经自然腔道内镜手术（NOTES）和单孔腹腔镜手术（SILS）多分支器械的技术现状综述与分类

A state of the art review and categorization of multi-branched instruments for NOTES and SILS.

作者信息

Arkenbout Ewout A, Henselmans Paul W J, Jelínek Filip, Breedveld Paul

机构信息

Bio-Inspired Technology Group, Biomechanical Engineering Dept., Faculty of Mechanical, Maritime and Materials Engineering, Delft University of Technology, Mekelweg 2, 2628 CD, Delft, The Netherlands,

出版信息

Surg Endosc. 2015 Jun;29(6):1281-96. doi: 10.1007/s00464-014-3816-z. Epub 2014 Sep 24.

DOI:10.1007/s00464-014-3816-z

PMID:25249149

Abstract

BACKGROUND

Since the advent of Natural Orifice Translumenal Endoscopic Surgery (NOTES) and single incision laparoscopic surgery (SILS), a variety of multitasking platforms have been under development with the objective to allow for bimanual surgical tasks to be performed. These instruments show large differences in construction, enabled degrees of freedom (DOF), and control aspects.

METHODS

Through a literature review, the absence of an in-depth analysis and structural comparison of these instruments in the literature is addressed. All the designed and prototyped multitasking platforms are identified and categorized with respect to their actively controlled DOF in their shafts and branches. Additionally, a graphical overview of patents, bench test experiments, and animal and/or human trials performed with each instrument is provided.

RESULTS

The large range of instruments, various actuation strategies, and different direct and indirect control methods implemented in the instruments show that an optimal instrument configuration has not been found yet. Moreover, several questions remain unanswered with respect to which DOF are essential for bimanual tasks and which control methods are best suited for the control of these DOF.

CONCLUSIONS

Considering the complexity of the currently prototyped and tested instruments, future NOTES and SILS instrument development will potentially necessitate a reduction of the available DOF to minimize the control complexity, thereby allowing for single surgeon bimanual task execution.

摘要

背景

自从经自然腔道内镜手术（NOTES）和单切口腹腔镜手术（SILS）出现以来，多种多任务平台一直在研发中，目的是能够执行双手手术任务。这些器械在构造、自由度（DOF）及控制方面存在很大差异。

方法

通过文献综述，发现文献中缺乏对这些器械的深入分析和结构比较。对所有已设计和制成原型的多任务平台，根据其轴和分支中主动控制的自由度进行识别和分类。此外，还提供了每种器械的专利、台架试验、动物和/或人体试验的图形概述。

结果

器械种类繁多、驱动策略各异，以及器械中采用的不同直接和间接控制方法表明，尚未找到最佳的器械配置。此外，关于哪些自由度对双手任务至关重要以及哪种控制方法最适合控制这些自由度，仍有几个问题未得到解答。

结论

考虑到当前已制成原型并经过测试的器械的复杂性，未来NOTES和SILS器械的开发可能需要减少可用自由度，以最小化控制复杂性，从而使单名外科医生能够执行双手任务。

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经自然腔道内镜手术（NOTES）和单孔腹腔镜手术（SILS）多分支器械的技术现状综述与分类

A state of the art review and categorization of multi-branched instruments for NOTES and SILS.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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