OpenHELP（海德堡腹腔镜手术模型）：一种开源手术评估与训练工具的开发

OpenHELP (Heidelberg laparoscopy phantom): development of an open-source surgical evaluation and training tool.

作者信息

Kenngott H G, Wünscher J J, Wagner M, Preukschas A, Wekerle A L, Neher P, Suwelack S, Speidel S, Nickel F, Oladokun D, Albala Lorenzo, Maier-Hein L, Dillmann R, Meinzer H P, Müller-Stich B P

机构信息

Department of General, Visceral and Transplantation Surgery, University of Heidelberg, Im Neuenheimer Feld 110, 69120, Heidelberg, Germany.

Division of Medical and Biological Informatics, German Cancer Research Center (DKFZ), Heidelberg, Germany.

出版信息

Surg Endosc. 2015 Nov;29(11):3338-47. doi: 10.1007/s00464-015-4094-0. Epub 2015 Feb 12.

DOI:10.1007/s00464-015-4094-0

PMID:25673345

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4607709/

Abstract

BACKGROUND

Apart from animal testing and clinical trials, surgical research and laparoscopic training mainly rely on phantoms. The aim of this project was to design a phantom with realistic anatomy and haptic characteristics, modular design and easy reproducibility. The phantom was named open-source Heidelberg laparoscopic phantom (OpenHELP) and serves as an open-source platform.

METHODS

The phantom was based on an anonymized CT scan of a male patient. The anatomical structures were segmented to obtain digital three-dimensional models of the torso and the organs. The digital models were materialized via rapid prototyping. One flexible, using an elastic abdominal wall, and one rigid method, using a plastic shell, to simulate pneumoperitoneum were developed. Artificial organ production was carried out sequentially starting from raw gypsum models to silicone molds to final silicone casts. The reproduction accuracy was exemplarily evaluated for ten silicone rectum models by comparing the digital 3D surface of the original rectum with CT scan by calculating the root mean square error of surface variations. Haptic realism was also evaluated to find the most realistic silicone compositions on a visual analog scale (VAS, 0-10).

RESULTS

The rigid and durable plastic torso and soft silicone organs of the abdominal cavity were successfully produced. A simulation of pneumoperitoneum could be created successfully by both methods. The reproduction accuracy of ten silicone rectum models showed an average root mean square error of 2.26 (0-11.48) mm. Haptic realism revealed an average value on a VAS of 7.25 (5.2-9.6) for the most realistic rectum.

CONCLUSION

The OpenHELP phantom proved to be feasible and accurate. The phantom was consecutively applied frequently in the field of computer-assisted surgery at our institutions and is accessible as an open-source project at www.open-cas.org for the academic community.

摘要

背景

除动物试验和临床试验外，外科研究和腹腔镜培训主要依赖模型。本项目的目的是设计一种具有逼真解剖结构和触觉特性、模块化设计且易于复制的模型。该模型被命名为开源海德堡腹腔镜模型（OpenHELP），并作为一个开源平台。

方法

该模型基于一名男性患者的匿名CT扫描。对解剖结构进行分割，以获得躯干和器官的数字三维模型。通过快速成型将数字模型实体化。开发了一种使用弹性腹壁的柔性方法和一种使用塑料外壳的刚性方法来模拟气腹。从原始石膏模型开始，依次制作硅胶模具，最后制作硅胶铸件，进行人工器官生产。通过计算表面变化的均方根误差，将原始直肠的数字3D表面与CT扫描进行比较，对十个硅胶直肠模型的复制精度进行了示例性评估。还通过视觉模拟量表（VAS，0 - 10）评估触觉逼真度，以找到最逼真的硅胶成分。

结果

成功制作出刚性耐用的塑料躯干和柔软的腹腔硅胶器官。两种方法都能成功创建气腹模拟。十个硅胶直肠模型的复制精度显示平均均方根误差为2.26（0 - 11.48）mm。触觉逼真度显示，最逼真的直肠在VAS上的平均值为7.25（5.2 - 9.6）。

结论

OpenHELP模型被证明是可行且准确的。该模型在我们机构的计算机辅助手术领域中被频繁应用，并且作为一个开源项目可在www.open - cas.org上供学术界使用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7a8e/4607709/aeb2ce6ae20a/464_2015_4094_Fig1_HTML.jpg

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OpenHELP（海德堡腹腔镜手术模型）：一种开源手术评估与训练工具的开发

OpenHELP (Heidelberg laparoscopy phantom): development of an open-source surgical evaluation and training tool.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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