Implications of acute coronavirus disease 2019 during haematopoietic stem cell transplantation—Experience from real-world clinical practice

EJHaem Pub Date : 2024-07-12 DOI:10.1002/jha2.978
Christopher Shwei Wen Tham, Jeffrey Quek, Yeh Ching Linn, Lawrence Ng, Aloysius Ho, Francesca Lim, Yunxin Chen, Chandramouli Nagarajan, William Hwang, Jing Jing Lee, Gina Gan, Shimin Jasmine Chung, Ban Hock Tan, Thuan Tong Tan, Hein Than
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COVID-19 disease severity by National Institutes of Health (NIH) guidelines [<span>3</span>] was mild in nine patients, moderate in one patient and critical in one patient. Eight patients received antivirals with or without concurrent monoclonal antibodies (mab; sotrovimab, <i>n</i> = 4; casirivimab–imdevimab, <i>n</i> = 1).</p><p>Patient characteristics and outcomes are summarised in Table 1, and transplant-related details are provided in Supporting Information Table 1. Two patients died of non-relapse pulmonary complications on days +43 and +50 post-HCT. There were no instances of grade III–IV acute graft versus host disease and no evidence of SARS-CoV-2 reinfection or late complications, or increase in viral reactivation of cytomegalovirus, Epstein-Barr virus and human herpesvirus 6.</p><p>Two patients with COVID-19 infection immediately prior to HCT were promptly treated with antiviral and/or mab, but experienced diverse clinical courses as illustrated in Figure 1. 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引用次数: 0

Abstract

The impact of community-acquired respiratory viral infections (CARVIs) in the transplant population has been highlighted by the recent coronavirus disease 2019 (COVID-19) pandemic. Patients undergoing haematopoietic stem cell transplantation (HCT) following acute COVID-19 experienced significant morbidity and mortality. Few guidelines and reports suggest that HCT is deferred during persistent severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) positivity during and after infection, and is feasible only in fully recovered patients [1, 2]. However, those with high-risk haematological malignancies often progress and succumb to their disease without timely HCT. These two opposing pressures must therefore be reconciled, yet data are sparse on the optimal timing and safety of HCT that needs be performed during or immediately following acute COVID-19 infection.

In this study at Singapore General Hospital, the largest tertiary transplant centre in Singapore, the outcome of patients who underwent HCT following COVID-19 in the preceding 120 days or with active COVID-19 infection during transplant was analysed. A retrospective analysis of transplant-related outcomes in consecutive patients admitted for planned HCT between September 2021 and April 2022 was conducted. COVID-19 was detected by SARS-CoV-2 RNA by polymerase chain reaction (PCR) on nasopharyngeal swab. Patients diagnosed with COVID-19 within 120 days prior to stem cell infusion were included in the study.

We identified 10 allogeneic and 1 autologous HCT patients. Median interval between diagnosis of COVID-19 to HCT infusion was 53 days (range 1–118). Median duration of COVID-19 infection (defined by time to negative PCR) was 20 days. Six patients tested negative by PCR and 2 were prolonged low-level viral shedders, prior to HCT. Two patients were diagnosed with COVID-19 while receiving conditioning chemotherapy prior to HCT infusion, at days −1 and −3, respectively.

All allogeneic HCT patients were fully vaccinated with two doses of mRNA vaccines (Pfizer-BioNTech BNT162b2 or Moderna mRNA-1273) prior to infection. Median receptor binding domain IgG serology titre (Abbott assay) in vaccinated patients was 1301 AU/mL at the time of COVID-19 diagnosis. COVID-19 disease severity by National Institutes of Health (NIH) guidelines [3] was mild in nine patients, moderate in one patient and critical in one patient. Eight patients received antivirals with or without concurrent monoclonal antibodies (mab; sotrovimab, n = 4; casirivimab–imdevimab, n = 1).

