Nosocomial Transmission of SARS-CoV-2 Involving Vaccinated Health Care Workers

ABSTRACT COVID-19 vaccination has proven to be effective at preventing symptomatic disease but there are scarce data to fully understand whether vaccinated individuals can still behave as SARS-CoV-2 transmission vectors. Based on viral genome sequencing and detailed epidemiological interviews, we report a nosocomial transmission event involving two vaccinated health care-workers (HCWs) and four patients, one of them with fatal outcome. Strict transmission control measures, as during the prevaccination period, must be kept between HCWs and HCWs-patients in nosocomial settings. IMPORTANCE COVID-19 vaccination has proven to be effective at preventing symptomatic disease. Although some transmission events involving vaccinated cases have also been reported, scarce information is still available to fully understand whether vaccinated individuals may still behave as vectors in SARS-CoV-2 transmission events. Here, we report a SARS-CoV-2 nosocomial transmission event, supported on whole genome sequencing, in early March 2021 involving two vaccinated HCWs and four patients in our institution. Strict transmission control measures between HCWs and HCWs - patients in nosocomial settings must not be relaxed, and should be kept as strictly as during the prevaccination period.

IMPORTANCE COVID-19 vaccination has proven to be effective at preventing symptomatic disease. Although some transmission events involving vaccinated cases have also been reported, scarce information is still available to fully understand whether vaccinated individuals may still behave as vectors in SARS-CoV-2 transmission events. Here, we report a SARS-CoV-2 nosocomial transmission event, supported on whole genome sequencing, in early March 2021 involving two vaccinated HCWs and four patients in our institution. Strict transmission control measures between HCWs and HCWs -patients in nosocomial settings must not be relaxed, and should be kept as strictly as during the prevaccination period.
KEYWORDS COVID-19, SARS-CoV-2, transmission, vaccination, nosocomial, genomics C OVID-19 vaccination has proven to be effective at preventing symptomatic disease (1) and reducing transmission from vaccinated infected individuals to other household members (2). Although some transmission events involving vaccinated cases have also been reported (3,4), scarce information is still available to fully understand whether vaccinated individuals may still behave as vectors in SARS-CoV-2 transmission events (5). Here, we report a SARS-CoV-2 nosocomial transmission event, supported on whole genome sequencing, in early March 2021 involving two vaccinated health care-workers (HCWs) and four patients in our institution (Madrid, Spain). The findings were the result of a program running in our institution in which all SARS-CoV-2 reverse transcriptase-PCR (RT-PCR; TaqPath COVID-19 CE-97 IVD RT-PCR kit; Thermo Fisher Scientific, USA) positive specimens from HCWs and those from patients due to nosocomial acquisitions are systematically sequenced. The study was approved by the ethical research committee of Gregorio Marañón Hospital (REF: MICRO.HGUGM.2020-042). Informed consent was obtained from the patients for publication of this report.
Two COVID-19 vaccinated professionals (HCW1 and HCW2) shared an identical strain (variant B.1.1.7; zero single nucleotide polymorphisms [SNPs]) and developed mild symptoms on Days 0 and 3 (Fig. 1). The same strain was identified in four patients (cases A-D; zero SNPs between Case A-C sequences and 1 SNP with Case D), who had stayed in the same ward and were diagnosed in consecutive days (Days 2-5, in all of them the SARS-CoV-2 RT-PCR was positive at their symptoms onset; Fig. 1).
The epidemiological investigation, triggered by WGS results, to clarify the nature of the outbreak, identified different factors that suggest different transmission links within the cluster (Fig. 1). Firstly, HCW1 and HCW2 worked together and had had close contact during a morning social meeting on Day 22. Secondly, HCW1 and HCW2 had attended Case C on Day 22, 6 days before positive COVID-19 diagnosis of Case C. In addition, Cases A-D had shared the same nursing team throughout all their hospital stay, Cases B and C shared a room; Cases A and D stayed in two opposite rooms in the same corridor were doors had been kept open; Case D was a 85-year-old patient, with cognitive impairment (Alzheimer's disease) and inability to walk due to a right pertrochanteric fracture; highly dependent and needing help for walk, transferring, wash, and dress (Barthel scale of 35 points). All these factors could explain the subsequent transmission of the strain from Case C to the other cases (A, B and D) within the ward.
