Paper Title
Supra-Spinal Neuro-Impulsive Flux Detection Device For Tracing Organ Dysfunction & Therapeutic Efficiency Status

Abstract
The innovation needed for this medical device invention is meant to trace the action potential (AP) variance over the entire spinal vertebral cord. The impulsive fluctuation generated over every vertebral segment due to different organ dysfunction and after therapeutic action. The device which is electronically embedded with logistic sensor electrodes glide over a carbon composite strip conveyer from the region of C1 (first Cervical) to coccyx (terminal) & vise-versa, calibrates the remarked action potential (-emV/emf) after any expected organ dysfunction and/ or after drug administration under therapy. The mechanism praised for that is the neural electrical flux seizing techniques amplifying the AP through the sliding detector device. Thus, this signifies the detection of neural (ANS) involvement level and its status after abnormalities in organs and after drug therapy. Auto validation of the device accessed on the basis of normal reading with fluctuation reading data. This device will be highly appreciable to find the present organ system states and remedial therapy efficiency on every step of therapeutic doses. Keywords - Neuro-impulsive Flux Detector, Spinal AP Gliding Reader, Tracing Organ Dysfunction, Detecting Therapeutic Efficiency.