Robot-Assisted Radiofrequency Ablation Combined with Thermodynamic Simulation for Epilepsy Reoperations.
Yu-Chi WangMei-Yun ChengPo-Cheng HungCheng-Yen KuoHsiang-Yao HsiehKuang-Lin LinPo-Hsun TuChieh-Tsai WuPeng-Wei HsuKuo-Chen WeiChi-Cheng ChuangPublished in: Journal of clinical medicine (2022)
Repeat craniotomies to treat recurrent seizures may be difficult, and minimally invasive radiofrequency ablation is an alternative therapy. On the basis of this procedure, we aimed to develop a more reliable methodology which is helpful for institutions where real-time image monitoring or electrophysiologic guidance during ablation are not available. We used simulation combined with a robot-assisted radiofrequency ablation (S-RARFA) protocol to plan and execute brain epileptic tissue lesioning. Trajectories of electrodes were planned on the robot system, and time-dependent thermodynamics was simulated with radiofrequency parameters. Thermal gradient and margin were displayed on a computer to calculate ablation volume with a mathematic equation. Actual volume was measured on images after the ablation. This small series included one pediatric and two adult patients. The remnant hippocampus, corpus callosum, and irritative zone around arteriovenous malformation nidus were all treated with S-RARFA. The mean error percentage of the volume ablated between preoperative simulation and postoperative measurement was 2.4 ± 0.7%. No complications or newly developed neurologic deficits presented postoperatively, and the patients had little postoperative pain and short hospital stays. In this pilot study, we preliminarily verified the feasibility and safety of this novel protocol. As an alternative to traditional surgeries or real-time monitoring, S-RARFA served as successful seizure reoperation with high accuracy, minimal collateral damage, and good seizure control.
Keyphrases
- radiofrequency ablation
- robot assisted
- minimally invasive
- deep learning
- postoperative pain
- randomized controlled trial
- newly diagnosed
- temporal lobe epilepsy
- end stage renal disease
- patients undergoing
- virtual reality
- ejection fraction
- traumatic brain injury
- prognostic factors
- cerebral ischemia
- stem cells
- convolutional neural network
- emergency department
- risk factors
- peritoneal dialysis
- mesenchymal stem cells
- white matter
- bone marrow
- adverse drug
- cell therapy