Effective real-time transmission estimations incorporating population viral load distributions amid SARS-CoV-2 variants and pre-existing immunity
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Background
Population-level viral load distribution, measured by cycle threshold (Ct), has been demonstrated to enable real-time estimation of R t for SARS-CoV-2 ancestral strain. Generalisability of the framework under different circulating variants and pre-existing immunity remains unclear.
Aim
This study aimed to examine the impact of evolving variants and population immunity on the generalizability of Ct-based transmission estimation framework.
Methods
We obtained the first Ct record of local COVID-19 cases from July 2020 to January 2023 in Hong Kong. We modeled the association between daily viral load distribution and the conventional estimates of R t based on case count. We trained the model using data from wave 3 (i.e., ancestral strain with minimal population immunity) and predicted R t for wave 5, 6 and 7 (i.e., omicron subvariants with > 70% vaccine coverage). Cross-validation was performed by training on the other 4 waves. Stratification analysis by disease severity was conducted to evaluate the impact of the changing severity profiles.
Results
Trained with the ancestral dominated wave 3, our model provided accurate estimation of R t , with the area under the ROC curve of 0.98 (95% confidence interval: 0.96, 1.00), 0.62 (95% CI: 0.53, 0.70) and 0.80 (95% CI: 0.73, 0.88) for three omicron dominated waves 5 to 7, respectively. Models trained on the other four waves also had high accuracy. Stratification analysis suggested potential impact of case severity on model estimation, which coincided with the fluctuation of sampling delay.
Discussion
Our findings suggested that incorporating population viral shedding can provide accurate real-time estimation of transmission with evolving variants and population immunity. Application of the model needs to account for sampling delay.
