Parasite Viability as a Superior Measure of Antimalarial Drug Activity in Humans

Rebelo, Maria; Pawliw, Rebecca; Gower, Jeremy; Webb, Lachlan; Mitchell, Hayley; Pava, Zuleima; Watts, Rebecca E.; Davenport, Miles P.; McCarthy, James S.; Khoury, David S.

doi:10.1093/infdis/jiaa678

Cited by 12 publications

(40 citation statements)

References 39 publications

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“…Apart from ethical concerns regarding the use of animals, and 4 the considerable amount of time and cost required by these in vivo studies, only a small number of doses can be tested, hence preventing the exploration of the full combined response surface of the antimalarial effects. Another important limitation of these studies is the uncertainty of parasite killing following drug treatment since conventional methods cannot reliably distinguish viable from dying or dead parasites (9,10). Indeed, the parasite clearance rate (viable versus dead parasites), measured immediately after treatment, may differ between in vivo models owing different clearance mechanisms of dead parasites from the bloodstream.…”

Section: Introductionmentioning

confidence: 99%

A new in vitro checkerboard-parasite reduction ratio interaction assay for early de-risk of clinical development of antimalarial combinations

Wicha

Walz

Cherkaoui-Rbati

et al. 2022

Preprint

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The development and spread of drug resistant phenotypes substantially threaten malaria control efforts. Combination therapies have the potential to minimize the risk of resistance development but require intensive preclinical studies to determine optimal combination and dosing regimens. To support the selection of new combinations, we developed a novel in vitro-in silico combination approach to help identify the pharmacodynamic interactions of the two antimalarial drugs which can be plugged into a pharmacokinetic/pharmacodynamic model built with human monotherapies parasitological data to predict the parasitological endpoints of the combination. This allows to optimally select drug combinations and doses for the clinical development of antimalarials. With this assay, we successfully predicted the endpoints of two phase 2 clinical trials in patients with the artefenomel - piperaquine and artefenomel - ferroquine drug combinations. Besides, the predictive performance of our novel in vitro model was equivalent to the humanized mouse model outcome. Lastly, our more granular in vitro combination assay provided additional insights into the pharmacodynamic drug interactions compared to the in vivo systems, e.g. a concentration-dependent change in the Emax and the EC50 values of piperaquine or artefenomel or a directional reduction of the EC50 of ferroquine by artefenomel and a directional reduction of Emax of ferroquine by artefenomel. Overall, this novel in vitro-in silico-based technology will significantly improve and streamline the economic development of new drug combinations in malaria and potentially also in other therapeutic areas.

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Section: Introductionmentioning

confidence: 99%

A new in vitro checkerboard-parasite reduction ratio interaction assay for early de-risk of clinical development of antimalarial combinations

Wicha

Walz

Cherkaoui-Rbati

et al. 2022

Preprint

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show abstract

“…To the Editor —In a study of 10 Plasmodium falciparum –infected volunteers with submicroscopic parasitemias given a single 200-mg dose of artesunate, Rebelo et al [ 1 ] reported a substantial difference in the ex vivo growth of sequentially sampled circulating ring-stage [ 2 ] parasites comparing infections with artemisinin-sensitive (Pfkelch wild-type) and artemisinin-resistant (Pfkelch R539T) parasites. In the 5 artemisinin-sensitive infections, they derived an estimated ex vivo mean parasite “viability” reduction half-life of 0.75 hour, considerably shorter than the corresponding 3.2-hour in vivo mean parasite clearance half-life estimate.…”

mentioning

confidence: 99%

“…The serial quantitative polymerase chain reaction derived parasitemia profiles shown by Rebelo et al [ 1 ], fig 3 strongly suggest continued input into the circulation from ongoing schizogony [ 2 , 8 ]. This explains why parasite densities in blood do not fall for approximately 8 hours.…”

mentioning

confidence: 99%

“…The title of the article, “Parasite viability as a superior measure of antimalarial drug activity in humans” [ 1 ], suggests a significant advance, but it is not clear why or how it would be used to assess antimalarial drugs. It is stated that “the use of parasite clearance to measure drug activity and to inform decisions about drug development should be reconsidered in view of these new insights.” It is unclear what these insights are and whether these difficult and laborious serial in vivo studies would offer any advantage over the currently used, simple ring-stage in vitro tests [ 4 , 6 ], which identify the loss of ring-stage activity in artemisinin-resistant parasites very well.…”

mentioning

confidence: 99%

“…As for dose finding, the results presented in [ 1 ] fig 3 suggest that the fits to the serial viability log-linear declines are poor and, thus, the derived viability half-lives are imprecise in comparison with the parasite clearance profiles. Indeed, it is unclear whether declines are exponential and, therefore, whether the model is appropriate.…”

mentioning

confidence: 99%

See 2 more Smart Citations

Questioning the Claimed Superiority of Malaria Parasite Ex Vivo Viability Reduction Over Observed Parasite Clearance Rate?

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Watson

2020

The Journal of Infectious Diseases

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Quantification of Plasmodium falciparum HRP-2 as an alternative method to [3H]hypoxanthine incorporation to measure the parasite reduction ratio in vitro

de Carvalho,

Niepoth,

Mavraj-Husejni

et al. 2023

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Parasite Viability as a Superior Measure of Antimalarial Drug Activity in Humans

Cited by 12 publications

References 39 publications

A new in vitro checkerboard-parasite reduction ratio interaction assay for early de-risk of clinical development of antimalarial combinations

A new in vitro checkerboard-parasite reduction ratio interaction assay for early de-risk of clinical development of antimalarial combinations

Questioning the Claimed Superiority of Malaria Parasite Ex Vivo Viability Reduction Over Observed Parasite Clearance Rate?

Quantification of Plasmodium falciparum HRP-2 as an alternative method to [3H]hypoxanthine incorporation to measure the parasite reduction ratio in vitro

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