MUMBAI, India, Feb. 6 -- Intellectual Property India has published a patent application (202641007052 A) filed by Nikhil Kunche, Hyderabad, Telangana, on Jan. 23, for 'multi-organ intervention state space (moiss) with gravitational potential dynamics, therapeutic wavefront collision geometry, and bridge therapy recommendation for critical care decision support.'
Inventor(s) include Nikhil Kunche.
The application for the patent was published on Feb. 6, under issue no. 06/2026.
According to the abstract released by the Intellectual Property India: "The invention discloses a Multi-Organ Intervention State Space (MOISS) comprising an intervention timing classification apparatus configured to classify intervention timing using gravitational mechanics analogies with mathematically consistent potential field dynamics. The MOISS receives organ trajectory estimates from an upstream state estimation module, which may be implemented as a separate device or system, and processes these estimates through a gravitational potential field mapping engine. Each organ system is modeled as a body in an asymmetric potential field where healthy state corresponds to a stable equilibrium at field minimum and deterioration corresponds to climbing an asymmetric potential gradient toward a critical threshold representing the recoverable basin boundary, beyond which lies a distinct irreversible damage threshold. The apparatus computes escape velocity as the deterioration rate at which the organ will reach the critical threshold and time to escape for organs on deteriorating trajectories. Interventions are modeled as therapeutic wavefronts originating from a healthy state locus and propagating toward the current organ position with pharmacokinetic velocities. The collision geometry computer determines wavefront organ intersection timing, enabling the system to determine whether a candidate intervention can intercept the deteriorating trajectory before irreversible damage occurs. A timing classification engine categorizes each intervention as on time (collision before escape with trajectory reversal), suboptimal (collision before escape with insufficient impulse), late (collision after critical crossing but before irreversible damage), rescue (high impulse collision capable of recovering from near irreversible state), or futile (collision impossible or after irreversible threshold). The apparatus supports bridge therapy recommendation for late interventions, where bridge efficacy is defined computably as post bridge velocity satisfying escape velocity constraints for the required bridge duration. The MOISS operates on a bedside embedded unit without cloud connectivity, performs classification at one hertz or faster using streaming trajectory data, and renders a gravitational vortex visualization enabling clinician comprehension of intervention feasibility within three seconds."
Disclaimer: Curated by HT Syndication.
