PT  - JOURNAL ARTICLE
AU  - Matthias Bruehlmeier
AU  - Ulrich Roelcke
AU  - Peter Bläuenstein
AU  - John Missimer
AU  - Pius A. Schubiger
AU  - Johannes Th. Locher
AU  - Raimo Pellikka
AU  - Simon M. Ametamey
TI  - Measurement of the Extracellular Space in Brain Tumors Using &lt;sup&gt;76&lt;/sup&gt;Br-Bromide and PET
DP  - 2003 Aug 01
TA  - Journal of Nuclear Medicine
PG  - 1210--1218
VI  - 44
IP  - 8
4099  - http://jnm.snmjournals.org/content/44/8/1210.short
4100  - http://jnm.snmjournals.org/content/44/8/1210.full
SO  - J Nucl Med2003 Aug 01; 44
AB  - Brain edema significantly contributes to the clinical course of human brain tumor patients. There is evidence that an enlargement of the extracellular space (ECS) is involved in the development of brain edema. Although T2-weighted magnetic resonance (T2-MR) images represent brain edema by its increased water content, they do not differentiate ECS enlargement from increased intracellular water content. Methods: On the basis of the known distribution of bromide in the ECS, we used 76Br-bromide and PET to measure the regional ECS in 9 brain tumor patients. Transport rate constants and the distribution volume (DV) of 76Br-bromide in normal brain and tumor were derived from dynamic PET scans and the measured 76Br-bromide concentration in arterial plasma. We evaluated different models regarding their reliability in estimating the ECS. Results: Assuming that the DV of 76Br-bromide represents the ECS, robust estimates were possible for all investigated regions. In normal brain, ECS was within a narrow range—for example, occipital lobe, 19.9% ± 3.1%—and was lower in 2 dexamethasone-treated patients compared with untreated patients. In 7 of 9 tumors, increased ECS ranged between 43.8% and 61.1%. ECS increases were confined to the tumor mass and did not extend into peritumoral edematous brain. Two patients with large hyperintense lesions according to T2-MR images showed normal ECS values within the lesion. Conclusion: 76Br-Bromide PET allows a quantitative measurement of the ECS in brain edema and in normal brain. The discrepancies between lesions shown by T2-MRI and regional ECS enlargement as measured with PET challenge the concept of tumor-induced brain edema.