Journal of Pediatric Neurology 2006; 04(01): 033-039
DOI: 10.1055/s-0035-1557303
Original Article
Georg Thieme Verlag KG Stuttgart – New York

The value of diffusion-weighted imaging in children with acute central nervous system symptoms

Motomasa Suzuki
a   Department of Pediatrics, Okazaki City Hospital, Aichi, Japan
,
Fumio Hayakawa
a   Department of Pediatrics, Okazaki City Hospital, Aichi, Japan
,
Akihisa Okumura
b   Department of Pediatrics, Nagoya University Graduate School, Aichi, Japan
,
Kennichi Watanabe
c   Department of Radiology, Okazaki City Hospital, Aichi, Japan
,
Yukiko Fukumoto
a   Department of Pediatrics, Okazaki City Hospital, Aichi, Japan
,
Toru Kato
a   Department of Pediatrics, Okazaki City Hospital, Aichi, Japan
,
Kazuyoshi Watanabe
d   Aichi-Syukutoku College, Aichi, Japan
› Author Affiliations

Subject Editor:
Further Information

Publication History

22 August 2005

18 November 2005

Publication Date:
29 July 2015 (online)

Abstract

The value of diffusion-weighted imaging (DWI) in children with acute central nervous system (CNS) symptoms has not been fully established. We aimed to elucidate whether DWI gives additional information in children with acute CNS disorder. The subjects were eight children with acute CNS symptoms, whose cranial DWI showed signal abnormality. Two patients were suffered from cerebral infarction, and one had systemic lupus erythematosus with CNS involvement, four had acute encephalopathy, and one had relapsing encephalopathy. We retrospectively compared (1) the size of signal abnormality, (2) latency until appearance of signal abnormality, and (3) ability to differentiate old lesions between DWI and fluid-attenuation inversion recovery (FLAIR). In addition, we analyzed cerebral blood flow (CBF) changes in lesions detected by DWI, using single-photon emission computed topography (SPECT). In seven of eight patients, the size of signal abnormality was larger in DWI compared to FLAIR. In four of five patients with magnetic resonance imaging obtained during the very acute phase of CNS symptoms, the latency until appearance of signal abnormality was shorter on DWI compared to FLAIR. Combination of DWI and FLAIR successfully differentiated new lesions from old ones in all three subjects with a history of old lesions. DWI revealed signal abnormality not during the very acute phase but on 5th day of CNS symptoms in a patient with encephalopathy. In seven patients with SPECT available, lesions detected by DWI showed decreased CBF in four patients, increased CBF in two, normal CBF in one. DWI may provide useful additional information in children with acute CNS symptoms. Signal abnormalities on DWI may represent ischemic lesions or inflammatory lesions with increased or normal CBF on SPECT.