Implantable systems and methods for identifying a contra-ictal condition in a subject

What is claimed is: 1. A physiological monitoring system comprising: an electrode configured to detect a physiological signal from a subject; a processing assembly for sampling the physiological signal, the processing assembly being configured to process the physiological signal to determine whether the subject is in a contra-ictal state and generate an output indicating the determination, said contra-ictal state being a neurological state in which the subject is unlikely to transition into an ictal state within a time period; and a therapy device that receives the output and selectively applies therapy in response to the output. 2. The physiological monitoring system of claim 1 , further comprising: a user interface configured to provide an output to the subject regarding the contra-ictal state of the subject. 3. The physiological monitoring system of claim 1 , the processing assembly being further configured to process the physiological signal to determine whether the subject transitions into or from the contra-ictal state. 4. The physiological monitoring system of claim 1 , the processing assembly being further configured to process the physiological signal to determine whether the subject transitions from the contra-ictal state to an inter-ictal state different than the contra-ictal state. 5. The physiological monitoring system of claim 1 , the processing assembly being further configured to process the physiological signal to determine whether the subject transitions from the contra-ictal state to the ictal state. 6. The physiological monitoring system of claim 1 , wherein the processing assembly is adapted to determine if the subject is in a contra-ictal condition by: extracting N features from the sampled physiological signal; generating an N-dimensional feature vector of the extracted N features for time points of the sampled physiological signal; and determining if the N-dimensional feature vector is within a contra-ictal cluster or region in an N-dimensional space. 7. The physiological monitoring system of claim 1 , wherein the physiological signal is at least one of an EEG signal, a heart rate signal, and a respiratory signal. 8. The physiological monitoring system of claim 1 , wherein the physiological signal corresponds to at least one of a blood pressure, a blood oxygenation, a temperature, a blood flow, an ECG, an EKG, a chemical concentration of a neurotransmitter, a chemical concentration of a medication, and a pH in the blood. 9. The physiological monitoring system of claim 1 , wherein the electrode is configured to detect the physiological signal through the skin of the subject. 10. The physiological monitoring system of claim 1 , wherein the therapy device comprises an implanted stimulator. 11. A method of monitoring physiological signals from a subject, said method comprising: detecting a physiological signal from the subject with an electrode; analyzing the physiological signal from the subject using a processor to determine whether the subject is in a contra-ictal state and generate an output indicating the determination, said contra-ictal state being a neurological state in which the subject is unlikely to transition into an ictal state within a time period; and selectively applying therapy in response to the output using a therapy device. 12. The method of claim 11 , further comprising: reporting an output to the subject regarding the contra-ictal state of the subject. 13. The method of claim 11 , further comprising: analyzing the physiological signal to determine whether the subject transitions into or from the contra-ictal state. 14. The method of claim 11 , further comprising: analyzing the physiological signal to determine whether the subject transitions from the contra-ictal state to an inter-ictal state different than the contra-ictal state. 15. The method of claim 11 , further comprising: analyzing the physiological signal to determine whether the subject transitions from the contra-ictal state to the ictal state. 16. The method of claim 11 , wherein the analyzing the physiological signal comprises: extracting N features from the sampled physiological signal; generating an N-dimensional feature vector of the extracted N features for time points of the sampled physiological signal; and determining if the N-dimensional feature vector is within a contra-ictal cluster or region in an N-dimensional space. 17. The method of claim 11 , wherein the physiological signal is at least one of an EEG signal, a heart rate signal, and a respiratory signal. 18. The method of claim 11 , wherein the physiological signal corresponds to at least one of a blood pressure, a blood oxygenation, a temperature, a blood flow, an ECG, an EKG, a chemical concentration of a neurotransmitter, a chemical concentration of a medication, and a pH in the blood. 19. The method of claim 11 , wherein the electrode is configured to detect the physiological signal through the skin of the subject. 20. The method of claim 11 , wherein selectively applying therapy in response to the output using a therapy device comprises applying the therapy using an implanted stimulator. 21. A physiological monitoring system comprising: an electrode configured to detect a physiological signal from a subject; a processing assembly for sampling the physiological signal, the processing assembly being configured to process the physiological signal to determine whether the subject is in a contra-ictal state and generate an output indicating the determination, said contra-ictal state being a neurological state in which the subject is unlikely to transition into an ictal state within a time period; a therapy device that receives the output and selectively applies therapy in response to the output; and a user interface in communication with the processing assembly, the user interface generating an output based on the physiological signal, the output indicating whether the subject is in a contra-ictal state. 22. The physiological monitoring system of claim 21 , the output further indicating at least one of whether the subject transitions into the contra-ictal state, the subject transitions from the contra-ictal state, the subject transitions from the contra-ictal state to an inter-ictal state different than the contra-ictal state, and the subject transitions from the contra-ictal state to the ictal state. 23. The physiological monitoring system of claim 21 , wherein the therapy device comprises an implanted stimulator.