Patent application number | Description | Published |
20110009921 | DEVICE AND METHOD FOR AUDITORY STIMULATION - A device and method for desynchronizing a patient's neuronal brain activity involving a neuron population firing in a pathologically synchronized manner. The device includes a stimulation unit configured to generate an acoustic stimulation signal to stimulate the neuron population when the acoustic stimulation signal is aurally received by the patient. Furthermore, the acoustic stimulation signal has a first frequency and a second frequency, with the first frequency provided to reset the phase of the neuronal brain activity in a first sub-population of the stimulated neuron population, and the second frequency provided to reset the phase of the neuronal brain activity in a second sub-population of the stimulated neuron population. | 01-13-2011 |
20110137373 | DEVICE FOR THE DESYNCHRONIZATION OF NEURONAL BRAIN ACTIVITY - A device for desynchronizing neuronal brain activity involving a neuron population firing in a synchronized manner at a pathological frequency. The device includes an electrode configured to generate stimuli that stimulate the neuron population; and a control unit configured to control the electrode to generate the stimuli in sequence, wherein the stimuli succeed each other with a predetermined frequency f. The predetermined frequency f is substantially equal to g×n/m, where g is the pathological frequency, and n and m are integers. | 06-09-2011 |
20110201977 | DEVICE AND METHOD FOR CONDITIONED DESYNCHRONIZING STIMULATION - A device having a first stimulation unit that generates electrical first stimuli suppressing a pathological synchronous activity of neurons in the brain and/or spinal cord of a patient upon administering the same to the brain and/or spinal cord of the patient, a second stimulation unit that generates optical and/or acoustic and/or tactile and/or vibratory second stimuli, and a controller that controls the first and the second stimulation units. The generation of the first and second stimuli optionally occurs in a first or in a second operating mode, and the controller actuates the first and the second stimulation units such that in the first operating mode the generation of at least 60% of the second stimuli is chronologically coupled to the generation of the first stimuli, and in the second operating mode the generation of at least 60% of the second stimuli is carried out without generating the first stimuli. | 08-18-2011 |
Patent application number | Description | Published |
20100324631 | DEVICE AND METHOD FOR STIMULATING NEURONAL TISSUE BY MEANS OF OPTICAL STIMULI - A device with a control unit and a plurality of stimulation units configured to be implanted in the body of a patient and generate optical stimuli, wherein the optical stimuli reset the phase of the neuronal activity of the neurons during the stimulation of neurons exhibiting abnormally synchronous and oscillatory neuronal activity, and the control unit is configured to actuate the stimulation units such that at least two of the stimulation units reset the phases of the respectively stimulated neurons at different times. | 12-23-2010 |
20100331912 | DEVICE AND METHOD FOR VISUAL STIMULATION - A device and method for providing stimulation signals that reset the phase of the neuronal activity of neurons in a patient's brain. The device includes a control unit; and a stimulation unit that has a plurality of stimulation elements, and each stimulation element generates visual stimulation signals that reset the phase of the neuronal activity of the neurons when the signals are taken up via an eye of a patient and transmitted to neurons that are exhibiting a pathologically synchronous and oscillatory neuronal activity. The control unit is further capable of actuating the stimulation unit such that the stimulation elements generate the visual stimulation signals with a time offset in respect to one another and/or with differing phase and/or with differing polarity. | 12-30-2010 |
20130190663 | DEVICE AND METHOD FOR AUDITORY STIMULATION - A device and method for desynchronizing a patient's neuronal brain activity involving a neuron population firing in a pathologically synchronized manner. The device includes a stimulation unit configured to generate an acoustic stimulation signal to stimulate the neuron population when the acoustic stimulation signal is aurally received by the patient. Furthermore, the acoustic stimulation signal has a first frequency and a second frequency, with the first frequency provided to reset the phase of the neuronal brain activity in a first sub-population of the stimulated neuron population, and the second frequency provided to reset the phase of the neuronal brain activity in a second sub-population of the stimulated neuron population. | 07-25-2013 |
20130245713 | DEVICE FOR THE DESYNCHRONIZATION OF NEURONAL BRAIN ACTIVITY - A device for desynchronizing neuronal brain activity involving a neuron population firing in a synchronized manner at a pathological frequency. The device includes an electrode configured to generate stimuli that stimulate the neuron population; and a control unit configured to control the electrode to generate the stimuli in sequence, wherein the stimuli succeed each other with a predetermined frequency f. The predetermined frequency f is substantially equal to g×n/m, where g is the pathological frequency, and n and m are integers. | 09-19-2013 |
20140107525 | METHOD FOR MODULATION OF NEURONAL ACTIVITY IN THE BRAIN BY MEANS OF SENSORY STIMULATION AND DETECTION OF BRAIN ACTIVITY - The invention relates to a method for controlled modulation of physiological and pathological neuronal rhythmic activity in the brain by means of sensory stimulation, which is capable of diagnostically ascertaining functional disorders in the brain and of alleviating or eliminating the symptoms of a functional disruption. According to the invention, the method comprises generating a plurality of pulses at a plurality of excitation frequencies, respectively, to stimulate neuronal rhythmic activity in a patient's brain; measuring the neuronal rhythmic activity in response to the pulses; determining an excitation frequency in which the measured neuronal rhythmic activity has a maximum amplitude of pathological rhythm; generating an entraining periodic pulse sequence operating at the excitation frequency; and generating a desynchronization pulse following the entraining periodic pulse sequence to desynchronize the neuronal rhythmic activity, where the pulse are either visual or acoustic or tactile. | 04-17-2014 |
20140336547 | DEVICE AND METHOD FOR AUDITORY STIMULATION - A device and method for desynchronizing a patient's neuronal brain activity in which the neuron population is firing in a pathologically synchronized manner. The device includes a stimulation unit that generates an acoustic stimulation signal that includes both a first tone and a second tone. The first tone is provided to shift the phase of the neuronal brain activity of a first subpopulation of the neuron population relative to the phase of the neuronal brain activity of a second subpopulation of the neuron population when the first tone is acoustically received by the patient. Further, the second tone is provided to shift the phase of the neuronal brain activity of the second subpopulation relative to the phase of the neuronal brain activity of the first subpopulation when the second tone is acoustically received by the patient. As a result, the acoustic stimulation signal desynchronizes the stimulated neuron population. | 11-13-2014 |
Patent application number | Description | Published |
20130041296 | APPARATUS AND METHOD FOR TREATING A PATIENT USING VIBRATION STIMULI, TACTILE STIMULI AND/OR THERMAL STIMULI - The invention relates to a device ( | 02-14-2013 |
20130090519 | APPARATUS AND METHOD FOR THE CONDITIONED DESYNCHRONIZED NON-INVASIVE STIMULATION - A device with a non-invasive first stimulation unit configured to generate first stimuli which, when administered to a patient, suppress a pathologically synchronous activity of neurons in at least one of the brain, and the spinal cord of the patient, with a non-invasive second stimulation unit configured to generate at least one of optical, acoustic, tactile, vibratory, and thermal second stimuli, and with a control unit configured to control the first and second stimulation units, wherein the generation of the first and second stimuli takes place optionally in a first or a second operating mode, and the control unit is configured to control the first and second stimulation units in such a way that, in the first operating mode, the generation of at least 60% of the second stimuli is coupled in time to the generation of the first stimuli and, in the second operating mode, the generation of at least 60% of the second stimuli takes place without the generation of the first stimuli. | 04-11-2013 |