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Comparative analysis of peri-nidal cerebral blood flow and metabolism using a novel quantitative 15 O-PET method in patients with arteriovenous malformations.

Daisuke MaruyamaHidehiro IidaKazuhiro KoshinoJyoji NakagawaraYoshiaki MoritaNaoki HashimuraHisae MoriTetsu SatowJun C TakahashiTetsuya FukudaKoji IiharaHiroharu Kataoka
Published in: Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism (2024)
To effectively treat cerebral arteriovenous malformations (AVMs), peri-nidal flow regulation and metabolic status must be understood. In this study, we used 15 O-oxygen positron emission tomography (PET) post-processing analysis to investigate vascular radioactivity in the nidal region of AVMs. Single-dynamic PET imaging was performed on seven unruptured AVM patients during the sequential inhalation of 15 O 2 and C 15 O 2 . A previously validated dual-tracer basis function method (DBFM) was employed to calculate parametric images. The results of our study were as follows. First, in remote and contralateral AVM regions, DBFM and a previous approach of dual-tracer autoradiography (DARG) showed strong positive correlations in cerebral blood flow ( CBF ), cerebral oxygen metabolism rate ( CMRO 2 ), and oxygen extraction fraction. Second, peri-nidal CBF and CMRO 2 correlation was lower, and overestimation occurred with DARG compared to with DBFM. Third, on comparing DBFM to quantitative 123 I-iodoamphetamine single-photon emission computed tomography (SPECT), CBF correlated significantly. In contrast, the correlation between DARG and quantitative 123 I-iodoamphetamine-SPECT was weaker in the peri-nidal regions. Fourth, analysis of tissue time-activity curves demonstrated good reproducibility using the novel formulation in the control, peri-nidus, and core nidal regions, indicating the adequacy of this approach. Overall, the DBFM approach holds promise for assessing haemodynamic alterations in patients with AVMs.
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