In this study, a model for predicting the temperature distribution in brain tissue when using a bipolar electrocautery is proposed and validated against ...
Abstract. Real-time surgical simulation requires computationally-fast models describing the interaction between surgical instrument and tissues.
Modeling the Thermal Effect of the Bipolar Electrocautery for. Neurosurgery Simulation. Delorme, Sébastien; Cabral, Anne; Ayres, Fabio; Jiang, Di https ...
A model for predicting the temperature distribution in brain tissue when using a bipolar electrocautery is proposed and validated against experimental in ...
The purpose of this research is to better understand heat transfer in biological tissues in cautery procedures to further improve the design of surgical bipolar ...
Missing: Neurosurgery | Show results with:Neurosurgery
Jul 9, 2024 · A position-based dynamics (PBD) model with a bioheat transfer and damage prediction (BHTDP) method is developed for simulating the deformation of brain tissue ...
Jun 13, 2023 · Aim of the study was to evaluate the spatial-temporal thermal distribution in the tissue and the correlation with the electrosurgery-induced tissue damage.
Missing: Neurosurgery | Show results with:Neurosurgery
May 18, 2022 · ... simulators. In this context, we set out to design and develop a brain surgery bipolar electrocautery simulator using haptic technology. A 3D ...
Missing: Thermal | Show results with:Thermal
Endoscopic third ventriculostomy on a microneurosurgery simulator. ... Modeling the Thermal Effect of the Bipolar Electrocautery for Neurosurgery Simulation.
Sep 25, 2024 · Highlights •Proposes BHTDP method to simulate thermal damage by electrocoagulation.•Introduces a deformation method for tissue ...