Abstract:Objective To explore the application value of three-dimensional reconstruction virtual reality navigation technology in thoracoscopic pulmonary segmentectomy. Methods A retrospective analysis of the clinical data of 79 patients who underwent pulmonary segmentectomy in the Department of Thoracic Surgery of the Second Affiliated Hospital of Zhengzhou University from September 2018 to December 2020, according to whether three-dimensional reconstruction virtual reality navigation technology was applied or not, they were divided into experimental group and control group. Among them, a total of 35 cases in the experimental group were guided by three-dimensional reconstruction virtual reality navigation technology; a total of 44 cases in the control group were guided by conventional two-dimensional CT images. The diameter of nodules, nature of nodules, operation time, intraoperative blood loss, postoperative extubation time, postoperative drainage, postoperative hospital stay, and postoperative complications were compared between the two groups. Results The operation time, postoperative extubation time, and postoperative hospital stay in the experimental group were shorter than those in the control group, while the amount of blood loss and total postoperative drainage were less than those in the control group, and the differences were statistically significant (P < 0.05); there was no significant difference in postoperative complications between the two groups (P > 0.05). Conclusion The application of three-dimensional reconstruction virtual reality navigation technology in thoracoscopic segmentectomy has certain clinical value. Through preoperative evaluation and intraoperative navigation, the risk and difficulty of the operation are reduced, and the accuracy and safety of the operation are improved.
[1] Siegel RL,Miller KD. Cancer statistics,2019 [J]. CA Cancer J Clin,2019,69(1):7-34.
[2] Hori M,Matsuda T,Shibata A,et al. Cancer incidence and incidence rates in Japan in 2009:a study of 32 population-based cancer registries for the Monitoring of Cancer Incidence in Japan (MCIJ) project [J]. Jpn J Clin Oncol,2015,45(9):884-891.
[3] 李宬润,马永富,梁朝阳,等.三维虚拟现实导航胸腔镜下肺叶切除技术初探[J].中华腔镜外科杂志:电子版,2016,9(5):307-309.
[4] 李云婧,李宬润,马永富,等.虚拟现实导航技术在胸腔镜下肺段切除中的临床应用[J].中华肺部疾病杂志:电子版,2017,10(4):461-464.
[5] 戚维波,王黎彬,刘海涛,等.虚拟现实技术在胸腔镜解剖性肺段切除术中的应用[J].中国基层医药,2020,27(14):1665-1670.
[6] 王晓燕,肖继伟,万钰磊,等.多层螺旋CT对肺小结节的诊断价值分析[J].中华肺部疾病杂志:电子版,2019, 12(2):197-199.
[7] Bedetti B,Bertolaccini L,Rocco R,et al. Segmentectomy versus lobectomy for stage I non-small cell lung cancer:a systematic review and meta-analysis [J]. J Thorac Dis,2017,9(6):1615-1623.
[8] Moon MH,Moon YK. Segmentectomy versus lobectomy in early non-small cell lung cancer of 2 cm or less in size:A population-based study [J]. Comparative Study,2018,23(7):695-703.
[9] Winckelmans T,Decaluwé H,De Leyn P,et al. Segmentectomy or lobectomy for early-stage non-small-cell lung cancer:a systematic review and meta-analysis [J]. Eur J Cardiothorac Surg,2020,57(6):1051-1060.
[10] 王亚洲,刘青,付茂勇,等.电视胸腔镜解剖性肺段切除术与肺叶切除术治疗肺部结节疗效及安全性[J].西部医学,2018,30(12):1829-1833.
[11] Toba H,Kondo K,Miyoshi T,et al. Fluoroscopy-assisted thoracoscopic resection after computed tomography-guided bronchoscopic metallic coil marking for small peripheral pulmonary lesions [J]. Eur J Cardiothorac Surg,2013,44(2):e126-e132.
[12] Kuo HL,Cheng L,Chung TJ. Systemic air embolism detected during percutaneous transthoracic needle biopsy:report of two cases and a proposal for a routine postprocedure computed tomography scan of the aorto-cardiac region [J]. Clin Imaging,2010,34(1):53-56.
[13] 汪志海,杨坤,耿耿,等.CT引导下Hook-wire穿刺定位肺小结节的应用及并发症情况分析[J].临床肺科杂志,2020,25(9):1333-1336.
[14] Yoo JS,Patel DS,Hrynewycz NM,et al. The utility of virtual reality and augmented reality in spine surgery [J]. Ann Transl Med,2019,7(Suppl 5):S171.
[15] Ayoub A,Pulijala Y. The application of virtual reality and augmented reality in Oral & Maxillofacial Surgery [J]. BMC Oral Health,2019,19(1):238.
[16] Cacau Lde A,Oliveira GU,Maynard LG,et al. The use of the virtual reality as intervention tool in the postoperative of cardiac surgery [J]. Rev Bras Cir Cardiovasc,2013, 28(2):281-289.
[17] Sayadi LR,Naides A,Eng M,et al. The New Frontier:A Review of Augmented Reality and Virtual Reality in Plastic Surgery [J]. Aesthet Surg J,2019,39(9):1007-1016.
[18] Masuda M,Okumura M,Doki Y,et al. Thoracic and cardiovascular surgery in Japan during 2014:Annual report by The Japanese Association for Thoracic Surgery [J]. Gen Thorac Cardiovasc Surg,2016,64(11):665-697.
[19] El-Sherif A,Fernando HC,Santos R,et al. Margin and local recurrence after sublobar resection of non-small cell lung cancer [J]. Ann Surg Oncol,2007,14(8):2400-2405.
[20] Sato M,Kobayashi M,Kojima F,et al. Effect of virtual-assisted lung mapping in acquisition of surgical margins in sublobar lung resection [J]. J Thorac Cardiovasc Surg,2018,156(4):1691-701.
[21] Sato M,Kuwata T,Yamanashi K,et al. Safety and reproducibility of virtual-assisted lung mapping:a multicentre study in Japan [J]. Eur J Cardiothorac Surg,2017,51(5):861-868.
[22] Seguin-Givelet A,Grigoroiu M,Brian E,et al. Planning and marking for thoracoscopic anatomical segmentectomies [J]. J Thorac Dis,2018,10(Suppl 10):S1187-S1194.
[23] 王黎彬,戚维波.三维重建及虚拟手术规划在胸腔镜解剖性肺段切除术中的应用进展[J].浙江医学,2019,41(5):485-466,491.
[24] 张书新,刘阳.个人电脑上肺癌64排CT数据的三维重建及虚拟手术[J].南方医科大学学报,2016,36(4):562-566.
[25] Sato M. Precise sublobar lung resection for small pulmonary nodules:localization and beyond [J]. Gen Thorac Cardiovasc Surg,2020,68(7):684-691.
京公网安备 11010502046598号