绘制机器人辅助支气管镜检查的学习曲线:在一个高容量学术中心对技能获取情况的分析。
Characterizing a learning curve for robotic-assisted bronchoscopy: Analysis of skills acquisition in a high-volume academic center.
作者信息
Bott Matthew J, Toumbacaris Nicolas, Tan Kay See, Husta Bryan C, Medina Benjamin D, Adusumilli Prasad S, Beattie Jason A, Lee Robert P, Park Bernard J, Dycoco Joseph, Jones David R, Chawla Mohit, Rocco Gaetano, Kalchiem-Dekel Or
机构信息
Thoracic Service, Department of Surgery, Memorial Sloan Kettering Cancer Center, New York, NY.
Department of Epidemiology and Biostatistics, Memorial Sloan Kettering Cancer Center, New York, NY.
出版信息
J Thorac Cardiovasc Surg. 2025 Jan;169(1):269-278.e6. doi: 10.1016/j.jtcvs.2024.06.018. Epub 2024 Jun 25.
OBJECTIVE
Shape-sensing robotic-assisted bronchoscopy is an emerging technology for the sampling of pulmonary lesions. We seek to characterize the shape-sensing robotic-assisted bronchoscopy learning curve at an academic center.
METHODS
Shape-sensing robotic-assisted bronchoscopy procedures performed by 9 proceduralists at a single institution were analyzed. Cumulative sum analyses were performed to examine diagnostic sampling and procedure time over each operator's first 50 cases, with the acceptable yield threshold set to 73%.
RESULTS
During the study period, 442 patients underwent sampling of 551 lesions. Each operator sampled 61 lesions (interquartile range, 60-63 lesions). Lesion size was 1.90 cm (interquartile range, 1.33-2.80 cm). The median procedure time for single-target cases decreased from 62 minutes during the first 10 cases to 39 minutes after case 40 (P < .001). The overall diagnostic yield was 72% (range, 58%-83%). Six of 9 operators achieved proficiency over the study period. An aggregated cumulative sum analysis of those who achieved competency demonstrated a steep improvement between lesions 1 and 21 and crossing of the competency threshold by lesion 25. Temporal analysis of yield-related lesion characteristics demonstrated that at approximately lesion 20, more challenging lesions were increasingly targeted, as evidenced by smaller target size, higher rates of unfavorable radial endobronchial ultrasound views, and a negative bronchus sign.
CONCLUSIONS
Skills acquisition in shape-sensing robotic-assisted bronchoscopy is variable. Approximately half of proceduralists become facile with the technology within 25 lesions. After the initial learning phase, operators increasingly target lesions with more challenging features. Overall, these findings can inform certification and competency standards and provide new users with expectations related to performance over time.
目的
形状感知机器人辅助支气管镜检查是一种用于肺部病变采样的新兴技术。我们试图在一个学术中心描述形状感知机器人辅助支气管镜检查的学习曲线。
方法
分析了由9名操作医生在单一机构进行的形状感知机器人辅助支气管镜检查程序。进行累积和分析,以检查每位操作者前50例病例中的诊断采样和操作时间,可接受的成功率阈值设定为73%。
结果
在研究期间,442例患者接受了551个病变的采样。每位操作者采样61个病变(四分位间距,60 - 63个病变)。病变大小为1.90厘米(四分位间距,1.33 - 2.80厘米)。单靶点病例的中位操作时间从最初10例时的62分钟降至第40例后的39分钟(P <.001)。总体诊断成功率为72%(范围,58% - 83%)。9名操作者中有6名在研究期间达到熟练水平。对达到胜任能力者的汇总累积和分析显示,在第1个病变到第21个病变之间有显著改善,到第25个病变时越过了胜任能力阈值。对与成功率相关的病变特征的时间分析表明,在大约第20个病变时,越来越多地针对更具挑战性的病变,表现为目标尺寸更小、径向支气管内超声视图不理想的发生率更高以及支气管征阴性。
结论
形状感知机器人辅助支气管镜检查的技能获取存在差异。大约一半的操作医生在25个病变内就能熟练掌握该技术。在初始学习阶段之后,操作者越来越多地针对具有更具挑战性特征的病变。总体而言,这些发现可为认证和胜任能力标准提供参考,并为新用户提供随着时间推移与操作表现相关的预期。
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