Effects of Focal Radiation on [18F]‐Fluoro‐D‐Glucose Positron Emission Tomography in the Brains of Miniature Pigs: Preliminary Findings on Local Metabolism

• Published in: Neuromodulation (Malden, Mass.) Vol. 24; no. 5; pp. 863 - 869
• Main Authors: Yeh, Chun‐I, Cheng, Mei‐Fang, Xiao, Furen, Chen, Yi‐Chieh, Liu, Chien‐Chu, Chen, Hung‐Yi, Yen, Ruoh‐Fang, Ju, Yu‐Ten, Chen, Yilin, Bodduluri, Mohan, Yu, Pin‐Huan, Chi, Chau‐Hwa, Chong, Ngot Swan, Wu, Liang‐Hsiang, Adler Jr, John R., Schneider, Michael Bret
• Format: Journal Article
• Language: English
• Published: Hoboken, USA John Wiley & Sons, Inc 01.07.2021; Elsevier Limited
• Subjects: Ablation; Animals; Brain; Brain - diagnostic imaging; Computed tomography; Cortex (motor); FDG‐PET; Fluorodeoxyglucose F18; Glucose; Ionizing radiation; Lesions; Magnetic resonance imaging; Metabolism; MRI; Neuroimaging; Neuromodulation; Positron emission tomography; Positron Emission Tomography Computed Tomography; Radiation; Radiation measurement; Radiosurgery; stereotactic radiosurgery; Swine; Swine, Miniature; Tomography; Tomography, X-Ray Computed; FDG-PET; MRI; stereotactic radiosurgery
• ISSN: 1094-7159; 1525-1403
• DOI: 10.1111/ner.13147

Objectives It would be a medically important advance if durable and focal neuromodulation of the brain could be delivered noninvasively and without ablation. This ongoing study seeks to elucidate the effects of precisely delivered ionizing radiation upon focal brain metabolism and the corresponding cellular integrity at that target. We hypothesize that focally delivered ionizing radiation to the brain can yield focal metabolic changes without lesioning the brain in the process. Materials and Methods We used stereotactic radiosurgery to deliver doses from 10 Gy to 120 Gy to the left primary motor cortex (M1) of Lee Sung miniature pigs (n = 8). One additional animal served as a nonirradiated control. We used positron emission tomography‐computed tomography (PET‐CT) to quantify radiation dose‐dependent effects by calculating the ratio of standard uptake values (SUV) of 2‐deoxy‐2‐[18F]‐fluoro‐D‐glucose (18F‐FDG) between the radiated (left) and irradiated (right) hemispheres across nine months. Results We found that the FDG‐PET SUV ratio at the targeted M1 was significantly lowered from the pre‐radiation baseline measurements for animals receiving 60 Gy or higher, with the effect persisting at nine months after radiosurgery. Only at 120 Gy was a lesion suggesting ablation visible at the M1 target. Animals treated at 60–100 Gy showed a reduced signal in the absence of an identifiable lesion, a result consistent with the occurrence of neuromodulation. Conclusion Focal, noninvasive, and durable changes in brain activity can be induced without a magnetic resonance imaging (MRI)‐visible lesion, a result that may be consistent with the occurrence of neuromodulation. This approach may provide new venues for the investigation of neuromodulatory treatments for disorders involving dysfunctional brain circuits. Postmortem pathological analysis is needed to elucidate whether there have been morphological changes not detected by MRI.