key: cord-0709136-minh3ya6
authors: Samaha, Ramy; Kattan, Joseph
title: Hematopoietic stem cell transplantation dilemma during the COVID-19 era
date: 2020-05-27
journal: Future oncology
DOI: 10.2217/fon-2020-0414
sha: cd8767295aed169f9e08f7680f1121ff69dcb296
doc_id: 709136
cord_uid: minh3ya6

nan

GLOBOCAN 2018 expects cancer to be the leading cause of death in every country in the 21st century, estimating 18.1 million new cancer cases and 9.6 million cancer deaths [14] . Cancer patients are at higher risk of any infection due to the immunosuppression frequently caused by cancer itself and cancer related treatment [15] [16] [17] . Growing evidence support the fact that cancer patients are at higher risk of COVID-19 infection and related complications including death [18, 19] . Subsequently, oncologists and oncology societies have been forced to apply some practice changes when possible such as: delay or omission of treatment, switching from intravenous to oral medication, using neoadjuvant chemotherapy as a bridge to delay surgery, prescribing marginally less effective treatment but with lower risk of immunosuppression and increasing use of white blood cell growth factors [20, 21] .

Initially described in the 1950s on mice models, hematopoietic stem cell transplantation (HSCT) was first used on humans in 1957 [22, 23] . This accomplishment and the continued research on bone marrow transplant earned Dr E Donnall Thomas the Nobel Prize of physiology and medicine in 1990 [24] . Since, allogeneic and autologous bone marrow transplantation have revolutionized the treatment for a variety of malignant hematologic and solid tumors as well as nonmalignant hematologic and immunologic diseases [25] . Bone marrow transplant starts with mobilization then harvesting and cryopreservation of hematopoietic stem cells from histocompatible related or unrelated donors in allogenic, and from the patient's bone marrow or peripheral cells in autologous transplantation. Thereafter comes the conditioning phase to eradicate malignant and host immune cells using various myeloablative conditioning (MAC), non myeloablative, and reduced intensity conditioning regimens. MAC regimens offer lower risks of relapses on the expense of higher toxicity, while non myeloablative regimens offer a better safety profile in a specific population with high comorbidities but with a higher rate of relapse [26, 27] . These regimens are based on various intensity of chemotherapy and/or radiation therapy [25, 28] . Allogenic HSCT offers the benefit of graft versus tumor effect able to eradicate malignant cells after nonablative conditioning regimens [29] . Lastly comes the transfusion of stem cells and homing to the recipient's hematopoietic microenvironment with engraftment in the bone marrow niches [30] . The goal of HSCT is curative, although cure rates in high-risk malignancies is substantially lower than patients' expectations [31] .

Many challenges and constraints face patients undergoing HSCT and their informal caregivers with a long and unpredictable illness trajectory [32] . Allogenic HSCT recipients frequently need unscheduled hospital admissions and should temporarily relocate to stay close to the hospital [33, 34] . After conditioning patients lose all T-and B-lymphocytes, losing all immune memory accumulated through the years in addition to damaged mucocutaneous barriers. Thus, HSCT are a highly susceptible population to opportunistic infections [35] . Community viral respiratory infection can occur in about half of HSCT recipients, and infectious complications have been reported to be as high as 92% [36, 37] . Therefore, CDC recommends strict adherence to infection control measures such as wearing protective gear and isolation, as well prophylactic antimicrobial and antifungal regimens [35] . Evidently, respiratory viral upper tract infection is less common in non-MAC regimens compared with myeloablative ones during the first 100 days, although rate of acquisition beyond the 100 days was similar [38] . Gil [39] . Furthermore, allogenic HSCT recipients have poor outcome after ICU admissions nevertheless Lengliné et al. showed a recent improvement of outcomes in ICU with a 3-month mortality of 70% after mechanical ventilation with infection being the main cause of death (30.6%) [40] . Although the goal of HSCT is curative and patient might suffer harm if the procedure is delayed, treatment related toxicities and technical difficulties will be amplified and overwhelming during this pandemic. Thus, hematologic societies, such as EBMT and ASTCT, have been quick to release new interim guidelines to help physicians during this very particular time of viral outbreak. First of all, before the start of the procedure, the availability of adequately trained staff, facilities including ICU beds and ventilators should be checked [41] . Next is assuring the availability of the cell therapy product through minimum disruption of couriers delivering, considering travel restrictions and strained healthcare system, as well as cryopreservation products as early as possible before conditioning and having alternate donor options [41, 42] . Furthermore, all patients should be tested SARS-Cov2 PCR test before the start of the procedure [41, 43] . As to donors, SARS-CoV-2 can also be detected in blood, but screening for SARS-CoV-2 in blood products is not recommended by American Association of Blood Banks guidelines and considering risk factors for infection and exposure history during the last 28 days is recommended by the US FDA, although there has been no reported transmission by blood products [44] [45] [46] . Different scenarios are presented for recipient and donor, although clinical judgment of the treating physician remains the most important factor. These clinical scenarios are as presented by hematologic societies are summarized in Table 1 [41, 43] .

With the number of COVID-19 cases rising every day, the management of cancer patients is becoming more challenging. HSCT recipients represent a vulnerable population due to the frequent severity of their baseline hematologic malignancies and the high risk of complications, notably infectious complications, after treatment initiation. However, bone marrow transplant remains the only curative therapy in many of these malignancies, and time is crucial for these patients. Hence, hematologic society's guidelines have come to help clinical judgment during this pandemic. "Primum non nocere" remains the pillar of medical practice and decision making for physician and many questions are left to be answered: How long is delaying HSCT safe? How far could the curative effect of HSCT be maintained? Real-world data of HSCT patients from the COVID-19 affected areas are eagerly needed to shed light on many of these questions and help clinicians make optimal judgments for their patient.

Author contributions R Samaha did review of literature, drafting and critical writing. J Kattan did outlining of the article, correction and final approval.

The authors have no relevant affiliations or financial involvement with any organization or entity with a financial interest in or financial conflict with the subject matter or materials discussed in the manuscript. This includes employment, consultancies, honoraria, stock ownership or options, expert testimony, grants or patents received or pending, or royalties.

No writing assistance was utilized in the production of this manuscript.

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