System and apparatus for increasing regularity and/or phase-locking of neuronal activity relating to an epileptic event

What is claimed: 1. A non-transitive, computer-readable storage device for storing instructions that, when executed by a processor, perform a method, comprising: detecting, in at least a first brain region of a patient, an electrical activity relating to an epileptic activity, determining a first regularity index of said electrical activity; applying at least one first electrical stimulation to at least one neural target of said patient for treating said epileptic event, in response to said first regularity index being within a first range; detecting, in at least a second brain region of a patient, a second electrical activity relating to an epileptic activity; determining a second regularity index of said second electrical activity; determining a phase-locking index between said first brain region and a second brain region of the patient if said first regularity index and said second regularity index are both within said first range; applying at least one second electrical stimulation to at least one neural target of said patient for treating said epileptic activity, in response to said phase-locking index being within a second range; determining whether said second electrical stimulation was not efficacious or caused an adverse reaction; and determining at least a third regularity index of at least one of said first electrical activity or said second electrical activity in response to determining said second electrical stimulation was not efficacious or caused an adverse reaction. 2. A non-transitive, computer-readable storage device for storing instructions that, when executed by a processor, perform a method, comprising: detecting, in at least a first brain region of a patient, an electrical activity relating to an epileptic activity, determining a first regularity index of said electrical activity; and applying at least one first electrical stimulation to at least one neural target of said patient for treating said epileptic event, in response to said first regularity index being within a first range, wherein said at least one first electrical stimulation has a duration less than about one-third of the dominant wavelength of said first electrical activity. 3. The non-transitive, computer-readable storage device of claim 1 , wherein said first regularity index comprises information relating to the oscillation morphology, amplitude, and frequency of said first electrical activity. 4. The non-transitive, computer-readable storage device of claim 1 , wherein said determining comprises determining said first regularity index for a window comprising from two to twenty wavelengths of a predominant oscillation of said first electrical activity. 5. The non-transitive, computer-readable storage device of claim 1 , wherein the method further comprises selecting at least one frequency component from said first electrical activity; and wherein said first regularity index is determined at least in part on said frequency component. 6. The non-transitive, computer-readable storage device of claim 5 , wherein said frequency component has a frequency within a range selected from 1-6 Hz, 8-45 Hz, 1-200 Hz, DC to 100 Hz, 100-1000 Hz, or DC to 1000 Hz. 7. The non-transitive, computer-readable storage device of claim 1 , wherein the method further comprises repeating said detecting and determining at a rate of at least 4 times per second. 8. The non-transitive, computer-readable storage device of claim 1 , wherein the method further comprises: applying at least a third electrical stimulation to at least one neural target to modify said first regularity index if said first regularity index is outside said first range. 9. A non-transitive, computer-readable storage device for storing instructions that, when executed by a processor, perform a method, comprising: detecting, in at least a first brain region of a patient, an electrical activity relating to an epileptic activity, determining a first regularity index of said electrical activity; applying at least one first electrical stimulation to at least one neural target of said patient for treating said epileptic event, in response to said first regularity index being within a first range; applying at least a third electrical stimulation to at least one neural target to modify said first regularity index if said first regularity index is outside said first range; redetermining said first regularity index after said applying said at least one third electrical stimulation; and reapplying said at least one third electrical stimulation if said redetermined first regularity index is outside said first range. 10. The non-transitive, computer-readable storage device of claim 8 , wherein said first regularity index is determined by an autocorrelation function of said electrical activity, and said first range is 0.6-1. 11. The non-transitive, computer-readable storage device of claim 1 , wherein determining said first regularity index is based on at least one of a measure of autocorrelation, a measure of amplitude variance, a measure of frequency variance, a measure of zero-crossings interval variance, a measure of ascending and descending slope variances, a number of extrema, a polarity of extrema, a polynomial fitting to measure the error of polynomial approximation, a box counting method, a Lipschitz exponent of one of the foregoing, or a Holder exponent of one of the foregoing. 12. The non-transitive, computer-readable storage device of claim 5 , wherein said first regularity index is determined based on a power spectral density of said first electrical activity or a power level of said frequency component. 13. The method of claim 5 , wherein said first regularity index is determined based on said frequency component, independent of a power level of said frequency component. 14. A non-transitive, computer-readable storage device for storing instructions that, when executed by a processor, perform a method, comprising: detecting, in at least a first brain region of a patient, an electrical activity relating to an epileptic activity, determining a first regularity index of said electrical activity; applying at least one first electrical stimulation to at least one neural target of said patient for treating said epileptic event, in response to said first regularity index being within a first range; assessing a response of said epileptic event to said at least one first electrical stimulation; modifying at least one parameter of said at least one first electrical stimulation, if said response comprises a lack of a beneficial effect, an adverse effect, or both; and delivering said modified first electrical stimulation to at least one neural target of said patient. 15. The non-transitive, computer-readable storage device of claim 1 , wherein the method further comprises: determining a fourth regularity index of electrical activity relating to said epileptic activity in at least a sub-region of said first brain region; applying at least a fourth electrical stimulation to at least one neural target to modify said fourth regularity index, if said fourth regularity index is outside a second range.