Patient characteristics and outcomes are summarised in Table 1, and transplant-related details are provided in Supporting Information Table 1. Two patients died of non-relapse pulmonary complications on days +43 and +50 post-HCT. There were no instances of grade III–IV acute graft versus host disease and no evidence of SARS-CoV-2 reinfection or late complications, or increase in viral reactivation of cytomegalovirus, Epstein-Barr virus and human herpesvirus 6.

Two patients with COVID-19 infection immediately prior to HCT were promptly treated with antiviral and/or mab, but experienced diverse clinical courses as illustrated in Figure 1. Patient 5 who had haplo-identical HCT with post-transplant cyclophosphamide (PTCy) was diagnosed with COVID-19 infection 3 days prior to stem cell infusion. He developed severe COVID-19 pneumonia on day +7 post-transplant and eventually died on day +50 from respiratory failure. In contrast, patient 4 who had relatively low exposure to immunosuppressive chemotherapy had uncomplicated COVID-19 clinical course without lower respiratory tract infection, despite acquiring infection 1 day prior to stem cell infusion and lasting 20 days.

Existing evidence addresses the outcomes of patients who develop COVID-19 after HCT, rather than immediately preceding or during transplant. Prospective data suggest that COVID-19 is more likely to lead to lower respiratory tract infection and mortality in those post-HCT [4, 5]. It is also noteworthy that these studies looked at earlier variants of SARS-CoV-2 when vaccination and therapeutics were not widely established. There is minimal data and guidance on the optimal timing of HCT post-COVID-19 or the treatment of COVID-19 during HCT.

Optimising patients prior to HCT is crucial in the context of unpredictable risk of CARVIs. Vaccination, if available, should remain the mainstay of pre-emptive therapy. Although there is no international consensus on how to determine immunogenicity post-vaccination for COVID-19 during the pandemic, neutralising antibody titre was one correlate of protection [9], which was used at our centre. Those with lymphoid malignancies or receiving lymphodepleting treatment, particularly anti-CD20 therapy, may have a reduced titre of the neutralising antibody, suboptimal efficacy of vaccination, and prolonged viral shedding [6]. Among the patients who died in our cohort, we observed a trend for lower absolute lymphocyte counts (ALC) (median 0.7, range 0.42–0.98 × 109/L) at the start of transplant preparative regimen, compared to the ALC in those who remained alive (median 1.5, range: 0–7.16 × 109/L).

T cells also play an essential role in protective immunity against COVID-19 [7], typically later on in the disease process once cells have been infected and start to present viral antigens, as compared to the antibody response. However, this aspect of immune function is not readily assessable in routine clinical practice. This is particularly important for those undergoing haploidentical HCT, either with in vivo PTCy administration or ex vivo T-cell depletion of the graft. The intended immunosuppressive effect of PTCy on alloreactive host T cells is likely to affect the immune system's ability to combat COVID-19, resulting in delayed viral clearance and severe pneumonia, as seen in patient 5 of our cohort.

Persistence of SARS-CoV-2 RNA in lung tissue has been demonstrated, even after being undetectable on nasopharyngeal swab. In one published case, digital PCR analysis of lung samples post mortem was positive for SARS-CoV-2 [8], and in another, was detected on bronchoalveolar lavage specimens as well as immunohistochemistry of lung samples [9]. Patient 3 in our cohort, who had an undetectable SARS-CoV-2 RNA by PCR at the time of transplant, died 43 days post-HCT from complications related to idiopathic pneumonia syndrome. We hypothesise that lung injury from COVID-19 may have predisposed to this rare post-transplant complication, though there is limited data in the literature regarding this at present.

Overall, our study suggests that timely and life-saving HCT requires cautious monitoring and comprehensive supportive care including vaccination and early anti-viral therapy of for acute COVID-19 infection peri-transplant. It is important to highlight the potential mortality that can arise from pulmonary complications post-COVID-19, as with two cases in our cohort. Furthermore, a careful decision on conditioning regimens with T-cell depletion should be made according to disease risk–benefit assessment. The potential effect of COVID-19 on long-term post-transplant outcomes, such as GvHD and immune-mediated complications, warrants continued evaluation.

