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Mechanistic within-host models of the asexual Plasmodium falciparum infection: a review and analytical assessment.
Camponovo, Flavia; Lee, Tamsin E; Russell, Jonathan R; Burgert, Lydia; Gerardin, Jaline; Penny, Melissa A.
Affiliation
  • Camponovo F; Swiss Tropical and Public Health Institute, Basel, Switzerland.
  • Lee TE; University of Basel, Basel, Switzerland.
  • Russell JR; Center for Communicable Disease Dynamics, Department of Epidemiology, Harvard T. H. Chan School of Public Health, Boston, MA, 02115, USA.
  • Burgert L; Swiss Tropical and Public Health Institute, Basel, Switzerland.
  • Gerardin J; University of Basel, Basel, Switzerland.
  • Penny MA; Institute of Disease Modeling, Bill & Melinda Gates Foundation, 500 5th Ave N, Seattle, WA, 98109, USA.
Malar J ; 20(1): 309, 2021 Jul 10.
Article in En | MEDLINE | ID: mdl-34246274
BACKGROUND: Malaria blood-stage infection length and intensity are important drivers of disease and transmission; however, the underlying mechanisms of parasite growth and the host's immune response during infection remain largely unknown. Over the last 30 years, several mechanistic mathematical models of malaria parasite within-host dynamics have been published and used in malaria transmission models. METHODS: Mechanistic within-host models of parasite dynamics were identified through a review of published literature. For a subset of these, model code was reproduced and descriptive statistics compared between the models using fitted data. Through simulation and model analysis, key features of the models were compared, including assumptions on growth, immune response components, variant switching mechanisms, and inter-individual variability. RESULTS: The assessed within-host malaria models generally replicate infection dynamics in malaria-naïve individuals. However, there are substantial differences between the model dynamics after disease onset, and models do not always reproduce late infection parasitaemia data used for calibration of the within host infections. Models have attempted to capture the considerable variability in parasite dynamics between individuals by including stochastic parasite multiplication rates; variant switching dynamics leading to immune escape; variable effects of the host immune responses; or via probabilistic events. For models that capture realistic length of infections, model representations of innate immunity explain early peaks in infection density that cause clinical symptoms, and model representations of antibody immune responses control the length of infection. Models differed in their assumptions concerning variant switching dynamics, reflecting uncertainty in the underlying mechanisms of variant switching revealed by recent clinical data during early infection. Overall, given the scarce availability of the biological evidence there is limited support for complex models. CONCLUSIONS: This study suggests that much of the inter-individual variability observed in clinical malaria infections has traditionally been attributed in models to random variability, rather than mechanistic disease dynamics. Thus, it is proposed that newly developed models should assume simple immune dynamics that minimally capture mechanistic understandings and avoid over-parameterization and large stochasticity which inaccurately represent unknown disease mechanisms.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Plasmodium falciparum / Malaria, Falciparum Type of study: Prognostic_studies Limits: Humans Language: En Journal: Malar J Journal subject: MEDICINA TROPICAL Year: 2021 Document type: Article Affiliation country: Switzerland Country of publication: United kingdom

Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Plasmodium falciparum / Malaria, Falciparum Type of study: Prognostic_studies Limits: Humans Language: En Journal: Malar J Journal subject: MEDICINA TROPICAL Year: 2021 Document type: Article Affiliation country: Switzerland Country of publication: United kingdom