Abstract: A system includes a communication interface for receiving information that includes data collected from an array of neural activity sensors that were placed on a patient during a session of applied stimuli. A processor is configured to analyze the received information to obtain a frequency spectrum for each sensor for a given stimulus of the applied stimuli. Neural network frequencies that correspond to an indicated impaired functionality of the nervous system of the patient are selected. For each selected frequencies, a spatial map of neural activity is generated. Each of the generated spatial maps is compared with retrieved corresponding spatial maps to identify treatment frequencies from among the selected neural network frequencies. A treatment protocol is generated for input into an electromagnetic field generator to cause the generator to apply to the patient an electromagnetic field at each identified treatment frequency.

Abstract: Body wearable treatment apparatus for treatment of neurological disorders and conditions of the central nervous system by application of electromagnetic fields thereto, the apparatus including a coil mounting portion and a body mounting portion, the coil mounting portion being removably mounted on the body mounting portion and a system including at least one database storing information relating to treatment protocols, a server communicating with the at least one database and body wearable treatment apparatus communicating with the server, the body wearable treatment apparatus including a coil mounting portion and a body mounting portion, the coil mounting portion being removably mounted on the body mounting portion.

Abstract: A system includes a communication interface for receiving information that includes data collected from an array of neural activity sensors that were placed on a patient during a session of applied stimuli. A processor is configured to analyze the received information to obtain a frequency spectrum for each sensor for a given stimulus of the applied stimuli. Neural network frequencies that correspond to an indicated impaired functionality of the nervous system of the patient are selected. For each selected frequencies, a spatial map of neural activity is generated. Each of the generated spatial maps is compared with retrieved corresponding spatial maps to identify treatment frequencies from among the selected neural network frequencies. A treatment protocol is generated for input into an electromagnetic field generator to cause the generator to apply to the patient an electromagnetic field at each identified treatment frequency.

Abstract: The present invention discloses a method for regenerating nerve fibers of a subject comprising the steps of: (a) selecting at least a target portion of the nervous system of a subject with a lesion in the nervous system; (b) detecting electromagnetic wave profile of said at least a target portion of said nervous system of said subject; (c) comparing wave profiles of said subject with wave profiles of normal patients; and (d) defining a treatment protocol. According to a certain aspect, the step of defining said treatment protocol includes selecting compensating electromagnetic waves adapted for correcting anomalous wave profiles associated with said nervous system lesions and transmitting to said subject said protocol of compensating electromagnetic waves to provide a resonance effect; thereby inducing regeneration of nerve fibers at said nervous system lesions and regions proximate to said lesions. The present invention further discloses apparatus and a computer implemented method thereof.