RT Journal Article
SR Electronic
T1 Experimental MR study of cerebral radiation injury: quantitative T2 changes over time and histopathologic correlation.
JF American Journal of Neuroradiology
JO Am. J. Neuroradiol.
FD American Society of Neuroradiology
SP 79
OP 85
VO 16
IS 1
A1 Miot, E
A1 Hoffschir, D
A1 Alapetite, C
A1 Gaboriaud, G
A1 Pontvert, D
A1 Fetissof, F
A1 Le Pape, A
A1 Akoka, S
YR 1995
UL http://www.ajnr.org/content/16/1/79.abstract
AB PURPOSE To use the pig brain as a large-animal model to examine the effects of high-dose single-fraction irradiation on MR images, T2 relaxation time, and histologic integrity. METHODS A total of 24 Meishan pigs were studied: 20 irradiated animals and 4 unirradiated controls. A high dose was delivered to the right hemisphere of the animals, using a 12-MeV electron beam. Ten animals received 40 Gy at the 90% isodose, and 10 animals received 60 Gy. Quantitative measurement of T2 relaxation time was compared with qualitative analysis of T2-weighted images and histologic studies. RESULTS Quantitative analysis revealed a reproducible increase of the T2 parameter within the irradiated areas. The T2 kinetic could be analyzed in two phases, which appeared before the visualization of ventricle compression, necrosis, and edema. The first is characterized by vascular inflammation and the latter by radiation necrosis and edema. Both are dose dependent. CONCLUSION These results underline the ability of quantitative MR for early diagnosis of brain radiation lesions in vivo.