cibmtr.org/Covid19/Pages/ default.aspx#repdata, accessed on 21 September 2021). However, the literature focusing on HSCT recipients and COVID-19 is still limited and gaps in knowledge remain with regards to pathophysiology, clinical features, viral shedding, disease severity, risk factors, and specific therapeutic strategy.

Here we synthesize data from the emerging literature on adult HSCT recipients with COVID-19.

In the largest published studies focusing on adult HSCT recipients with COVID-19 (Table 1) , median age ranged from 35 to 67 years and most of patients were men [2 && ,4,6 Consistently with data reported in the general population, the most frequent comorbidities were hypertension, diabetes mellitus, and cardiovascular diseases. In general, immunocompromised patients had more baseline comorbidities than nonimmunocompromised patients, a finding, however, not reported in the cohort from Belsky et al. [2 && ]. HSCT indication, underlying disease status, active graft-versus-host disease (GVHD) and proportions of patients receiving immunosuppressants at the time of COVID-19 diagnosis varied considerably across studies. Median time from HSCT to COVID-19 diagnosis ranged from 14.9 to 25.6 months. Thus, being more than a year from transplantation, most of HSCT patients included in these studies were not receiving immunosuppression at the time of COVID-19. No study reported the time from disease onset to admission in critical care, which has been demonstrated to be a critical prognostic factor in severe patients [13] .

As described in the general population, in solid organ transplantation and cancer patients, the most frequent COVID-19-related symptoms reported in HSCT patients were fever (range 56-71%), cough (range 41-79%), and shortness of breath (range 24-64%) [2 && ]. Diarrhea, anosmia, and dysgeusia were more rarely reported. Because of these study designs, and the risk of underestimation in case of altered B-cell reconstitution, the rate of asymptomatic disease was rarely reported.

Healthcare-associated COVID-19 has been associated with poor outcomes in cancer patients [14] but data regarding hospital-acquired COVID-19 was mostly missing in HSCT recipients. However, in the study from Shah et al. [9 & ], 45% of patients had a known exposure outside of the medical system.

In conclusion, HSCT recipients exhibit a high burden of comorbidities and similar clinical

HSCT recipients exhibit a high burden of comorbidities and COVID-19 clinical features almost similar to the general COVID population.

HSCT recipients exhibit a protracted SARS-CoV-2 shedding, prolonging duration of symptoms and promoting the generation of highly mutated viruses.

HSCT recipients display poor COVID-19 outcomes, mainly driven by age, comorbidities, time from transplantation, and immunosuppression because of both treatments and underlying hematological malignancy. 10, 11, 15] . In the study from Xhard et al., the central review of CT scans showed that atypical lesions were not rare, suggesting that COVID-19 should not be ruled out on the sole basis of radiological findings in HSCT recipients [11] .

Nasal swab was the predominant method of COVID-19 diagnosis. Four studies provided data suggesting a consistent protracted viral shedding in HSCT patients [6 && ,7,9 & ,12]. The median shedding time among HSCT patients with at least two consecutive positive tests ranged from 26 to 54 days. It has been reported that some HSCT patients may shed viable SARS-CoV-2 for at least 2 months, arguing for longer periods of isolation in such immunocompromised patients [16] . Protracted COVID-19 disease in immunocompromised patients relying on altered B-cell and T-cell immune responses could favor the generation of highly mutated viruses [17] . Furthers studies are needed to identify the HSCT-related immune determinants of COVID-19-shedding duration.

In HSCT patients, estimated pooled prevalence of severe COVID-19, overall mortality, and ICU admission ranged from 15 to 41%, from 4.4 to 34%, and from 16 to 32%, respectively. However, there is no specific data focusing on outcomes among HSCT patients with COVID-19 requiring critical care. Mechanical ventilation was provided in 10-25% of the patients. These outcomes should be interpreted in light of the pandemic context, knowing that most of HSCT patients were not considered eligible for critical care.

In the largest series reported by Sharma et al., severe COVID-19 requiring mechanical ventilation occurred in 15% of 184 allogeneic HSCT recipients and 13% of 134 autologous HSCT recipients. The mortality of mechanically ventilated patients was not provided. The day-30 all-cause mortality was 22% for allogeneic HSCT recipients and 19% for autologous HSCT recipients. Importantly there was no association between survival and the type of transplantation [8 && ]. Despite an important heterogeneity between studies, these findings suggest a higher mortality among HSCT recipients with COVID-19 compared with the general population. In contrast, favorable outcomes reported by few studies seems attributable to highly selected population of HSCT recipients [12, 18] .

