Diffusion-Weighted MR Imaging in a Prospective Cohort of Children with Cerebral Malaria Offers Insights into Pathophysiology and Prognosis

S.M. Moghaddam; G.L. Birbeck; T.E. Taylor; K.B. Seydel; S.D. Kampondeni; M.J. Potchen

doi:10.3174/ajnr.A6159

Abstract

BACKGROUND AND PURPOSE: Validation of diffusion-weighted images obtained on 0.35T MR imaging in Malawi has facilitated meaningful review of previously unreported findings in cerebral malaria. Malawian children with acute cerebral malaria demonstrated restricted diffusion on brain MR imaging, including an unusual pattern of restriction isolated to the subcortical white matter. We describe the patterns of diffusion restriction in cerebral malaria and further evaluate risk factors for and outcomes associated with an isolated subcortical white matter diffusion restriction.

MATERIALS AND METHODS: Between 2009 and 2014, comatose Malawian children admitted to the hospital with cerebral malaria underwent admission brain MR imaging. Imaging data were compiled via NeuroInterp, a RedCap data base. Clinical information obtained included coma score, serum studies, and coma duration. Electroencephalograms were obtained between 2009 and 2011. Outcomes captured included death, neurologic sequelae, or full recovery.

RESULTS: One hundred ninety-four/269 (72.1%) children with cerebral malaria demonstrated at least 1 area of diffusion restriction. The most common pattern was bilateral subcortical white matter involvement (41.6%), followed by corpus callosum (37.5%), deep gray matter (36.8%), cortical gray matter (17.8%), and posterior fossa (8.9%) involvement. Sixty-one (22.7%) demonstrated isolated subcortical white matter diffusion restriction. These children had lower whole-blood lactate levels (OR, 0.9; 95% CI, 0.85–0.98), were less likely to require anticonvulsants (OR, 0.6; 95% CI, 0.30–0.98), had higher average electroencephalogram voltage (OR, 1.01; 95% CI, 1.00–1.02), were less likely to die (OR, 0.09; 95% CI, 0.01–0.67), and were more likely to recover without neurologic sequelae (OR, 3.7; 95% CI, 1.5–9.1).

CONCLUSIONS: Restricted diffusion is common in pediatric cerebral malaria. Isolated subcortical white matter diffusion restriction is a unique imaging pattern associated with less severe disease and a good prognosis for full recovery. The underlying pathophysiology may be related to selective white matter vulnerability.

ABBREVIATIONS:

CM: cerebral malaria
IWMDR: isolated subcortical white matter diffusion restriction
EEG: electroencephalogram

Footnotes

Disclosures: Gretchen L. Birbeck—UNRELATED: Board Membership: Fogarty International Center Advisory Board and the American Neurological Association; Consultancy: GlaxoSmithKline, Comments: related to neuropsychiatric effects of antimalarial drugs; Grants/Grants Pending: National Institutes of Health. Karl B. Seydel—UNRELATED: Employment: Blantyre Malaria Project. Michael J. Potchen—RELATED: Grant: National Institutes of Health*; UNRELATED: Expert Testimony: expert witness in medical legal cases; Grants/Grants Pending: National Institutes of Health and Radiological Society of North America.* Terrie E. Taylor—RELATED: Grant: National Institutes of Health*; UNRELATED: Board Membership: Novartis Institute for Tropical Diseases; Employment: Michigan State University*; Grants/Grants Pending: National Institutes of Health*; Payment for Lectures Including Service on Speakers Bureaus: Novartis Institute for Tropical Diseases. *Money paid to the institution.
This work was supported by the Harry W. Fischer Research Fund, University of Rochester Medical Center Department of Imaging Sciences. Partial funding was provided by the National Institutes of Health: The CHASE Study, NIHR01NS094037.
Paper previously presented at: American Society of Neuroradiology Annual Meeting and the Foundation of the ASNR Symposium, May 18–23, 2019; Boston, Massachusetts.