Christopher Shwei Wen Tham designed the research study, performed data collection, analysis and wrote the paper. Hein Than designed the research study, analysed the data and wrote the paper.

Yeh Ching Linn, Lawrence Ng, Jeffrey Quek, Aloysius Ho, Francesca Lim, Yunxin Chen, Chandramouli Nagarajan, William Hwang, Jing Jing Lee, Gina Gan, Shimin Jasmine Chung, Ban Hock Tan and Thuan Tong Tan contributed to research study design, provided the data, and were responsible for critical review and editing of the manuscript.

The authors declare no conflicts of interest.

The authors received no specific funding for this work.

The authors have confirmed ethical approval statement is not needed for this submission.

The authors have confirmed patient consent statement is not needed for this submission.

Not applicable.

The authors have confirmed clinical trial registration is not needed for this submission.

Abstract Image

2019年造血干细胞移植期间急性冠状病毒疾病的影响--来自真实世界临床实践的经验
最近发生的2019年冠状病毒病(COVID-19)大流行凸显了社区获得性呼吸道病毒感染(CARVI)对移植人群的影响。急性 COVID-19 后接受造血干细胞移植(HCT)的患者经历了严重的发病率和死亡率。很少有指南和报告建议在感染期间和感染后持续严重急性呼吸系统综合征冠状病毒2(SARS-CoV-2)阳性时推迟进行造血干细胞移植,只有完全康复的患者才可行[1, 2]。然而,那些患有高危血液恶性肿瘤的患者往往因病情恶化而无法及时接受造血干细胞移植。在新加坡最大的三级移植中心--新加坡中央医院(Singapore General Hospital)进行的这项研究中,分析了在感染 COVID-19 前 120 天内接受 HCT 或在移植期间感染 COVID-19 的患者的预后。该研究对2021年9月至2022年4月期间计划接受造血干细胞移植的连续患者的移植相关结果进行了回顾性分析。通过鼻咽拭子上的聚合酶链反应(PCR),以 SARS-CoV-2 RNA 检测 COVID-19。在干细胞输注前120天内诊断出COVID-19的患者被纳入研究。从确诊COVID-19到干细胞移植输注之间的中位间隔为53天(范围1-118)。COVID-19感染的中位持续时间(以PCR阴性时间定义)为20天。六名患者的 PCR 检测结果为阴性,两名患者在接受 HCT 之前长期处于低水平病毒散播状态。所有异基因 HCT 患者在感染前均接种了两剂 mRNA 疫苗(Pfizer-BioNTech BNT162b2 或 Moderna mRNA-1273)。在确诊 COVID-19 时,疫苗接种患者的受体结合域 IgG 血清学滴度中位数(雅培检测法)为 1301 AU/mL。根据美国国立卫生研究院(NIH)指南[3],COVID-19 疾病的严重程度在 9 名患者中为轻度,在 1 名患者中为中度,在 1 名患者中为重度。八名患者接受了抗病毒治疗,同时或未同时使用单克隆抗体(mab;索特罗维单抗,n = 4;卡西利韦单抗-伊美德韦单抗,n = 1)。