Patent application number | Description | Published |
20080215112 | METHODS AND APPARATUS FOR EFFECTUATING A LASTING CHANGE IN A NEURAL-FUNCTION OF A PATIENT - The following disclosure describes several methods and apparatus for intracranial electrical stimulation to treat or otherwise effectuate a change in neural-functions of a patient. Several embodiments of methods in accordance with the invention are directed toward enhancing or otherwise inducing a lasting change in neural activity to effectuate a particular neural-function. Such lasting change in neural activity is defined as “neuroplasticity.” The methods in accordance with the invention can be used to treat brain damage (e.g., stroke, trauma, etc.), brain disease (e.g., Alzheimer's, Pick's, Parkinson's, etc.), and/or brain disorders (e.g., epilepsy, depression, etc.). The methods in accordance with the invention can also be used to enhance neural-function of normal, healthy brains (e.g., learning, memory, etc.), or to control sensory functions (e.g., pain). Certain embodiments of methods in accordance with the invention electrically stimulate the brain at a stimulation site where neuroplasticity is occurring. The stimulation site may be different than the region in the brain where neural activity is typically present to perform the particular neural function according to the functional organization of the brain. In one embodiment in which neuroplasticity related to the neural-function occurs in the brain, the method can include identifying the location where such neuroplasticity is present. In an alternative embodiment in which neuroplasticity is not occurring in the brain, an alternative aspect is to induce neuroplasticity at a stimulation site where it is expected to occur. Several embodiments of these methods that are expected to produce a lasting effect on the intended neural activity at the stimulation site use electrical pulses that increase the resting membrane potential of neurons at the stimulation site to a subthreshold level. | 09-04-2008 |
20090076567 | Electrode Configurations for Reducing Invasiveness and/or Enhancing Neural Stimulation Efficacy, and Associated Methods - Electrode configurations for reducing invasiveness and/or enhancing neural stimulation efficacy, and associated methods, are disclosed. A method in accordance with one embodiment of the invention for treating a brain disorder includes identifying a target neural structure within a patient's skull and implanting an electrode device within the patient's skull so that an axis that is generally normal to the skull proximate to the electrode device and that passes through at least one electrical contact of the electrode device is offset from the target neural structure. The method further includes stimulating the target neural structure by applying an electrical signal to the at least one electrical contact. In particular embodiments, the electrode device can be positioned between, along, across, or adjacent to a fissure, recess, groove, and/or vascular structure of the patient's brain. | 03-19-2009 |
20090093862 | Systems and Methods for Automatically Optimizing Stimulus Parameters and Electrode configurations for neuro-stimulators - Methods and devices for automatically optimizing the stimulus parameters and/or the configuration of electrodes to provide neural stimulation to a patient. In one embodiment, a system includes an electrode array having an implantable support member configured to be implanted into a patient and a plurality of therapy electrodes carried by the support member. The system can also have a pulse system operatively coupled to the therapy electrodes to deliver a stimulus to the therapy electrodes, and a sensing device configured to be attached to a sensing location of the patient. The sensing device generates response signals in response to the stimulus. The system can also include a controller operatively, coupled to the pulse system and to the sensing device. The controller includes a computer operable medium that generates command signals that define the stimulus delivered by the pulse system, evaluates the response signals from the sensing device, and determines a desired configuration for the therapy electrodes and/or a desired stimulus to be delivered to the therapy electrodes. | 04-09-2009 |
20090118788 | METHODS AND APPARATUS FOR EFFECTUATING A LASTING CHANGE IN A NEURAL-FUNCTION OF A PATIENT - The present disclosure suggests methods of selecting a stimulation site for stimulating a patient's brain or methods of effectuating a neural-function of a patient associated with an impaired body function. In one exemplary implementation, such a neural function may be effectuated by selecting a stimulation site, positioning at least a first electrode at the stimulation site, and applying an electrical potential to pass a current through the first electrode. If one aspect, this stimulation site may be selected by a) identifying a second body function that is a corollary to the impaired body function, and b) determining a corollary location of the patient's brain that is associated with the second body function and is ipsilateral to the impaired body function. | 05-07-2009 |