To evaluate the potential involvement of other COVID-19 cases, both within or outside the hospital, in the nosocomial transmission event we performed a wider genomic integrate analysis. We compared (Fig. 2) the SARS-CoV-2 sequences from the six cases in study with the sequences from the 45 hospitalized cases, three HCWs and 189 community cases diagnosed along the 2 weeks preceding the diagnosis of the first case in our event (HCW1). This sample was obtained as part of our systematic sequencing of a random sample of 50-75 sequencing cases among those diagnosed each week. No other hospitalized or community patient, nor HCW, shared (0 SNPs) the SARS-CoV-2 strain involved in the nosocomial transmission event in study. All but one of the sequences from the 48 hospitalized cases/ HCWs differed in .7 SNPs from the strain in study (Fig. 2). Only one sequence showed a shorter distance (three SNPs), but it was still unrelated to the outbreak strain as it lacked one SNP present in all the cases involved in the transmission event in study and, in addition, it harbored two private SNPs not shared by any other of the cases (Fig. 2). Five cases from the community, diagnosed within the week preceding HCW-1 diagnosis, shared a strain whose sequence preceded in one SNP to the set of SNPs shared by the outbreak strain (Fig. 2). These findings (i) reinforce the HCW-HCW transmission as the most likely explanation to the fact that both HCWs shared an identical SARS-CoV-2 strain; (ii) strongly minimize the direct involvement of other additional cases, either within or outside the hospital, in the transmission event in study; and (iii) suggest a likely community origin for the first HCW infected.
HCW1 and HCW2 had received their second vaccine dose (BNT161b2) 1 month before their COVID-19 diagnosis and developed immunological responses leading to anti-SARS-CoV2 IgGs levels of 8737 and 8801 UA/ml, respectively (SARS-CoV-2 IgG II Quant reagent kit, Abbott, Chicago, IL). Their serological response was measured within our program of systematically analyze the postvaccination serological status in all HCWs. Both HCWs experienced symptomatic COVID (mild symptoms) and the low RT-PCR Ct values obtained from their specimens (Ct values 18 and 17) allowed us to infer high SARS-CoV-2 titers. The two HCWs could be diagnosed due to their mild symptoms, however asymptomatic vaccinated HCWs might have a role in cryptic transmissions (6). Systemic vaccines are expected to offer only limited protection against viral replication within the upper airways (7), which might explain the high viral titers in nasopharyngeal specimens in the vaccinated HCWs in our study.
The 1-day contact between HCW1, HCW2, and Case C on Day 22 was sufficient to lead to a transmission event involving all three individuals. Subsequent transmission within Case C¨s ward led to a nosocomial outbreak involving another three cases, one with a fatal outcome. Strict transmission control measures between HCWs and HCWs-FIG 2 Left side: phylogenetic tree obtained from the analysis of the SARS-CoV-2 sequences from community and hospitalized cases diagnosed along the 2 weeks before the diagnosis of HCW-1, the first case in the event in study. Right side: network of genomic relationship for the cases involved in the nosocomial transmission event in study and those included in the closest neighboring branch are zoomed out. In the network of relationships, the cases within a box share identical sequences between them and each dot corresponds to 1 SNP. COM, community case; HOSP, hospitalized case; HCW, healthcare worker. Diagnosis dates as per SARS-CoV-2 RT-PCR are indicated within brackets. mv1, median vector corresponding to the node in the network not occupied by the sequences available. patients in nosocomial settings must not be relaxed, and should be kept as strictly as during the prevaccination period.