Investigation of viral respiratory co-infections and associated risk factors among SARS-COV-2 suspects in Uganda
Abstract
Respiratory coinfections are usually understudied during pandemics like the ongoing COVID-19
pandemic yet preceding outbreaks of respiratory infections like influenza have implicated
coinfections as a major cause of various symptoms that lead to severe morbidity and mortality.
This study aimed at determining the respiratory co-infections existing among SARS-CoV-2
suspects, characterization of these respiratory co-infections and determining the predisposing
factors associated with SARS-CoV-2 confirmed cases. A total of 400 surveillance samples from
SARS-COV-2 suspects were tested using a multiplex PCR panel into which SARS-COV-2 was
incorporated. Next-generation Sequencing (NGS) was done for four of the 400 samples for the
genomic characterisation of the coinfections detected by the multiplex PCR. Bivariate and
multivariate analyses were done by logistic regression using STATA to determine potential
predisposing factors to SARS-COV-2. All Fastq files were analyzed using EDGE
Bioinformatics.Viral coinfections of Rhinovirus A/B/C and Enterovirus A/B/C (2/400) were
detected among the negative SARS-COV-2 samples, but none among the positives. There were
also single infections of Coronavirus OC43/HK (1/400), Enterovirus A/B/C (1/400) and SARSrelated
COV (2/400) among the negative SARS-CoV-2 samples. Genomic characterization
revealed coinfection of Enterovirus C, Enterovirus D68 and Masteradenovirus C in one of the four
samples which had been confirmed as an Enterovirus A/B/C and Rhinovirus A/B/C coinfection by
mRT-PCR. Furthermore, sequencing revealed various bacterial respiratory co-infections in all four
samples. There were no statistically significant predisposing factors associated with testing
positive for SARS-CoV-2 and this could be attributed to the presence of many asymptomatic cases
whereas the absence of coinfections among the SARS-COV-2 positive cases could either be due
to viral interference, resource competition or impact of COVID-19 control measures. However,
symptoms of cough, sore throat, muscle ache and body temperature were found to excellently
predict testing positive for SARS-CoV-2. Interestingly, 75% of the samples that were positive for
viral infections by mRT-PCR only revealed co-infection with an array of bacteria by NGS and this
could be attributed to sample degradation, low viral concentration or even misdiagnosis by the
multiplex PCR assay because the rtPCR assay also failed to detect an Adenovirus which was
identified as Masteradenovirus C by NGS. Therefore, the use of PCR techniques alongside NGS
for routine detection of respiratory pathogens gives more insight where one assay is limited.