Department of Surgery, University of Colorado Denver School of Medicine, 12631 East 17th Ave., MS C313, Aurora, CO 80045, USA.
Surg Endosc. 2011 Nov;25(11):3499-502. doi: 10.1007/s00464-011-1742-x. Epub 2011 May 19.
Energy devices are essential laparoscopic tools. Residual heat is defined as the increased instrument temperature after energy activation is completed. This study aimed to determine the length of time a surgeon needs to wait before touching other tissue using four common laparoscopic energy sources.
Thermal imaging quantified instrument and tissue temperature ex vivo using monopolar coagulation, argon beam coagulation, ultrasonic dissection, and bipolar tissue fusion devices. To simulate realistic operative usage, each instrument was activated for 5 s four consecutive times with 5 s pauses between fires. Thermal conductivity to bovine liver tissue was measured 2.5, 5, 10, and 20 s after final activation.
The maximum increase in instrument tip temperature was 172 ± 63°C for the ultrasonic dissection, 81 ± 18°C for the monopolar coagulation, 46 ± 19°C for the bipolar tissue fusion, and 1 ± 1°C for the argon beam coagulation (P < 0.05 for all comparisons). Touching the instrument tip to tissue at four intervals after the final activation (2.5, 5, 10, and 20 s) found that ultrasonic energy raised the tissue temperature higher (maximum change, 58°C) than the other three energy devices at all four time points (P < 0.05).
Ultrasonic energy instruments have greater residual heat than monopolar electrosurgery, bipolar tissue fusion, and argon beam. The ultrasonic energy instrument tips heated tissue more than 20°C from baseline even 20 s after activation; whereas all the other energy sources raised the tissue temperature less than 20°C by 5 s. These practical findings may alter a surgeon's usage of these common energy devices.
能量设备是腹腔镜手术的重要工具。余热是指能量激活完成后仪器温度的升高。本研究旨在确定外科医生在使用四种常见腹腔镜能量源触摸其他组织之前需要等待的时间长度。
使用单极电凝、氩束凝固、超声刀和双极组织融合设备,通过热成像技术对仪器和组织温度进行离体定量测量。为了模拟实际手术操作,每个仪器连续激活 5 秒,每次激活之间间隔 5 秒,共进行四次激活。在最后一次激活后 2.5、5、10 和 20 秒测量仪器尖端到牛肝组织的热导率。
超声刀的仪器尖端温度最大升高 172°C ± 63°C,单极电凝为 81°C ± 18°C,双极组织融合为 46°C ± 19°C,氩束凝固为 1°C ± 1°C(所有比较均 P < 0.05)。在最后一次激活后的四个时间间隔(2.5、5、10 和 20 秒)触摸仪器尖端接触组织,发现超声能量使组织温度升高更高(最大变化 58°C),比其他三种能量设备在所有四个时间点都高(P < 0.05)。
超声能量仪器的余热比单极电外科、双极组织融合和氩束更大。超声能量仪器尖端在激活后 20 秒内使组织温度升高超过 20°C,而所有其他能量源在 5 秒内使组织温度升高低于 20°C。这些实际发现可能会改变外科医生对这些常见能量设备的使用方式。
