Surface acoustic wave probe implant for predicting epileptic seizures

1. A system for predicting or detecting a seizure in a patient, comprising:

• a surface acoustic wave probe configured to output a surface acoustic wave and configured to detect a change in temperature of the brain of the patient, the surface acoustic wave probe is implantable in the patient and includes;
  
  a substrate characterized by at least one propagation property of the surface acoustic wave, the at least one propagation property being variable as a function of the substrate temperature;
  
  a first transducer located on the substrate, the first transducer adapted to output the surface acoustic wave in response to an interrogation RF signal; and
  
  a second transducer responsive to the surface acoustic wave propagating the substrate and adapted to output an electric field in response thereto, the second transducer located on the substrate and separated from the first transducer by a distance;
  
  a first RF antenna coupled to the first transducer, the first RF antenna configured to receive the interrogation RF signal;
  
  a second RF antenna coupled to the second transducer, the second RF antenna configured to transmit an output RF signal in response to the electric field, the output RF signal altered in relation to the interrogation RF signal by the at least one propagation property such that the output RF signal is indicative of the temperature of the brain of the patient proximate the substrate; and
  
  an interrogation/control unit disposed external to the patient, the interrogation/control unit configured to activate the surface acoustic wave probe, and to receive the RF output signal to detect or predict a seizure in the patient based on a detected change in the temperature of the brain of the patient.