Department of Surgery, St. Luke's-Roosevelt Hospital Center, Columbia University College of Physicians and Surgeons, New York, USA.
Ann Thorac Surg. 2010 Feb;89(2):360-7. doi: 10.1016/j.athoracsur.2009.09.052.
Sublobar lung resection and brachytherapy seed placement is gaining acceptance for T1 non-small cell lung cancer (NSCLC) in select patients with comorbidities precluding lobectomy. Our institution first reported utilization of the da Vinci system for robotic brachytherapy developed experimentally in swine and applied to high-risk patients 5 years ago. We now report seed dosimetrics and midterm follow-up.
Eleven high-risk patients with stage IA NSCLC who were not candidates for conventional lobectomy underwent limited resection of 12 primary tumors. To reduce locoregional recurrence, (125)I brachytherapy seeds were robotically sutured intracorporeally over resection margins to deliver 14,400 cGy 1 cm from the implant plane. Patients were followed with dosimetric computed tomography scans at 30 +/- 16 days. Survival and sites of recurrence were documented.
Resected tumor size averaged 1.48 +/- 0.38 cm (range, 1.1 to 2.1 cm). Perioperative mortality was 0% and recurrence was 9% (1 of 11 [margin recurrence at 6 months with resultant mortality at 1 year]). Follow-up duration was 31.82 +/- 17.35 months. Dosimetrics confirmed 14,400 cGy delivery using 24.21 +/- 4.6 (125)I seeds (range, 17 to 30 seeds) over a planning target volume of 10.29 +/- 2.39 cc(3). Overall, 84.1% of the planning target volume was covered by 100% of the prescription dose (V100), and 88.2% was covered by 87% of the prescription dose (V87), comparable to open dosimetric data at our institution. Follow-up imaging confirmed seed stability in all patients.
Robotic (125)I brachytherapy seed placement is a feasible adjuvant procedure to reduce the incidence of recurrence after sublobar resection in medically compromised patients. Tailored robotic seed placement delivers an exact dosing regimen in a minimally invasive fashion with equivalent precision to open surgery.
对于有合并症而不能进行肺叶切除术的 T1 期非小细胞肺癌(NSCLC)患者,亚肺叶切除术和近距离放射治疗种植已逐渐被接受。本机构在 5 年前首次报道了使用达芬奇系统进行机器人近距离放射治疗的实验,并将其应用于高危患者。现在报告种子剂量学和中期随访结果。
11 例有合并症而不能进行常规肺叶切除术的 I 期 NSCLC 高危患者接受了 12 个原发肿瘤的局限性切除术。为了降低局部复发率,在切除边缘处经机器人缝合(125)I 放射性种子,距种植平面 1 厘米处给予 14400cGy。在 30 +/- 16 天进行剂量学 CT 扫描随访。记录生存和复发部位。
切除的肿瘤平均大小为 1.48 +/- 0.38cm(范围,1.1 至 2.1cm)。围手术期死亡率为 0%,复发率为 9%(11 例中有 1 例[6 个月时边缘复发,1 年后死亡])。随访时间为 31.82 +/- 17.35 个月。剂量学证实使用 24.21 +/- 4.6(125)I 种子(范围,17 至 30 粒)在 10.29 +/- 2.39cc(3)的计划靶区(PTV)上给予 14400cGy 剂量(24.21 +/- 4.6[125]I 种子)(范围,17 至 30 粒)。总体而言,PTV 的 84.1%被 100%的处方剂量(V100)覆盖,88.2%被 87%的处方剂量(V87)覆盖,与本机构的开放剂量学数据相当。随访影像学检查证实所有患者种子均稳定。
机器人(125)I 放射性种子放置是一种可行的辅助治疗方法,可以降低有合并症的亚肺叶切除术后复发的发生率。定制的机器人种子放置以微创的方式精确给予治疗剂量,与开放手术的精度相当。
