无缝合机器人辅助二尖瓣修复:动物模型
Sutureless robot-assisted mitral valve repair: an animal model.
作者信息
Reade Clifton C, Bower Curtis E, Maziarz David M, Conquest Anne M, Sun You Su, Nifong L Wiley, Chitwood W Randolph
机构信息
Division of Cardiothoracic Surgery, The Brody School of Medicine at East Carolina University, Greenville, North Carolina, USA.
出版信息
Heart Surg Forum. 2003;6(4):254-7.
BACKGROUND
Robotic mitral valve repair with the da Vinci robotic surgical system has been performed in more than 70 patients at our institution. This procedure reduces the need for blood transfusions, shortens hospital stay, and hastens return to normal activities. However, the robot-assisted repair also requires longer cardiopulmonary bypass and arrested-heart times than conventional open repairs. Because of increased risk of myocardial damage, arrhythmia, and other significant morbidities associated with longer arrested-heart time, a more efficient tissue approximation and adherence technique was evaluated to reduce operating time.
METHODS
Twelve Dorset sheep were divided equally into 2 groups. In the control group Cosgrove-Edwards annuloplasty bands were secured to the posterior annulus with conventional 2-0 Ticron mattress sutures placed with robotic assistance. In the experimental group, the band was secured with double-armed nitinol U-clips placed with robotic assistance. Postoperative echocardiography was used to assess mitral valve function, and the animals were sacrificed at 3 or 6 months for histological evaluation.
RESULTS
Total U-clip placement time was significantly decreased at 2.6 +/- 0.2 (mean +/- SEM) minutes versus total suture placement time at 4.9 +/- 0.4 minutes (P =.001). The main difference in time occurred between clip deployment at 0.75 +/- 0.1 minutes and suture tying at 2.78 +/- 0.2 minutes (P =.000003). Pathologic review showed excellent band incorporation at 3 and 6 months. Echocardiographic imaging showed no discernible mitral valve stenosis or regurgitation.
CONCLUSIONS
With more cardiac procedures progressing toward minimally invasive approaches, novel technology to improve existing techniques must be evaluated. Nitinol U-clips help to reduce arrested-heart time and may improve outcome by decreasing morbidity. U-clip placement is intuitive, easily learned, and effective in securing the annuloplasty band to the mitral annulus.
背景
我院已使用达芬奇机器人手术系统对70余例患者实施了机器人二尖瓣修复术。该手术减少了输血需求,缩短了住院时间,并加快了恢复正常活动的速度。然而,与传统的开放性修复相比,机器人辅助修复所需的体外循环和心脏停搏时间更长。由于心脏停搏时间延长会增加心肌损伤、心律失常及其他严重并发症的风险,因此对一种更高效的组织贴合和黏附技术进行了评估,以缩短手术时间。
方法
将12只多塞特羊平均分为两组。对照组在机器人辅助下,用传统的2-0 Ticron褥式缝线将Cosgrove-Edwards瓣环成形带固定于后瓣环。实验组在机器人辅助下,用双臂镍钛合金U形夹固定瓣环成形带。术后采用超声心动图评估二尖瓣功能,并在3或6个月时处死动物进行组织学评估。
结果
U形夹总放置时间显著缩短,为2.6±0.2(平均±标准误)分钟,而缝线总放置时间为4.9±0.4分钟(P = 0.001)。时间上的主要差异在于夹的部署时间为0.75±0.1分钟,而缝线打结时间为2.78±0.2分钟(P = 0.000003)。病理检查显示,在3个月和6个月时瓣环成形带融合良好。超声心动图成像显示无明显的二尖瓣狭窄或反流。
结论
随着更多心脏手术向微创方法发展,必须评估用于改进现有技术的新技术。镍钛合金U形夹有助于缩短心脏停搏时间,并可能通过降低发病率来改善手术结果。U形夹放置直观,易于掌握,并且能有效地将瓣环成形带固定于二尖瓣瓣环。
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