Comparison of lateral thermal damage of the human peritoneum using monopolar diathermy, Harmonic scalpel and LigaSure

Družijanić, Nikica; Pogorelić, Zenon; Perko, Zdravko; Mrklić, Ivana; Tomić, Snježana

doi:10.1503/cjs.000711

Cited by 92 publications

(69 citation statements)

References 17 publications

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“…Harmonic and LigaSure) perform coagulation hemostasis by generating heat at the tip of the device. However, unexpected secondary organ damage can occur by thermal injury (12)(13)(14)(15)(16)(17)(18). Therefore, it is necessary to maintain a safety margin such that heat does not directly spread into surrounding tissues during coagulation.…”

Section: Discussionmentioning

confidence: 99%

“…Energy dissectors, however, have significant limitations due to the large amounts of heat they produce. These limitations lead to several intraoperative complications, such as accidental thermal trauma to blood vessels, nerves, ureters, and bowels (12)(13)(14)(15)(16)(17)(18). Furthermore, thermal instruments can unintentionally fuse adjacent layers, leading to misinterpretation of tissue layers and, subsequently, dissection into the wrong plane.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Safety and feasibility of a novel non-thermal device for tissue dissection: A preliminary study of the DD1 differential dissector

Yoshida

Yamazaki

Sugitani

et al. 2018

BST

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Safety and feasibility of a novel non-thermal device for tissue dissection: A preliminary study of the DD1 differential dissector

Yoshida

Yamazaki

Sugitani

et al. 2018

BST

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“…LigaSure and Harmonic scalpel were the safest and most efficient methods of tissue coagulation. Monopolar diathermy resulted in the greatest degree of thermal damage in tissues [30].…”

Section: Thermal Damage In Laparoscopy-an In-depth Reviewmentioning

confidence: 96%

“…Its lateral thermal spread is reported to be less than 1 mm [18]. After recruiting 100 patients for a comparative study of Monopolar diathermy, Harmonic scalpel and LigaSure at the department of surgery in Croatia, Družijanić [30] and team with the help of light microscopy and morphometric imaging analysis measured the width of tissue lateral thermal damage from the point of the peritoneal incision. After a peritoneal incision, the mean lateral thermal damages of monopolar diathermy, Harmonic scalpel (output power 3), Harmonic scalpel (output power 5), and LigaSure were 215.79, 90.42, 127.48, and 144.18 lm, respectively as shown in Table 2.…”

Section: Thermal Damage In Laparoscopy-an In-depth Reviewmentioning

confidence: 99%

Surgical Efficacy Among Laparoscopic Ultrasonic Dissectors: Are We Advancing Safely? A Review of Literature

Devassy

Gopalakrishnan

Wilde

2015

J Obstet Gynecol India

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The specialty of laparoscopy has evolved with the advent of new technologies over the last few years. Energy-based devices and Ultrasonic dissectors are used with a lot of factors in play-including ergonomics and economics during surgery. Here an attempt is based to review the surgical efficacy and safety of these dissectors with importance to plume production and lateral thermal damage. The factors contributing to adversities to the dissectors are also to be noted. The strategy adopted was aimed at finding relevant studies from PubMed from 1995 to 2014. The basic principle of plume production and thermal damage are studied in this review. Factors contributing to the same that can lead to adversities during laparoscopic surgeries are identified. Summarizing key points that increase lateral thermal damage and plume production amongst different ultrasonic shears and suggesting a technique to identify the right balance between the existing dissectors was possible. The RF Device and USS are both useful and widely used and are more safer than monopolar devices. RF Device is considerably slower than USS, as it cannot achieve coagulation and cutting at the same time. Although USS definitely improvises dissection and has less thermal injury than RF Device, the clinical implications in balancing dissection efficacy with hemostasis need to be investigated further. The ideal haemostatic energy-based shear device would be one with excellent hemostatic results and visual acuity while allowing none or minimal thermal energy escape at the point of application. In our current setting, a combined use of both RF and USS device usage as applied in the particular situations has potential.

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“…Previous research showed that thermal tissue damage increased on average 1.41 times, from 90.42 µm to 127.48 µm, when the power level was increased from 3 to 5 in an ultrasonic surgical device that could control the output power level on a scale of 1 to 5 [12]. Furthermore, the position at which the inside of the blade makes contact with the tissue is not incised, forcing the surgeon to increase the output power level of the ultrasonic surgical device.…”

Section: Evaluation Of Robust Classifier Algorithm For Tissue Classifmentioning

confidence: 99%

Evaluation of Robust Classifier Algorithm for Tissue Classification under Various Noise Levels

Youn

Shin

Choi

et al. 2017

ETRI J

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Ultrasonic surgical devices are routinely used for surgical procedures. The incision and coagulation of tissue generate a temperature of 40 °C-150 °C and depend on the controllable output power level of the surgical device. Recently, research on the classification of grasped tissues to automatically control the power level was published. However, this research did not consider the specific characteristics of the surgical device, tissue denaturalization, and so on. Therefore, this research proposes a robust algorithm that simulates noise to resemble real situations and classifies tissue using conventional classifier algorithms. In this research, the bioimpedance spectrum for six tissues (liver, large intestine, kidney, lung, muscle, and fat) is measured, and five classifier algorithms are used. A signal-to-noise ratio of additive white Gaussian noise diversifies the testing sets, and as a result, each classifier's performance exhibits a difference. The k-nearest neighbors algorithm shows the highest classification rate of 92.09% (p < 0.01) and a standard deviation of 1.92%, which confirms high reproducibility.

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Comparison of lateral thermal damage of the human peritoneum using monopolar diathermy, Harmonic scalpel and LigaSure

Cited by 92 publications

References 17 publications

Safety and feasibility of a novel non-thermal device for tissue dissection: A preliminary study of the DD1 differential dissector

Safety and feasibility of a novel non-thermal device for tissue dissection: A preliminary study of the DD1 differential dissector

Surgical Efficacy Among Laparoscopic Ultrasonic Dissectors: Are We Advancing Safely? A Review of Literature

Evaluation of Robust Classifier Algorithm for Tissue Classification under Various Noise Levels

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