20090149898 | Systems and Methods for Providing Targeted Neural Stimulation Therapy to Address Neurological Disorders, Including Neuropyschiatric and Neuropyschological Disorders - Systems and methods for providing targeted neural stimulation therapy to address neurological disorders, including neuropsychiatric and neuropsychological disorders are disclosed. A method for treating a patient's neurological disorder in accordance with a particular embodiment includes, in a patient identified as having at least one of a neuropsychological disorder and a neuropsychiatric disorder, implanting at least one stimulation electrode within the patient's skull cavity, and outside a cortical surface of the patient's brain. The electrode is implanted at a location in a range of about 15 mm to about 35 mm anterior to a precentral sulcus reference point that is positioned at the precentral sulcus and at the patient's middle frontal gyrus. The method can further include treating the patient's disorder by applying electrical stimulation to the patient via the at least one stimulation electrode. | 06-11-2009 |
20090171416 | METHODS AND APPARATUS FOR EFFECTUATING A LASTING CHANGE IN A NEURAL-FUNCTION OF A PATIENT - Methods and apparatus for treating an impaired neural function in a brain of a patient. In one embodiment, a method for treating a neural function in a brain of a patient includes determining a therapy period during which a plurality of therapy sessions are to be performed to recover functional ability corresponding to the neural function. The method continues by identifying a stimulation site in or on the brain of the patient associated with the neural function, and positioning an electrode at least proximate to the identified stimulation site. The patient is then treated by providing electrical stimulation treatments to the stimulation site. The treatment can comprise delivering electrical stimulation signals to the electrode during the therapy sessions. After expiration of the therapy period, the method includes preventing electrical stimulation signals from being delivered to the stimulation site. | 07-02-2009 |
20090182391 | APPARATUS AND METHODS FOR APPLYING NEURAL STIMULATION TO A PATIENT - Systems and methods for neural stimulation may include a stimulus unit; a first electrode assembly having a first set of contacts; and a second set of contacts. The stimulus unit can be an implantable pulse generator including a first terminal that can be biased at a first signal polarity and a second terminal that can be biased at a second signal polarity. The first electrode assembly includes a support member configured to be placed at the stimulation site, the first set of contacts carried by the support member, and a first lead configured to be attached to the first terminal of the implantable pulse generator for biasing the surface contacts at the first polarity. The second set of contacts is detached from the surface electrode assembly. The second set of contacts can be one or more conductive elements fixed to or forming portions of the implantable pulse generator, or a separate electrode array. | 07-16-2009 |
20090299435 | Systems and Methods for Enhancing or Affecting Neural Stimulation Efficiency and/or Efficacy - Systems and methods for enhancing or affecting neural stimulation efficiency and/or efficacy are disclosed. In one embodiment, a system and/or method may apply electromagnetic stimulation to a patient's nervous system over a first time domain according to a first set of stimulation parameters, and over a second time domain according to a second set of stimulation parameters. The first and second time domains may be sequential, simultaneous, or nested. Stimulation parameters may vary in accordance with one or more types of duty cycle, amplitude, pulse repetition frequency, pulse width, spatiotemporal, and/or polarity variations. Stimulation may be applied at subthreshold, threshold, and/or suprathreshold levels in one or more periodic, aperiodic (e.g., chaotic), and/or pseudo-random manners. In some embodiments stimulation may comprise a burst pattern having an interburst frequency corresponding to an intrinsic brainwave frequency, and regular and/or varying intraburst stimulation parameters. Stimulation signals providing reduced power consumption with at least adequate symptomatic relief may be applied prior to moderate or significant power source depletion. | 12-03-2009 |
20090319000 | METHODS AND APPARATUS FOR EFFECTUATING A CHANGE IN A NEURAL-FUNCTION OF A PATIENT - The present disclosure is directed generally to methods and apparatus for effectuating a change in a neural function of a patient. A method in accordance with a particular embodiment includes implanting an electrode at a cortical stimulation site selected to promote recovery of the affected neural-function, with the cortical stimulation site being at least proximate to the cortex. The method can further include estimating a threshold for the specific patient at which an electrical signal delivered via the implanted electrode directly triggers a neural reaction associated with the stimulation site in response to the delivered electrical signal, and electrically stimulating the cortical stimulation site by Passing an electrical current through the electrode. | 12-24-2009 |
