Patent application number | Description | Published |
20100023090 | SYSTEM AND METHOD FOR AVOIDING, REVERSING, AND MANAGING NEUROLOGICAL ACCOMODATION TO ELETRICAL STIMULATION - A method and programmer for programming a neurostimulation device are provided. The method comprises varying a first stimulation parameter under user control, automatically varying a second stimulation parameter, generating a plurality of stimulation parameter sets from the varied first and second stimulation parameters, outputting a pulsed electrical waveform from the neurostimulation device between a plurality of electrodes in accordance with the stimulation parameter sets, such that neural tissue is stimulated without undergoing neurological accommodation that would otherwise occur if the second stimulation parameter were not varied, and programming the neurostimulation device with a new set of stimulation parameters based on a result of the neural tissue stimulation The programmer comprises a user interface capable of receiving an input from a user, a processor configured for performing the previous steps, and output circuitry configured for transmitting the stimulation parameter sets and the new stimulation parameter set to the neurostimulation device. | 01-28-2010 |
20100331922 | SYSTEM AND METHOD FOR COMPENSATING FOR SHIFTING OF NEUROSTIMULATION LEADS IN A PATIENT - A method for determining a change in position of a neurostimulation lead relative to a stimulation target tissue of a patient is provided. The method comprises implanting a first proximity sensor on a surface of the patient, implanting a second proximity sensor on the surface of the patient, measuring a change in a distance between the first and second proximity sensors, and inferring the change in position of the lead relative to the stimulation target tissue from the measured change in distance. The method further comprises inferring an increase in a distance between the lead and the stimulation target tissue when the distance between the first and second proximity sensors increases. The method also comprises conveying electrical stimulation energy to therapeutically stimulate the stimulation target tissue, and modulating a stimulation parameter in response to the measured change in distance. | 12-30-2010 |
20110009919 | METHOD TO ENHANCE AFFERENT AND EFFERENT TRANSMISSION USING NOISE RESONANCE - Methods of providing therapy to a patient are provided. In one method, the patient has a neuron to which a sub-threshold biological electrical stimulus is applied. The method comprises applying electrical noise energy to the neuron, wherein resonance between the biological electrical stimulus and the electrical noise energy is created, such that an action potential is propagated along the axon of the neuron. In another method, the patient has a neuron to which a supra-threshold biological electrical stimulus is applied. This method comprises applying supra-threshold electrical noise energy to the neuron, thereby preventing an action potential from being propagated along the axon of the neuron. Still another method comprises applying an electrical stimulus to a neuron, and applying supra-threshold electrical noise energy to the neuron, thereby preventing or reversing any neurological accommodation of the neuron that may occur in response to the electrical stimulus. | 01-13-2011 |
20110019858 | METHOD AND APPARATUS TO ENHANCE COMMUNICATION IN THE OPERATING ROOM - A communication system is provided for a patient featuring a cushion with an opening for receiving the face of the patient. The cushion includes a microphone for receiving audible signals from the patient and one or more speakers for delivering audible signals to the patient. The microphone and speaker(s) are integrated with the cushion to avoid interfering with the comfort of the patient. In one embodiment, the audible signals are delivered to and from the patient via a communication port. In another embodiment, the system includes a display device, so the patient may view parts of the patient's body on the device and then communicate with system operators through the microphone and speaker(s). | 01-27-2011 |
20110054518 | BURR HOLE SEALING DEVICE FOR PREVENTING BRAIN SHIFT - A burr hole sealing device for preventing brain shift during a stimulation lead implantation procedure is provided. The device includes a suction cup ring and a self-sealing membrane positioned within the aperture of the ring. The sealing device is attached adjacent to a burr hole and over a dura layer that is exposed in the bottom of the burr hole. The stimulation lead is disposed through the burr hole, through the membrane, through the dura layer and into brain tissue. The membrane is configured to allow the lead to pass therethrough while maintaining a tight seal around the diameter of the lead, thereby hindering leakage of cerebrospinal fluid out of the cranial cavity and maintaining a substantially fixed intracranial pressure. In one embodiment, the sealing device includes a syringe for adding fluid to, or removing fluid from, the cranial cavity in response to a detected change in intracranial pressure. | 03-03-2011 |
20120179222 | SYSTEM AND METHOD FOR AVOIDING, REVERSING, AND MANAGING NEUROLOGICAL ACCOMMODATION TO ELECTRICAL STIMULATION - A method of operating a neurostimulation device comprises varying a first stimulation parameter under user control while fixing a second stimulation parameter, generating a plurality of stimulation parameter sets from the varied first stimulation parameter and the fixed second stimulation parameter, outputting a pulsed electrical waveform from the neurostimulation device between electrodes in accordance with the stimulation parameter sets, such that a therapeutic effect is achieved while allowing neural tissue to undergo neurological accommodation, changing the second stimulation parameter, varying the first stimulation parameter under user control while fixing the second changed stimulation parameter, generating another plurality of stimulation parameter sets from the varied first stimulation parameter and the fixed changed second stimulation parameter, and outputting the pulsed electrical waveform from the neurostimulation device between the electrodes in accordance with the other stimulation parameter sets to maintain the therapeutic effect while the neural tissue is neurologically accommodated. | 07-12-2012 |
20130053923 | SYSTEM AND METHOD FOR AVOIDING, REVERSING, AND MANAGING NEUROLOGICAL ACCOMMODATION TO ELECTRICAL STIMULATION - A method of operating a neurostimulation device comprises outputting a pulsed electrical waveform from the neurostimulation device between a plurality of electrodes while at least one of the electrodes has a first polarity, thereby stimulating neural tissue adjacent the electrode(s), allowing the neural tissue to undergo neurological accommodation in response to the electrical energy output between the electrodes, switching the electrode(s) from the first polarity to a second polarity, outputting the pulsed electrical waveform from the neurostimulation device between the electrodes while the electrode(s) has the second polarity, thereby hyperpolarizing the neural tissue to reverse the neurological accommodation, switching the electrode(s) from the second polarity to the first polarity, and outputting the pulsed electrical waveform from the neurostimulation device between the electrodes while the electrode(s) has the first polarity, thereby stimulating the previously hyperpolarized neural tissue. | 02-28-2013 |
20130077811 | METHODS AND APPARATUS TO ENHANCE COMMUNICATION IN THE OPERATING ROOM - A communication system is provided for a patient featuring a cushion with an opening for receiving the face of the patient. The cushion includes a microphone for receiving audible signals from the patient and one or more speakers for delivering audible signals to the patient. The microphone and speaker(s) are integrated with the cushion to avoid interfering with the comfort of the patient. In one embodiment, the audible signals are delivered to and from the patient via a communication port. In another embodiment, the system includes a display device, so the patient may view parts of the patient's body on the device and then communicate with system operators through the microphone and speaker(s). | 03-28-2013 |