Ventilator-associated pneumonia and invasive fungal infections have emerged as important causes of morbidity and mortality in HSCT recipients [19, 20] . In studies focusing on HSCT recipients with COVID-19, documented secondary infections were uncommon, including in patients under corticosteroids or tocilizumab [ ]. However, proportions of HSCT recipients receiving empiric antibiotics could reach 80% among hospitalized patients, suggesting a high level of inappropriate antibiotherapy [15] . In our institution, antibiotics are prescribed only in HSCT recipients with clinically or radiologically suspected superimposed bacterial infection or in those with febrile neutropenia.

In SOT recipients, both patient and graft survival need to be taken account. Similarly, given the high prevalence of lymphopenia at the time of diagnosis, the potential need for immunosuppression tapering or discontinuation, the role of viral infections in altering the immune reconstitution and promoting GVHD, studies focusing on HSCT recipients with COVID-19 should monitor hematological outcomes.

In this regard, Shah et al. provided reassuring data, demonstrating that even within the first year after transplantation, HSCT patients displayed an efficient lymphocyte reconstitution after COVID-19 [16] . Despite marked lymphopenia, including a lack of circulating B cells, several patients were able to develop SARS-CoV-2 antibodies, suggesting antibody production from noncirculating lymph node or tissue-resident cells. Obviously, the level and sustainability of this response remain uncertain [16] .

The study recently published by Mushtaq et al. is the only one providing data regarding GVHD. After a median follow-up of 6.1 months, five allogeneic HCT recipients (16%) developed subsequent pulmonary chronic GVHD requiring systemic steroids and additional immunosuppressive drugs [6 && ]. In other studies, no GVHD is reported after COVID-19 infection but no conclusion can be drawn in such limited follow-up time-windows.

Comparing longitudinal lymphocyte subsets before and after COVID-19 infection, Shah et al. [9 & ] demonstrated that most of HSCT patients can develop IgG antibody responses to SARS-COV-2 despite lymphopenia, including a lack of circulating B cells. Further studies with longer follow-up are warranted to investigate the sustainability of this immune response and its clinical impact on COVID-19 incidence.

The baseline risk factors associated with HSCT recipients COVID-19 mortality were: older age [ ,10]. The association between COVID-19 mortality and older age, male sex, progressive malignancy, and baseline lymphopenia has already been demonstrated in the general population [1, 4] . It is, thus particularly challenging to distinguish the relative contribution of HSCT immune dysregulation and its related complications on COVID-19 prognosis.

Risk factors, such as time from HSCT, use of immunosuppressive drugs, and active GVHD emphasize the burden of both procedure and drug-induced immunosuppression during the first months after HSCT. The impact of recent chemotherapy on COVID-19 prognosis in cancer patients remains controversial [21, 22] . Interestingly, in the meta-analysis performed by Liu et al. [22] , mortality was associated with recent chemotherapy in patients with hematological (RR 2.68, 1.90-3.78) but not with solid cancer.

Last, in most published studies focusing on HSCT and COVID-19, autologous and allogeneic HSCT recipients displayed similar short-term mortality rates. In contrast, in the single-center prospective study published by Mushtaq et al. after a median follow-up of 6.1 months, the mortality rate was higher in allogeneic HSCT recipients in comparison with autologous HSCT patients (28 and 16%, respectively). In this cohort, allogeneic HSCT was an independent predictor of COVID-19 severity [odds ratio 3.6; 95% confidence interval (CI) 1. 

COVID-19 clinical management algorithms and healthcare resources varied considerably depending on countries and pandemic waves. Thus, a careful critical review of therapeutic management in HSCT recipients with COVID-19 is hampered by the number of patients and the heterogeneity between studies and centers. In most of patients, no specific treatment was described. In the series reported by Sharma et al. HSCT recipients with moderate or severe COVID-19 were more likely to receive COVID-19-directed therapies, such as corticosteroids, remdesivir, convalescent plasma, tocilizumab. The need for mechanical ventilation ranged from 10 to 25% but data regarding organ support were not routinely reported [8 && ]. In a variable proportion of HSCT patients across studies, therapeutic immunosuppression was reduced or discontinued.

Dexamethasone is now standard of care for patients with hypoxemia in COVID-19 pneumonia [23] . The efficacy of other directed therapies remains debated. Convalescent plasma might have a beneficial role for HSCT recipients without antibody response because of B-cell aplasia. In our institution, immunosuppressants are not systematically discontinued in HSCT patients with COVID-19.

