Quantum-Gravitational Computing for Ischemia-Controlled Surgery in Nephrectomy and Cardiothoracic Procedures
Abstract
Chur Chin
Operations involving ischemia-prone organs such as the kidney and heart require stringent temporal control to minimize ischemic injury during nephrectomy or extracorporeal circulation. This paper proposes a surgical time-regulation system using quantum–gravitational computing integrated with AI, DNA–graphene–isotope bio interfaces, and real- time metabolic monitoring. The proposed system calculates optimal ischemia windows based on entropy modeling and gravitational curvature simulations. Precision perfusion management, ischemia countdown feedback, and tissue recovery forecasting are enabled by quantum–AI feedback loops. This interdisciplinary approach has potential to dramatically improve outcomes in complex time-sensitive surgeries.
