反复使用能量设备时，若组织部分咬口且冷却时间不足，可能导致热损伤。

Repeated partial tissue bite with inadequate cooling time for an energy device may cause thermal injury.

机构信息

Department of Surgery I, School of Medicine, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu, 807-8555, Japan.

出版信息

Surg Endosc. 2021 Jun;35(6):3189-3198. doi: 10.1007/s00464-021-08322-3. Epub 2021 Feb 1.

DOI:10.1007/s00464-021-08322-3

PMID:33523265

Abstract

BACKGROUND

Over the past three decades, the use of ultrasonically activated device (USAD) and advanced bipolar device (ABD) has grown in minimally invasive surgeries. However, the thermal profile differences during repeated dissection with different grasping ranges of energy devices, which provide valuable information for preventing thermal injury by energy devices, remain unclear.

METHODS

We developed an ex vivo benchtop model to examine the temperature profile of the blade and jaws of two USADs (HARMONIC® ACE + and Sonicision™) and a ABD (Ligasure™ Maryland) with different grasping ranges (partial tissue and full tissue bite) in repeated dissection with minimum cooling time. The maximum temperature, time required for completion to dissection of 10 cm of porcine muscle, thermal spread, and cooling time to reach 60 °C were continuously measured using video thermography. In addition, to evaluate one more grasping range "no tissue", we performed a stress test that activated the USAD without tissue intervention to assess the effects of excessive load on the blade and jaw.

RESULTS

Repeated dissection of energy devices with minimal cooling time results in high blade and jaw temperatures proportional to the incision distance. In particular, the USADs with partial tissue bite showed a significantly higher temperatures at the blade and jaw, longer cooling times, and higher lateral thermal spread than those with a full tissue bite and the ABD. The stress test with a USAD showed an extremely high blade temperature exceeding 400 °C, with the tissue pad melting only 13.2 s after activation.

CONCLUSION

Although USAD with partial tissue bite help ensure precise dissection, repeated long activation with inadequate cooling time may increase the risk of thermal injury during surgery. These results suggest that surgeons should use energy devices properly while understanding the risks of adjacent organ damage that could result from abuse of the device.

摘要

背景

在过去的三十年中，超声激活装置（USAD）和高级双极装置（ABD）在微创手术中的应用越来越广泛。然而，不同抓握范围的能量装置在重复切割过程中的热分布差异尚不清楚，这些差异为预防能量装置引起的热损伤提供了有价值的信息。

方法

我们开发了一种离体台式模型，以检查两种 USAD（HARMONIC® ACE+和 Sonicision™）和一种 ABD（Ligasure™ Maryland）的刀片和钳口在最小冷却时间下重复切割时的温度分布，抓握范围分别为部分组织和全组织咬口。使用视频热成像仪连续测量最大温度、完成 10cm 猪肌肉切割所需的时间、热扩散和达到 60°C 的冷却时间。此外，为了评估另一个抓握范围“无组织”，我们进行了一个应力测试，即在没有组织干预的情况下激活 USAD，以评估过大的负载对刀片和钳口的影响。

结果

最小冷却时间下的能量装置重复切割会导致刀片和钳口温度升高，与切口距离成正比。特别是，具有部分组织咬口的 USAD 在刀片和钳口处的温度明显更高，冷却时间更长，侧向热扩散更高，而具有全组织咬口和 ABD 的 USAD 则更低。具有部分组织咬口的 USAD 进行的应力测试显示，刀片温度极高，超过 400°C，组织垫在激活后仅 13.2 秒就融化。

结论

虽然具有部分组织咬口的 USAD 有助于确保精确切割，但重复长时间激活而冷却时间不足可能会增加手术中热损伤的风险。这些结果表明，外科医生在使用能量装置时应了解因滥用设备而导致相邻器官损伤的风险。

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反复使用能量设备时，若组织部分咬口且冷却时间不足，可能导致热损伤。

Repeated partial tissue bite with inadequate cooling time for an energy device may cause thermal injury.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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