1.
A Review of Plasmodium coatneyi–Macaque Models of Severe Malaria
by Lombardini, E. D
Veterinary pathology, November 2015, Vol.52(6), pp.998-1011
2.
3.
Quantifying the removal of red blood cells in Macaca mulatta during a Plasmodium coatneyi infection
by Fonseca, Luis L
Malaria journal, 12 August 2016, Vol.15(1), pp.410
4.
Plasmodium coatneyi in Rhesus Macaques Replicates the Multisystemic Dysfunction of Severe Malaria in Humans
by Moreno, Alberto
Infection and Immunity, June 2013, Vol.81(6), pp.1889-1904
5.
Molecular epidemiology of mosquitoes for the transmission of forest malaria in south-central Vietnam
by Maeno, Yoshimasa
Tropical medicine and health, 2017, Vol.45, pp.27
6.
Imaging analysis of the brain in a primate model of cerebral malaria
by Kawai, Satoru
Acta tropica, 2010, Vol.114(3), pp.152-156
7.
Increased Plasma Levels of Soluble Intercellular Adhesion Molecule-1 (sICAM-1) and Soluble Vascular Cell Molecule-1 (sVCAM-1) Associated with Disease Severity in a Primate Model fo...
by Kawai, Satoru
Journal of Veterinary Medical Science, May 2003, Vol.65(5), pp.629-631
8.
Diversity and natural selection on the thrombospondin-related adhesive protein (TRAP) gene of Plasmodium knowlesi in Malaysia
by Lau, Yee
Malaria Journal, 2018, Vol.17
9.
Plasmodium coatneyi-Infected Erythrocytes Bind to C32 Amelanotic Melanoma Cells under Static and Flow Conditions
by Kawai, Satoru
Journal of Veterinary Medical Science, March 2003, Vol.65(3), pp.375-380
10.
The Role of Soluble Tumor Necrosis Factor Receptor Types I and II and Tumor Necrosis Factor- alpha in Malaria during Pregnancy
by Davison, B
Journal of Infectious Diseases, Jul 2006, Vol.194(1), pp.123-132
11.
Malaria infection induces rapid elevation of the soluble Fas ligand level in serum and subsequent T lymphocytopenia: possible factors responsible for the differences in susceptibil...
by Matsumoto, J
Infection and Immunity, Mar 2000, Vol.68(3), pp.1183-1188
12.
Alterations in the Profile of Blood Cell Types during Malaria in Previously Unexposed Primigravid Monkeys
by Davison, B
Journal of Infectious Diseases, Jun 1, 2005, Vol.191(11), pp.1940-1952
13.
Functional genomics of simian malaria parasites and host-parasite interactions.
by Galinski, Mary R
Briefings in functional genomics, September 24, 2019, Vol.18(5), pp.270-280
14.
Evolutionary relationships between 15 Plasmodium species from New and Old World primates (including humans): a 18S rDNA cladistic analysis
by Leclerc, M
Parasitology, Dec 2004, Vol.129(6), pp.677-684
15.
Placental changes associated with fetal outcome in the Plasmodium coatneyi/rhesus monkey model of malaria in pregnancy
by Davison, B
American Journal of Tropical Medicine and Hygiene, 2001, Vol.63(3), pp.158-173
16.
Placental Changes Associated with Fetal Outcome in the Plasmodium coatneyi/Rhesus Monkey Model of Malaria in Pregnancy
by Davison, B
American Journal of Tropical Medicine and Hygiene, 2001, Vol.63(2), pp.158-173
18.
Cerebral metabolic reduction in severe malaria: Fluorodeoxyglucose-positron emission tomography imaging in a primate model of severe human malaria with cerebral involvement
by Sugiyama, Munehiro
American Journal of Tropical Medicine and Hygiene, Nov 2004, Vol.71(5), pp.542-545
19.
Plasmodium coatneyi-infected rhesus monkeys: a primate modelfor human cerebral malaria
by Aikawa, Masamichi
Memórias do Instituto Oswaldo Cruz, January 1992, Vol.87(suppl 3), pp.443-447
20.
Plasmodium coatneyi:Differential Clinical and Immune Responses of Two Populations ofMacaca fascicularisfrom Different Origins
by Migot-Nabias, F
Experimental parasitology, January 1999, Vol.91(1), pp.30-39
