Plasma concentrations of parasite histidine-rich protein 2 distinguish between retinopathy-positive and retinopathy-negative cerebral malaria in Malawian children
KB Seydel, LL Fox, SJ Glover… - The Journal of …, 2012 - academic.oup.com
The Journal of infectious diseases, 2012•academic.oup.com
Background. Brain histology and ophthalmoscopy suggest that approximately 25% of
children with World Health Organization–defined cerebral malaria (CM) have a nonmalarial
cause of death. Misclassification complicates clinical care, confounds studies of association,
and may obfuscate successes in malaria control. Retinopathy predicts intracerebral parasite
sequestration with> 90% sensitivity and specificity, but detecting retinopathy requires well-
trained personnel and expensive equipment. Methods. We investigated the utility of plasma …
children with World Health Organization–defined cerebral malaria (CM) have a nonmalarial
cause of death. Misclassification complicates clinical care, confounds studies of association,
and may obfuscate successes in malaria control. Retinopathy predicts intracerebral parasite
sequestration with> 90% sensitivity and specificity, but detecting retinopathy requires well-
trained personnel and expensive equipment. Methods. We investigated the utility of plasma …
Abstract
Background. Brain histology and ophthalmoscopy suggest that approximately 25% of children with World Health Organization–defined cerebral malaria (CM) have a nonmalarial cause of death. Misclassification complicates clinical care, confounds studies of association, and may obfuscate successes in malaria control. Retinopathy predicts intracerebral parasite sequestration with >90% sensitivity and specificity, but detecting retinopathy requires well-trained personnel and expensive equipment.
Methods. We investigated the utility of plasma concentrations of parasite histidine-rich protein 2 (pHRP2), a Plasmodium-specific protein, as a predictor of intracerebral parasite sequestration at autopsy and of malaria retinopathy on clinical examination in patients with clinically defined CM.
Results. In 64 autopsy cases, 47 of whom had histological evidence of sequestration, the sensitivity and specificity of a plasma pHRP2 level of >1700 ng/mL were 98% and 94%, respectively, and the area under the receiver operating characteristic (AUROC) curve was 0.98. In a separate, prospectively studied group of 101 children with clinically defined CM, of whom 71 had retinopathy, the same pHRP2 cutoff predicted retinopathy-positivity with a sensitivity of 90% and specificity of 87% (AUROC, 0.90).
Conclusions. Elevated plasma pHRP2 concentrations can identify Malawian children with histologically confirmed or retinopathy-positive CM and is a more field-friendly approach to confirming the diagnosis than post mortem sampling or ophthalmoscopy.
Oxford University Press