Department of Neurosurgery, Chaim Sheba Medical Center, Tel Hashomer, Israel.
IEEE Trans Ultrason Ferroelectr Freq Control. 2013 Apr;60(4):702-5. doi: 10.1109/TUFFC.2013.2618.
Future clinical applications of magnetic resonance imaging-guided high-intensity focused ultrasound (MRgHIFU) are moving toward the management of different intracranial pathologies. We sought to validate the production, safety, and efficacy of thermal injury to cranial nerves generated by MRgHIFU. In this study, five female domestic pigs underwent a standard bifrontal craniectomy under general anesthesia. Treatment was then given using an MRgHIFU system to induce hyperthermic ablative sonication (6 to 10 s; 50 to 2000 J.) Histological analyses were done to confirm nerve damage; temperature measured on the optic nerve was approximately 53.4°C (range: 39°C to 70°C.) Histology demonstrated a clear definition between a necrotic, transitional zone, and normal tissue. MRgHIFU induces targeted thermal injury to nervous tissue within a specific threshold of 50°C to 60°C with the tissue near the sonication center yielding the greatest effect; adjacent tissue showed minimal changes. Additional studies utilizing this technology are required to further establish accurate threshold parameters for optic nerve thermo-ablation.
未来磁共振引导高强度聚焦超声(MRgHIFU)的临床应用将转向颅内不同病变的治疗。我们旨在验证 MRgHIFU 产生的颅神经热损伤的安全性和有效性。本研究中,五头雌性家猪在全身麻醉下接受标准双额开颅术。然后使用 MRgHIFU 系统进行治疗,以诱导高热消融超声(6-10 秒;50-2000J)。进行组织学分析以确认神经损伤;视神经上的温度约为 53.4°C(范围:39°C 至 70°C)。组织学显示坏死、过渡区和正常组织之间有明确的界限。MRgHIFU 在 50°C 至 60°C 的特定阈值内对神经组织产生靶向热损伤,靠近超声中心的组织产生最大效果;相邻组织变化最小。需要进一步的研究来进一步确定视神经热消融的准确阈值参数。
