The most dangerous and most common type of electrosurgery used today is monopolar electrosurgery [1]. Achieving the desired effects during electrosurgery largely remains an art form rather then a science. Surgeons must rely on experience and intuition to estimate the thermal damage by trial and error [2]. The only indication of the degree of thermal damage is done by visual inspection of the ablation site and monitoring the growth of the white peripheral crest, which indicates protein denaturation. From this white peripheral crest, it is up to the surgeon to estimate the depth of thermal damage. Underestimating the depth of thermal damage ultimately leads to perforation of an organ, which is a life-threatening complication for the patient. Adding to the difficulty in establishing acceptable limits for thermal injury, in real-time, is the fact that perforations are commonly delayed—occurring at any point in time after the surgery...
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September 2013
Technical Briefs
Method for Detecting Ablation Damage Using Sensor Integration of Hot Biopsy Forceps
Randolph Robert,
Randolph Robert
Department of Mechanical Engineering,
Athens, OH
Ohio University
,Athens, OH
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Liang Chen,
Liang Chen
Biomedical Engineering Program,
Athens, OH
Ohio University
,Athens, OH
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Rajesh Shanbhag,
Rajesh Shanbhag
Department of Mechanical Engineering,
Athens, OH
Ohio University
,Athens, OH
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David Drozek,
David Drozek
Department of Specialty Medicine,
Ohio University
,Athens, OH
, USA
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JungHun Choi
JungHun Choi
Department of Mechanical Engineering,
Biomedical Engineering Program,
Athens, OH
Biomedical Engineering Program,
Ohio University
,Athens, OH
Search for other works by this author on:
Randolph Robert
Department of Mechanical Engineering,
Athens, OH
Ohio University
,Athens, OH
Liang Chen
Biomedical Engineering Program,
Athens, OH
Ohio University
,Athens, OH
Rajesh Shanbhag
Department of Mechanical Engineering,
Athens, OH
Ohio University
,Athens, OH
David Drozek
Department of Specialty Medicine,
Ohio University
,Athens, OH
, USA
JungHun Choi
Department of Mechanical Engineering,
Biomedical Engineering Program,
Athens, OH
Biomedical Engineering Program,
Ohio University
,Athens, OH
Manuscript received March 15, 2013; final manuscript received April 2, 2013; published online July 3, 2013. Assoc. Editor: Arthur G. Erdman.
J. Med. Devices. Sep 2013, 7(3): 030948 (2 pages)
Published Online: July 3, 2013
Article history
Received:
March 15, 2013
Revision Received:
April 2, 2013
Citation
Robert, R., Chen, L., Shanbhag, R., Drozek, D., and Choi, J. (July 3, 2013). "Method for Detecting Ablation Damage Using Sensor Integration of Hot Biopsy Forceps." ASME. J. Med. Devices. September 2013; 7(3): 030948. https://doi.org/10.1115/1.4024348
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