患者特征和预后见表 1,移植相关详情见佐证资料表 1。两名患者死于非复发肺部并发症,时间分别为移植后+43天和+50天。没有出现 III-IV 级急性移植物抗宿主疾病,没有 SARS-CoV-2 再感染或晚期并发症的迹象,也没有巨细胞病毒、爱泼斯坦-巴氏病毒和人类疱疹病毒 6 的病毒再活化增加。患者5接受单倍体同种异体造血干细胞移植,移植后使用环磷酰胺(PTCy),在干细胞输注前3天被诊断出感染COVID-19。移植后第7天,他患上严重的COVID-19肺炎,最终在第50天死于呼吸衰竭。相比之下,4号患者接受免疫抑制化疗的机会相对较少,尽管在干细胞输注前1天感染,并持续了20天,但其COVID-19临床过程并不复杂,没有下呼吸道感染。前瞻性数据显示,COVID-19更有可能导致下呼吸道感染,并导致移植后患者死亡[4, 5]。值得注意的是,这些研究针对的是 SARS-CoV-2 的早期变种,当时疫苗接种和治疗方法尚未广泛确立。关于 COVID-19 后 HCT 的最佳时机或 HCT 期间 COVID-19 的治疗,目前只有极少的数据和指导。如果可以接种疫苗,疫苗接种仍应是先期治疗的主要手段。虽然国际上尚未就大流行期间如何确定接种 COVID-19 疫苗后的免疫原性达成共识,但中和抗体滴度是保护作用的一个相关指标[9],我们中心也采用了这一指标。淋巴恶性肿瘤患者或接受淋巴清除治疗(尤其是抗 CD20 治疗)者的中和抗体滴度可能会降低,疫苗接种效果不佳,病毒脱落时间延长[6]。 在我们队列中死亡的患者中,我们观察到在移植准备方案开始时,绝对淋巴细胞计数(ALC)呈下降趋势(中位数为 0.7,范围为 0.42-0.98 × 109/L),而存活患者的绝对淋巴细胞计数(ALC)则呈下降趋势(中位数为 1.5,范围为 0-7.16 × 109/L)。T细胞在针对COVID-19的保护性免疫中也发挥着重要作用[7],与抗体反应相比,T细胞通常在疾病过程的后期,一旦细胞受到感染并开始呈现病毒抗原,T细胞就会发挥重要作用。然而,在常规临床实践中,这方面的免疫功能并不容易评估。这对于接受体内 PTCy 给药或体外 T 细胞耗竭移植的单倍体同种异体造血干细胞移植患者来说尤为重要。PTCy 对异体活性宿主 T 细胞的预期免疫抑制作用很可能会影响免疫系统对抗 COVID-19 的能力,从而导致病毒清除延迟和重症肺炎,就像我们队列中的第 5 位患者一样。在一个已发表的病例中,对死后肺部样本的数字 PCR 分析显示 SARS-CoV-2 呈阳性[8],而在另一个病例中,支气管肺泡灌洗液标本和肺部样本的免疫组化分析均检测到 SARS-CoV-2 [9]。我们队列中的患者 3 在移植时通过 PCR 检测不到 SARS-CoV-2 RNA,但在移植后 43 天死于与特发性肺炎综合征相关的并发症。我们推测,COVID-19 造成的肺损伤可能导致了这种罕见的移植后并发症,尽管目前这方面的文献数据还很有限。总之,我们的研究表明,要及时挽救 HCT 的生命,就必须对移植前的急性 COVID-19 感染进行谨慎的监测和全面的支持性治疗,包括接种疫苗和早期抗病毒治疗。必须强调的是,COVID-19 后的肺部并发症可能会导致死亡,我们的队列中就有两例这样的病例。此外,应根据疾病的风险-效益评估,谨慎决定是否采用 T 细胞耗竭的调理方案。COVID-19对移植后长期预后(如GvHD和免疫介导的并发症)的潜在影响值得继续评估。Yeh Ching Linn、Lawrence Ng、Jeffrey Quek、Aloysius Ho、Francesca Lim、Yunxin Chen、Chandramouli Nagarajan、William Hwang、Jing Jing Lee、Gina Gan、Shimin Jasmine Chung、Ban Hock Tan和Thuan Tong Tan参与了研究设计,提供了数据,并负责审阅和编辑手稿。作者声明不存在利益冲突。作者未就本研究工作获得任何特定资助。作者已确认本研究报告不需要伦理批准声明。作者已确认本研究报告不需要患者同意声明。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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