Specific Changes in Human Brain After Hypoglycemic Injury

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Stroke. 1997;28:584-587

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Brain Diseases
Hypoglycemia

Specific Changes in Human Brain After Hypoglycemic Injury

Masayuki Fujioka, MD; Kazuo Okuchi, MD; Ken-Ichiro Hiramatsu, MD; Toshisuke Sakaki, MD; Syouji Sakaguchi, MD; Yoshinobu Ishii, MD

From the Departments of Neurosurgery (M.F., K.O., K.-I.H., T.S.) and Radiology (S.S.), Nara Medical University, and Department of Medicine, Keioh Hospital (Y.I.), Nara, Japan.

Correspondence to Masayuki Fujioka, MD, Department of Neurosurgery, Emergency and Critical Care Medical Center, Nara Prefectural Nara Hospital, 1-30-1, Hiramatsu-cho, Nara, 631, Japan. E-mail RXL00203{at}niftyserve.or.jp

Background and Purpose Very few reports are available on serialchanges in the human brain after severe hypoglycemic injury. Theaim of this study was to investigate sequential neuroradiological changesin brains of patients after hypoglycemic coma compared with thoseafter cardiac arrest previously studied with the same methods.

Methods We repeatedly studied CT scans and MR images obtainedat 1.5 T in four vegetative patients after profound hypoglycemiaassociated with diabetes mellitus.

Results In all patients, consecutive CT scans showed symmetrical,persistent low-density lesions with transient enhancement inthe caudate and lenticular nuclei and transient enhancementin the cerebral cortex 7 to 14 days after onset. Serial MR imagesconsistently revealed symmetrical lesions of persistent hyperintensityand hypointensity on T1- and T2-weighted images, respectively,in the caudate and lenticular nuclei, cerebral cortex, substantianigra, and/or hippocampus from 8 days to 12 months after onset.

Conclusions Repeated MR images revealed specific lesions in thebilateral basal ganglia, cerebral cortex, substantia nigra,and hippocampus, which suggests the particular vulnerabilityof these areas to hypoglycemia in the human brain. We speculatethat the localized lesions represent tissue degeneration, includingsome combination of selective neuronal death, proliferationof astrocytic glial cells, paramagnetic substance deposition,and/or lipid accumulation. The absence of localized hemorrhageson MR images in hypoglycemic encephalopathy is in marked contrastto the presence of regional minor hemorrhages in postischemic-anoxicencephalopathy.

Key Words: brain injuries • diabetes mellitus • heart arrest • hypoglycemia • magnetic resonance imaging

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