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2
A supermicrosurgery pig foot training model for practice of lymphaticovenular anastomosis.一种用于淋巴管静脉吻合术练习的超显微外科猪蹄训练模型。
Microsurgery. 2020 Jan;40(1):91-92. doi: 10.1002/micr.30521. Epub 2019 Oct 18.
3
Supermicrosurgery simulation training program for submillimeter anastomoses in the rat epigastric artery and vein.大鼠腹壁动静脉亚毫米吻合的超显微手术模拟训练程序
Microsurgery. 2019 Nov;39(8):773-774. doi: 10.1002/micr.30483. Epub 2019 Jun 24.
4
Supermicrosurgery training model for lymphaticovenous anastomosis in advanced lymphedema by iliolumbar vein and ureter anastomosis in the rat.通过大鼠髂腰静脉与输尿管吻合建立晚期淋巴水肿淋巴管静脉吻合的超显微手术训练模型。
Microsurgery. 2019 Jul;39(5):480-481. doi: 10.1002/micr.30445. Epub 2019 Mar 5.
5
Anterolateral Thigh Flap in a Chicken Model: A Novel Perforator Training Model.鸡模型中的前外侧股部皮瓣:一种新的穿支训练模型。
J Reconstr Microsurg. 2019 Sep;35(7):485-488. doi: 10.1055/s-0039-1679882. Epub 2019 Feb 22.
6
Refinement of the chicken wing supermicrosurgical training model: Pre-operative indocyanide green injection highlighting vessels' visualization under 0.4 mm of diameter.鸡翅超显微外科训练模型的改进:术前注射吲哚菁绿以突出直径0.4毫米以下血管的可视化。
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7
Developing a Three-Layered Synthetic Microsurgical Simulation Vessel.开发一种三层合成显微外科模拟血管。
J Reconstr Microsurg. 2019 Jan;35(1):15-21. doi: 10.1055/s-0038-1657791. Epub 2018 Jul 11.
8
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9
Chicken thigh microvascular training model improves resident surgical skills.鸡大腿微血管训练模型可提高住院医师的手术技能。
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10
The Role of Simulation in Microsurgical Training.模拟在显微外科培训中的作用。
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荧光成像增强鸡大腿模型可实现超微创手术训练中的实时、高保真评估。

Augmentation of Chicken Thigh Model with Fluorescence Imaging Allows for Real-Time, High Fidelity Assessment in Supermicrosurgery Training.

机构信息

Division of Plastic Surgery, University of Wisconsin School of Medicine and Public Health, Madison, Wisconsin.

OnLume Inc., Madison, Wisconsin.

出版信息

J Reconstr Microsurg. 2021 Jul;37(6):514-518. doi: 10.1055/s-0040-1722184. Epub 2020 Dec 30.

DOI:10.1055/s-0040-1722184
PMID:33378772
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10334472/
Abstract

BACKGROUND

The skills required for supermicrosurgery are hard-earned and difficult to master. The University of Wisconsin "blue-blood" chicken thigh model incorporates perfusion of the thigh vessels with a blue liquid solution, allowing users to visualize flow across their anastomoses. This model has proven to be an excellent source of small vessels (down to 0.3 mm) but assessing the quality of anastomoses at this spatial scale has proven difficult. We evaluated whether fluorescent imaging with indocyanine green (ICG) in this realistic training model would enhance the assessment of supermicrosurgical anastomoses, and therefore improve real-time feedback to trainees.

METHODS

Anastomoses of vessels ranging from 0.35 to 0.55mm in diameter were performed followed by the capture of white light with and without fluorescence imaging overlay during infusion of "blue-blood" and ICG. Videos were randomized and shown to seven fellowship-trained microsurgeons at the University of Wisconsin-Madison who rated each anastomosis as "patent," "not patent," or "unsure." Surgeon accuracy, uncertainty, and inter-rater agreement were measured for each imaging modality.

RESULTS

Use of fluorescence significantly increased surgeon accuracy to 91% compared with 47% with white light alone ( = 0.015), decreased surgeon uncertainty to 4% compared with 41% with white light alone ( = 0.011), and improved inter-rater agreement from 53.1% with white light alone to 91.8% ( = 0.016).

CONCLUSION

Augmentation of the University of Wisconsin "blue-blood" chicken thigh model with ICG fluorescence improves accuracy, decreases uncertainty, and improves inter-rater agreement when assessing supermicrosurgical anastomoses in a training setting. This improved, real-time feedback enhances this model's value as a supermicrosurgical training tool.

摘要

背景

进行超显微手术所需的技能是艰苦且难以掌握的。威斯康星大学的“蓝血”鸡腿模型将大腿血管内灌注蓝色液体溶液,使用户能够观察到吻合口的血流。该模型已被证明是小血管(小至 0.3mm)的良好来源,但评估这种空间尺度下吻合口的质量具有挑战性。我们评估了在这种逼真的训练模型中使用吲哚菁绿(ICG)荧光成像是否会增强对超显微吻合口的评估,并因此改善对学员的实时反馈。

方法

吻合直径为 0.35 至 0.55mm 的血管,在灌注“蓝血”和 ICG 时,分别采集白光和白光叠加荧光图像。将视频随机呈现给威斯康星大学麦迪逊分校的七名 fellowship 培训的显微外科医生,他们对每个吻合口进行“通畅”、“不通畅”或“不确定”的评分。测量每种成像方式的手术医生准确性、不确定性和组内一致性。

结果

与单独使用白光相比,荧光成像将手术医生的准确率从 47%提高到 91%( = 0.015),将医生的不确定性从 41%降低到 4%( = 0.011),并将单独使用白光时的组内一致性从 53.1%提高到 91.8%( = 0.016)。

结论

在评估培训环境中的超显微吻合口时,用 ICG 荧光增强威斯康星大学“蓝血”鸡腿模型可以提高准确性、降低不确定性并提高组内一致性。这种改进的实时反馈增强了该模型作为超显微外科培训工具的价值。