20100004500 | SYSTEMS AND METHODS FOR VARYING ELECTROMAGNETIC AND ADJUNCTIVE NEURAL THERAPIES - Systems and methods for varying electromagnetic and adjunctive neural therapies are disclosed. A method in accordance with one embodiment includes applying electromagnetic signals to a target neural population of a patient over a first period of time in accordance with a first mode (e.g., including signal delivery to the central nervous system or peripheral nervous system, via implanted or non-implanted devices). The method can further include applying electromagnetic stimulation to the patient over a second period of time in accordance with a second mode different than the first mode. Varying the mode between the first period of time and second period of time can increase the efficacy and/or longevity of the stimulation. Systems in accordance with other embodiments can support multiple signal delivery devices. | 01-07-2010 |
20100131030 | METHODS AND APPARATUS FOR EFFECTUATING A CHANGE IN A NEURAL-FUNCTION OF A PATIENT - The present disclosure is directed generally to methods and apparatus for effectuating a change in a neural function of a patient. A method in accordance with a particular embodiment includes implanting an electrode at a cortical stimulation site selected to promote recovery of the affected neural-function, with the cortical stimulation site being at least proximate to the cortex. The method can further include estimating a threshold for the specific patient at which an electrical signal delivered via the implanted electrode directly triggers a neural reaction associated with the stimulation site in response to the delivered electrical signal, and electrically stimulating the cortical stimulation site by Passing an electrical current through the electrode. | 05-27-2010 |
20100131034 | SYSTEMS AND METHODS FOR AUTOMATICALLY OPTIMIZING STIMULUS PARAMETERS AND ELECTRODE CONFIGURATIONS FOR NEUROSTIMULATORS - Test procedures for determining a neural stimulation threshold of a patient. In one embodiment, the procedure includes applying a test stimulation signal to the patient and monitoring the patient for a response to the test stimulation signal. The procedure can further include determining a first neural stimulation threshold and calculating a second neural stimulation threshold. The first neural stimulation threshold corresponds to the lowest intensity test stimulation signal that evokes a patient response. The second neural stimulation threshold corresponds to a treatment stimulation signal directed toward affecting a neural activity within the patient. | 05-27-2010 |
20100145427 | METHODS AND APPARATUS FOR EFFECTUATING A LASTING CHANGE IN A NEURAL-FUNCTION OF A PATIENT - The following disclosure describes several methods and apparatus for intracranial electrical stimulation to treat or otherwise effectuate a change in neural-functions of a patient. Certain embodiments of methods in accordance with the invention electrically stimulate the brain at a stimulation site where neuroplasticity is occurring or is expected to occur. The stimulation site may be different than the region in the brain where neural activity is typically present to perform the particular neural function according to the functional organization of the brain. In one embodiment in which neuroplasticity related to the neural-function occurs in the brain, the method can include identifying the location where such neuroplasticity is present or expected to occur. In an alternative embodiment in which neuroplasticity is not occurring in the brain, an alternative aspect is to induce neuroplasticity at a stimulation site where it is expected to occur. Several embodiments of these methods that are expected to produce a lasting effect on the intended neural activity at the stimulation site use electrical pulses that increase the resting membrane potential of neurons at the stimulation site to a subthreshold level. | 06-10-2010 |
20100292754 | SYSTEMS AND METHODS FOR ENHANCING OR OPTIMIZING NEURAL STIMULATION THERAPY FOR TREATING SYMPTOMS OF PARKINSON'S DISEASE AND/OR OTHER MOVEMENT DISORDERS - Systems and methods for treating a neurological disorder comprising determining a first set of neural stimulation parameters capable of treating a first subset of symptoms, determining a second set of neural stimulation parameters capable of treating a second subset of symptoms, and applying a neural stimulation therapy based upon the first set of neural stimulation parameters and the second set of neural stimulation parameters to the patient. The first set of neural stimulation parameters can include electrical stimulation at a first frequency, and the second set of neural stimulation parameters can include electrical stimulation at a second frequency. In other embodiments, a treatment method comprises applying a first neural stimulation therapy to the patient in a continuous or generally continuous manner during a first time interval, and applying a second neural stimulation therapy to the patient in a noncontinuous or interrupted manner following the first time interval. | 11-18-2010 |
