AI Article Synopsis
- Understanding infection dynamics in parasitology requires considering both host and pathogen factors, as single measures like peak parasitaemia are insufficient for capturing the complexities of infections.
- Traditional statistical models often fail to meet necessary assumptions, particularly related to the independence of data, leading to incorrect conclusions about biological processes.
- Using mixed effects models can improve the analysis of repeated measures data in parasitology, promoting more accurate understanding and control of parasitic infections.
Article Abstract
Explaining the contribution of host and pathogen factors in driving infection dynamics is a major ambition in parasitology. There is increasing recognition that analyses based on single summary measures of an infection (e.g., peak parasitaemia) do not adequately capture infection dynamics and so, the appropriate use of statistical techniques to analyse dynamics is necessary to understand infections and, ultimately, control parasites. However, the complexities of within-host environments mean that tracking and analysing pathogen dynamics within infections and among hosts poses considerable statistical challenges. Simple statistical models make assumptions that will rarely be satisfied in data collected on host and parasite parameters. In particular, model residuals (unexplained variance in the data) should not be correlated in time or space. Here we demonstrate how failure to account for such correlations can result in incorrect biological inference from statistical analysis. We then show how mixed effects models can be used as a powerful tool to analyse such repeated measures data in the hope that this will encourage better statistical practices in parasitology.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3325192 | PMC |
| http://dx.doi.org/10.1371/journal.ppat.1002590 | DOI Listing |
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