2021
DOI: 10.3390/microorganisms9030489
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Development of a Well-Characterized Rhesus Macaque Model of Ebola Virus Disease for Support of Product Development

Abstract: Ebola virus (EBOV) is a negative-sense RNA virus that can infect humans and nonhuman primates with severe health consequences. Development of countermeasures requires a thorough understanding of the interaction between host and pathogen, and the course of disease. The goal of this study was to further characterize EBOV disease in a uniformly lethal rhesus macaque model, in order to support development of a well-characterized model following rigorous quality standards. Rhesus macaques were intramuscularly expos… Show more

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Cited by 10 publications
(29 citation statements)
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References 38 publications
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“…By Day 5, numerous parameters were abnormal including clinical chemistry (ALT, GGT, ALB), hematology (MCV, RDW-C, RET-He, MON Count, and MON Percent), coagulation (aPTT), viral RNA (via qRT-PCR), sGP, and various cytokines/chemokines. Many of these parameters are consistent with the rhesus macaque model of EBOV exposure [18,30]. In a similarly designed study targeted at characterizing EBOV exposure via the intramuscular route in the rhesus macaque, disease progression was marginally quicker for EBOV exposed animals than what was observed herein for SUDV exposed animals.…”
Section: Onset Of Abnormalitysupporting
confidence: 76%
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“…By Day 5, numerous parameters were abnormal including clinical chemistry (ALT, GGT, ALB), hematology (MCV, RDW-C, RET-He, MON Count, and MON Percent), coagulation (aPTT), viral RNA (via qRT-PCR), sGP, and various cytokines/chemokines. Many of these parameters are consistent with the rhesus macaque model of EBOV exposure [18,30]. In a similarly designed study targeted at characterizing EBOV exposure via the intramuscular route in the rhesus macaque, disease progression was marginally quicker for EBOV exposed animals than what was observed herein for SUDV exposed animals.…”
Section: Onset Of Abnormalitysupporting
confidence: 76%
“…In a similarly designed study targeted at characterizing EBOV exposure via the intramuscular route in the rhesus macaque, disease progression was marginally quicker for EBOV exposed animals than what was observed herein for SUDV exposed animals. Median time to death was one day quicker (Day 8 versus Day 9), clinical chemistry abnormalities and evidence of coagulopathy were more frequent one day earlier in EBOV exposed animals, body temperatures peaked earlier, and sGP was found in the serum of all animals earlier; serum viral load was similar between the two models Table 8 [18].…”
Section: Resultsmentioning
confidence: 99%
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“…These assays can be useful when comparing treatments in animal models of EBOV disease such as the “gold standard” nonhuman primate (NHP) models. Alfson et al discuss data to characterize the rhesus macaque NHP model to support MCMs for EBOV disease [ 17 ]. The EBOV NHP model is further highlighted in this special issue through cynomolgus macaque transcriptomics and host miRNAs data that are associated with fatal disease outcome [ 18 ].…”
mentioning
confidence: 99%