a Sheikh Zayed Institute for Pediatric Surgical Innovation , Children's National Medical Center , Washington, DC , USA.
b Clinical Science MR Therapy, Philips , Andover , MA , USA.
Int J Hyperthermia. 2018 Feb;34(1):49-58. doi: 10.1080/02656736.2017.1315458. Epub 2017 Apr 24.
Osteoid osteoma (OO) is a painful bone tumour occurring in children and young adults. Magnetic resonance imaging-guided high intensity focussed ultrasound (MR-HIFU) allows non-invasive treatment without ionising radiation exposure, in contrast to the current standard of care treatment with radiofrequency ablation (RFA). This report describes technical aspects of MR-HIFU ablation in the first 8 paediatric OO patients treated in a safety and feasibility clinical trial (total enrolment of up to 12 patients).
OO lesions and adjacent periosteum were treated with MR-HIFU ablation in 5-20 sonications (sonication duration = 16-48 s, frequency = 1.2 MHz, acoustic power = 20-160 W). Detailed treatment workflow, patient positioning and coupling strategies, as well as temperature and tissue perfusion changes were summarised and correlated.
MR-HIFU ablation was feasible in all eight cases. Ultrasound standoff pads were shaped to conform to extremity contours providing acoustic coupling and aided patient positioning. The energy delivered was 10 ± 7 kJ per treatment, raising maximum temperature to 83 ± 3 °C. Post ablation contrast-enhanced MRI showed ablated volumes ranging 0.46-19.4 cm extending further into bone (7 ± 4 mm) than into soft tissue (4 ± 6 mm, p = 0.01, Mann-Whitney). Treatment time ranged 30-86 min for sonication and 160 ± 40 min for anaesthesia. No serious treatment-related adverse events were observed. Complete pain relief with no medication occurred in 7/8 patients within 28 days following treatment.
MR-HIFU ablation of painful OO appears technically feasible in children and it may become a non-invasive and radiation-free alternative for painful OO. Therapy success, efficiency, and applicability may be improved through specialised equipment designed more specifically for extremity bone ablation.
骨样骨瘤(OO)是一种发生在儿童和青年中的疼痛性骨肿瘤。与当前的标准治疗方法射频消融(RFA)相比,磁共振引导高强度聚焦超声(MR-HIFU)允许进行非侵入性治疗,而不会暴露于电离辐射。本报告介绍了在一项安全性和可行性临床试验中治疗的前 8 例儿科 OO 患者中进行的 MR-HIFU 消融的技术方面(总共最多可纳入 12 例患者)。
在 5-20 次超声治疗中(超声持续时间=16-48s,频率=1.2MHz,声功率=20-160W)对 OO 病变及其相邻骨膜进行了 MR-HIFU 消融。总结并关联了详细的治疗工作流程、患者定位和耦合策略以及温度和组织灌注变化。
所有 8 例病例均可行 MR-HIFU 消融。超声隔离垫被塑形为与肢体轮廓一致,以提供声耦合并辅助患者定位。所输送的能量为每次治疗 10±7kJ,最高温度升高至 83±3°C。消融后的对比增强 MRI 显示,消融体积为 0.46-19.4cm,在骨内延伸的范围(7±4mm)大于软组织内延伸的范围(4±6mm,p=0.01,Mann-Whitney)。超声治疗时间为 30-86min,麻醉时间为 160±40min。未观察到与治疗相关的严重不良事件。在治疗后 28 天内,7/8 例患者完全缓解疼痛,无需药物治疗。
在儿童中,MR-HIFU 消融治疗疼痛性 OO 似乎在技术上是可行的,它可能成为治疗疼痛性 OO 的一种非侵入性、无辐射的替代方法。通过专门设计用于肢体骨消融的更特定的设备,可提高治疗成功率、效率和适用性。