20110092882 | SYSTEMS AND METHODS FOR PATIENT INTERACTIVE NEURAL STIMULATION AND/OR CHEMICAL SUBSTANCE DELIVERY - Systems and methods for patient interactive neural stimulation and/or chemical substance delivery are disclosed. A method in accordance with one embodiment of the invention includes affecting a target neural population of the patient by providing to the patient at least one of an electromagnetic signal and a chemical substance. The method can further include detecting at least one characteristic of the patient, with the characteristic at least correlated with the patient's performance of an adjunctive therapy task that is performed in association with affecting the target neural population. The method can still further include controlling at least one parameter in accordance with which the target neural population is affected, based at least in part on the detected characteristic. | 04-21-2011 |
20110208264 | SYSTEMS AND METHODS FOR AUTOMATICALLY OPTIMIZING STIMULUS PARAMETERS AND ELECTRODE CONFIGURATIONS FOR NEURO-STIMULATORS - Methods and devices for automatically optimizing the stimulus parameters and/or the configuration of electrodes to provide neural stimulation to a patient. In one embodiment, a system includes an electrode array having an implantable support member configured to be implanted into the patient and a plurality of therapy electrodes carried by the support member. The system can also have a pulse system operatively coupled to the therapy electrodes to deliver a stimulus to the therapy electrodes, and a sensing device configured to be attached to a sensing location of the patient. The sensing device generates response signals in response to the stimulus. The system can also include a controller operatively coupled to the pulse system and to the sensing device. The controller includes a computer operable medium that generates command signals that define the stimulus delivered by the pulse system, evaluates the response signals from the sensing device, and determines a desired configuration for the therapy electrodes and/or a desired stimulus to be delivered to the therapy electrodes. | 08-25-2011 |
20120022611 | METHODS AND APPARATUS FOR EFFECTUATING A LASTING CHANGE IN A NEURAL-FUNCTION OF A PATIENT - The following disclosure describes several methods and apparatus for intracranial electrical stimulation to treat or otherwise effectuate a change in neural-functions of a patient. The methods in accordance with the invention can be used to treat brain damage (e.g., stroke, trauma, etc.), brain disease (e.g., Alzheimer's, Pick's, Parkinson's, etc.), and/or brain disorders (e.g., epilepsy, depression, etc.). The methods in accordance with the invention can also be used to enhance neural-function of normal, healthy brains (e.g., learning, memory, etc.), or to control sensory functions (e.g., pain). | 01-26-2012 |
20120041498 | SYSTEMS AND METHODS FOR ENHANCING OR AFFECTING NEURAL STIMULATION EFFICIENCY AND/OR EFFICACY - Systems and methods for enhancing or affecting neural stimulation efficiency and/or efficacy are disclosed. In one embodiment, a system and/or method may apply electromagnetic stimulation to a patient's nervous system over a first time domain according to a first set of stimulation parameters, and over a second time domain according to a second set of stimulation parameters. The first and second time domains may be sequential, simultaneous, or nested. Stimulation parameters may vary in accordance with one or more types of duty cycle, amplitude, pulse repetition frequency, pulse width, spatiotemporal, and/or polarity variations. Stimulation may be applied at subthreshold, threshold, and/or suprathreshold levels in one or more periodic, aperiodic (e.g., chaotic), and/or pseudo-random manners. In some embodiments stimulation may comprise a burst pattern having an interburst frequency corresponding to an intrinsic brainwave frequency, and regular and/or varying intraburst stimulation parameters. Stimulation signals providing reduced power consumption with at least adequate symptomatic relief may be applied prior to moderate or significant power source depletion. | 02-16-2012 |
