Abstract 015: Pioneering NaF‐PET/CT Imaging for Early Detection of Atherosclerosis: Potential Implications for Neurointerventional Surgery

IntroductionCerebrovascular disease (CVD), particularly carotid artery atherosclerosis, contributes substantially to global morbidity and mortality. The ability to precisely detect atherosclerosis is crucial, as it directly influences patient management, including decisions regarding surgical interventions. Given the high prevalence and severe outcomes of CVD, there is an urgent need for improved early detection methods. Utilizing a novel approach, this study pioneers the use of 18F‐sodium fluoride (NaF) PET/CT imaging for the early identification of microcalcification, a key marker of atherosclerosis. A nuanced understanding of vascular calcification's temporal progression may aid in optimally timing surgical interventions, such as carotid endarterectomy or carotid artery stenting, thereby reducing stroke risk.MethodsOur study participant is a 31‐year‐old male with atrial fibrillation, multiple cardiovascular risk factors, and class 2 obesity, enrolled in the Cardiovascular Molecular Calcification Assessed by 18F‐NaF PET/CT (CAMONA) study. The patient underwent both FDG‐PET/CT and NaF‐PET/CT imaging. We utilized OsiriX MD software v.13.0.1 (Pixmeo SARL, Bernex, Switzerland), to compute the standardized uptake value (SUVmean), serving as a measure of disease progression in both the global brain and the bilateral carotid arteries. Subsequently, we employed MIMneuro version 7.1.5 (MIM Software, Inc., Cleveland, OH, USA) to conduct a comprehensive regional brain metabolism analysis, harnessing the power of an integrated anatomical atlas.ResultsNaF‐PET/CT imaging revealed elevated NaF uptake in the bilateral carotid arteries (z‐score = 0.012), suggesting notable microcalcification. Conversely, FDG‐PET/CT imaging revealed low FDG uptake in the carotid arteries, with an average SUVmean of 0.66 for both right and left carotids and a z‐score of −2.32. Analysis of global brain metabolism demonstrated decreased FDG uptake detected by FDG‐PET/CT (z‐score = ‐2.32). Concurrently, we identified a decline in regional brain metabolism, with prominent decreases observed in regions including the brainstem (z score = −1.95), medial temporal lobe (z‐score = −1.81), cerebellum (z–score = −2.13), hippocampus (z‐score = −2.13), inferior frontal gyrus (z‐score = −3.53), lateral orbital gyrus (z‐score = −3.24), and putamen (z‐score = −2.47) (Figure 1).ConclusionOur findings highlight the potential of NaF‐PET/CT imaging to enhance early detection of carotid artery atherosclerosis a