The efficacy of SARS-CoV-2 mRNA vaccines has been successfully demonstrated in healthy populations [24] . A recent single-center cohort study reported a high response rate of 83% in allogeneic HSCT recipients after two doses of Pfizer-BioNTech COVID- 19 

This review summarizes COVID-19 features and outcomes in autologous and allogeneic HSCT recipients (Fig. 1) . The interpretation of the emerging literature is limited by the heterogeneity between studies (pandemic time-period, geography, hematological malignancies, time from HSCT, age, ICU resources, proportion of outpatients), the short-term outcomes, the limited samples, the lack of transplantrelated outcomes, and the retrospective design of these studies. Last, it should be noted that, in the context of overwhelmed health system because of the pandemic, most of HSCT patients were not considered eligible for critical care (including mechanical ventilation, extracorporeal membrane oxygenation support, ICU admission).

Further studies are warranted to analyze outcomes of HSCT patients admitted in ICU, determine the proper impact of HSCT-related immune disorders on COVID-19 outcomes, and evaluate directed therapeutic strategies, such as convalescent plasma in this high-risk population.

Available data suggest that HSCT recipients exhibit a high burden of comorbidities and COVID-19 clinical features similar to the general population. Furthermore, HSCT recipients exhibit a protracted SARS-CoV-2 shedding with prolonged symptoms and high risk of highly mutated viruses. Last, most studies report a higher COVID-19 mortality in HSCT recipients, mainly driven by age, comorbidities, time from transplantation, and immunosuppression because of both treatments and underlying hematological malignancy.

Taken together, those findings emphasize the need for more rigorous surveillance and preemptive measures for all HSCT recipients.

COVID-19 with different severities: a multicenter study of clinical features

COVID-19 in immunocompromised patients: a systematic review of cancer, hematopoietic cell and solid organ transplant patients

In this is first systematic review evaluating COVID-19 phenotype and outcomes in immunocompromised patients and comparing them to the general population, Belsky et al. identify poor COVID-19 outcomes

Impact of immunosuppression on mortality in critically ill COVID-19 patients

ITA-HEMA-COV Investigators. Clinical characteristics and risk factors associated with COVID-19 severity in patients with haematological malignancies in Italy: a retrospective, multicentre, cohort study

The risk and prognosis of COVID-19 infection in cancer patients: a systematic review and meta-analysis

Impact of SARS-CoV-2 in hematopoietic stem cell transplantation and chimeric antigen receptor T cell therapy recipients

Among allogeneic HSCT recipients, 5 (16%) developed subsequent pulmonary chronic GVHD necessitating systemic steroids and additional IST. Significant predictors of COVID-19 severity included allogeneic HSCT, history of grade II-IV acute GVHD

Clinical presentation and outcomes of COVID-19 following hematopoietic cell transplantation and cellular therapy

Clinical characteristics and outcomes of COVID-19 in haematopoietic stem-cell transplantation recipients: an observational cohort study

Three hundred and eighteen HSCT recipients diagnosed with COVID-19 were included in this retrospective study. At 30 days after the diagnosis of COVID-19, overall survival was 68% for recipients of allogeneic HSCT and 67% for recipients of autologous HSCT. Age 50 years or older, male sex, and development of COVID-19 within 12 months of transplantation were associated with a higher risk of mortality among allogeneic HSCT recipients

Favorable outcomes of COVID-19 in recipients of hematopoietic cell transplantation

This retrospective study provides preliminary insights into the lymphocyte populations that are key for the antiviral response and immune reconstitution. Immune profiling reveals reductions and rapid recovery in lymphocyte populations across lymphocyte subsets. Antibody responses were seen in a subset of patients

COVID-19 infection in hematopoietic cell transplantation: age, time from transplant and steroids matter

Risk factors for a severe form of COVID-19 after allogeneic haematopoietic stem cell transplantation: a Socié té Francophone de Greffe de Moelle et de Thé rapie cellulaire (SFGM-TC) multicentre cohort study

Clinical course and outcomes of COVID-19 in hematopoietic cell transplant patients, a regional report from the Middle East

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Comparison of antifungal prophylaxis drugs in patients with hematological disease or undergoing hematopoietic stem cell transplantation: a systematic review and network meta-analysis

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None.Financial support and sponsorship None.

There are no conflicts of interest.