20120065700 | SYSTEMS AND METHODS FOR ENHANCING OR OPTIMIZING NEURAL STIMULATION THERAPY FOR TREATING SYMPTOMS OF PARKINSONS DISEASE AND OR OTHER MOVEMENT DISORDERS - Systems and methods for treating a neurological disorder comprising determining a first set of neural stimulation parameters capable of treating a first subset of symptoms, determining a second set of neural stimulation parameters capable of treating a second subset of symptoms, and applying a neural stimulation therapy based upon the first set of neural stimulation parameters and the second set of neural stimulation parameters to the patient. The first set of neural stimulation parameters can include electrical stimulation at a first frequency, and the second set of neural stimulation parameters can include electrical stimulation at a second frequency. In other embodiments, a treatment method comprises applying a first neural stimulation therapy to the patient in a continuous or generally continuous manner during a first time interval, and applying a second neural stimulation therapy to the patient in a noncontinuous or interrupted manner following the first time interval. | 03-15-2012 |
20120150262 | SYSTEMS AND METHODS FOR REDUCING THE LIKELIHOOD OF INDUCING COLLATERAL NEURAL ACTIVITY DURING NEURAL STIMULATION THRESHOLD TEST PROCEDURES - Test procedures for determining a neural stimulation threshold of a patient. In one embodiment, the procedure includes applying a test stimulation signal to the patient and monitoring the patient for a response to the test stimulation signal. The procedure can further include determining a first neural stimulation threshold and calculating a second neural stimulation threshold. The first neural stimulation threshold corresponds to the lowest intensity test stimulation signal that evokes a patient response. The second neural stimulation threshold corresponds to a treatment stimulation signal directed toward affecting a neural activity within the patient. | 06-14-2012 |
20120165899 | NEURAL STIMULATION SYSTEM AND METHOD RESPONSIVE TO COLLATERAL NEURAL ACTIVITY - A neural stimulation system responsive to collateral neural activity that may arise in association with a neural stimulation procedure includes a stimulation interface configured to deliver stimulation signals to a target neural population, a monitoring interface positioned to receive signals corresponding to a neural activity within the target neural population, a stimulus unit coupled to deliver stimulation singals to the stimulation interface, and a sensing unit coupled to the monitoring device and the stimulus unit. The neural stimulation procedure may be directed toward rehabilitating, restoring, and/or enhancing one or more neural functions by facilitating and/or effectuating a neuroplastic change or reorganization; and/or affecting a neurological condition that exists on a continuous or essentially continuous basis absent the stimulation procedure. The sensing unit determines whether evidence of an collateral neural activity exists, whereupon the stimulus unit attempts to abate the collateral neural activity. | 06-28-2012 |
20120253421 | SYSTEMS AND METHODS FOR AUTOMATICALLY OPTIMIZING STIMULUS PARAMETERS AND ELECTRODE CONFIGURATIONS FOR NEURO-STIMULATORS - System and method for automatically optimizing the stimulus parameters and/or the configuration of electrodes to provide neural stimulation to a patient, the system includes an electrode array having a support member configured to be implanted into the patient and a plurality of therapy electrodes carried by the support member. The system can also have a pulse system operatively coupled to the therapy electrodes to deliver a stimulus to the therapy electrodes, and a sensing device configured to be attached to a sensing location of the patient. The sensing device generates response signals in response to the stimulus. The system can also include a controller that generates command signals that define the stimulus delivered by the pulse system, evaluates the response signals from the sensing device, and determines a desired configuration for the therapy electrodes and/or a desired stimulus to be delivered to the therapy electrodes. | 10-04-2012 |
20120253442 | METHODS AND APPARATUS FOR EFFECTUATING A LASTING CHANGE IN A NEURAL-FUNCTION OF A PATIENT - A device and method for intracranial electrical stimulation to effectuate a change in neural-functions of a patient, by electrical stimulating the brain at a site where neuroplasticity is occurring or is expected to occur, where the stimulation site may be different than the region in the brain where neural activity is typically present to perform the particular neural function according to the functional organization of the brain. In one embodiment in which neuroplasticity is related to the neural-function occurs in the brain, identifying the location where such neuroplasticity is present or expected to occur. Where neuroplasticity is not occurring in the brain, an alternative aspect is to induce neuroplasticity at a stimulation site where it is expected to occur. The methods can use electrical pulses that increase the resting membrane potential of neurons at the stimulation site to a subthreshold level. | 10-04-2012 |
