Robert E. Dodde
University of Michigan
18 Papers
231 Citations
Robert E. Dodde is an academic researcher from University of Michigan. The author has contributed to research in topics: Finite element method & ELECTROSURGICAL DEVICE. The author has an hindex of 9, co-authored 18 publications.
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Papers
Patent
Surgical Instrument and Method for Use Thereof
Robert E. Dodde,Albert J. Shih,James D. Geiger,William L. Roberts,Kevin P. Pipe,Arnold P. Advincula +5 more
- 24 Jan 2007
TL;DR: In this paper, a surgical instrument for treating a tissue includes a handpiece and a tissue engaging portion arranged to be received by the handpiece, where the first and second opposed jaw members are arranged to receive surgical energy from a surgical generator.
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Bioimpedance of soft tissue under compression.
TL;DR: Using a Cole-Cole model, nonlinear compositional changes in extracellular and intracellular makeup; related to a loss of fluid from the tissue, are identified during compression, possibly indicating two distinct phases of mechanical change in the tissue during compression.
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Monopolar Electrosurgical Thermal Management for Minimizing Tissue Damage
TL;DR: In this study, a novel thermal management system (TMS) is developed for the minimization of thermal spread created by a monopolar electrosurgical device, the most commonly used surgical instrument.
56
Thermal-Electric Finite Element Analysis and Experimental Validation of Bipolar Electrosurgical Cautery
TL;DR: In this paper, a coupled thermal-electric finite element modeling (FEM) module was applied with temperature-dependent electrical and thermal properties for the tissue subject to a bipolar electrosurgical technique.
Electrosurgical Vessel Sealing Tissue Temperature: Experimental Measurement and Finite Element Modeling
TL;DR: Tissue temperature in an in vivo porcine femoral artery sealed using a bipolar electrosurgical device was studied and three FEM techniques were incorporated to model the tissue evaporation, water loss, and fusion by manipulating the specific heat, electrical conductivity, and electrical contact resistance.
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