20120316630 | METHODS AND APPARATUS FOR EFFECTUATING A LASTING CHANGE IN A NEURAL-FUNCTION OF A PATIENT - The following disclosure describes several methods and apparatus for intracranial electrical stimulation to treat or otherwise effectuate a change in neural-functions of a patient. The methods in accordance with the invention can be used to treat brain damage (e.g., stroke, trauma, etc.), brain disease (e.g., Alzheimer's, Pick's, Parkinson's, etc.), and/or brain disorders (e.g., epilepsy, depression, etc.). The methods in accordance with the invention can also be used to enhance neural-function of normal, healthy brains (e.g., learning, memory, etc.), or to control sensory functions (e.g., pain). | 12-13-2012 |
20130066411 | SELECTIVE HIGH FREQUENCY SPINAL CORD MODULATION FOR INHIBITING PAIN, INCLUDING CEPHALIC AND/OR TOTAL BODY PAIN WITH REDUCED SIDE EFFECTS, AND ASSOCIATED SYSTEMS AND METHODS - Selective high-frequency spinal chord modulation for inhibiting pain with reduced side affects and associated systems and methods are disclosed. In particular embodiments, high-frequency modulation in the range of from about 1.5 KHz to about 50 KHz may be applied to the patient's spinal cord region from an epidural, cervical location to address at least one of high back pain, mid-back pain, low back pain, and leg pain without creating paresthesia in the patient. | 03-14-2013 |
20130204323 | SELECTIVE HIGH FREQUENCY SPINAL CORD MODULATION FOR INHIBITING PAIN, INCLUDING CEPHALIC AND/OR TOTAL BODY PAIN WITH REDUCED SIDE EFFECTS, AND ASSOCIATED SYSTEMS AND METHODS - Selective high-frequency spinal chord modulation for inhibiting pain with reduced side affects and associated systems and methods are disclosed. In particular embodiments, high-frequency modulation in the range of from about 1.5 KHz to about 50 KHz may be applied to the patient's spinal cord region from an epidural, cervical location to address at least one of high back pain, mid-back pain, low back pain, and leg pain without creating paresthesia in the patient. | 08-08-2013 |
20130204324 | SELECTIVE HIGH FREQUENCY SPINAL CORD MODULATION FOR INHIBITING PAIN, INCLUDING CEPHALIC AND/OR TOTAL BODY PAIN WITH REDUCED SIDE EFFECTS, AND ASSOCIATED SYSTEMS AND METHODS - Selective high-frequency spinal chord modulation for inhibiting pain with reduced side affects and associated systems and methods are disclosed. In particular embodiments, high-frequency modulation in the range of from about 1.5 KHz to about 50 KHz may be applied to the patient's spinal cord region from an epidural, cervical location to address at least one of high back pain, mid-back pain, low back pain, and leg pain without creating paresthesia in the patient. | 08-08-2013 |
20130261695 | SELECTIVE HIGH FREQUENCY SPINAL CORD MODULATION FOR INHIBITING PAIN, INCLUDING CEPHALIC AND/OR TOTAL BODY PAIN WITH REDUCED SIDE EFFECTS, AND ASSOCIATED SYSTEMS AND METHODS - Selective high-frequency spinal chord modulation for inhibiting pain with reduced side affects and associated systems and methods are disclosed. In particular embodiments, high-frequency modulation in the range of from about 1.5 KHz to about 50 KHz may be applied to the patient's spinal cord region from an epidural, cervical location to address at least one of high back pain, mid-back pain, low back pain, and leg pain without creating paresthesia in the patient. | 10-03-2013 |
20130261696 | SELECTIVE HIGH FREQUENCY SPINAL CORD MODULATION FOR INHIBITING PAIN, INCLUDING CEPHALIC AND/OR TOTAL BODY PAIN WITH REDUCED SIDE EFFECTS, AND ASSOCIATED SYSTEMS AND METHODS - Selective high-frequency spinal chord modulation for inhibiting pain with reduced side affects and associated systems and methods are disclosed. In particular embodiments, high-frequency modulation in the range of from about 1.5 KHz to about 50 KHz may be applied to the patient's spinal cord region from an epidural, cervical location to address at least one of high back pain, mid-back pain, low back pain, and leg pain without creating paresthesia in the patient. | 10-03-2013 |
20140222113 | SYSTEMS AND METHODS FOR ENHANCING OR AFFECTING NEURAL STIMULATION EFFICIENCY AND/OR EFFICACY - Systems and methods for enhancing or affecting neural stimulation efficiency and/or efficacy are disclosed. In one embodiment, a system and/or method may apply electromagnetic stimulation to a patient's nervous system over a first time domain according to a first set of stimulation parameters, and over a second time domain according to a second set of stimulation parameters. The first and second time domains may be sequential, simultaneous, or nested. Stimulation parameters may vary in accordance with one or more types of duty cycle, amplitude, pulse repetition frequency, pulse width, spatiotemporal, and/or polarity variations. Stimulation may be applied at subthreshold, threshold, and/or suprathreshold levels in one or more periodic, aperiodic (e.g., chaotic), and/or pseudo-random manners. In some embodiments stimulation may comprise a burst pattern having an interburst frequency corresponding to an intrinsic brainwave frequency, and regular and/or varying intraburst stimulation parameters. Stimulation signals providing reduced power consumption with at least adequate symptomatic relief may be applied prior to moderate or significant power source depletion. | 08-07-2014 |