BIO CONTROL MEDICAL (B.C.M.) LTD. Patent applications |
Patent application number | Title | Published |
20150057728 | EFFICIENT DYNAMIC STIMULATION IN AN IMPLANTED DEVICE - Apparatus is provided for applying current to a nerve of a subject, including a housing, adapted to be placed in a vicinity of the nerve; at least one cathode and at least one anode, fixed to the housing; a passive electrode, fixed to the housing; and a conducting element, which is electrically coupled to the passive electrode and is configured to extend to a remote location in a body of the subject at a distance of at least 1 cm from the housing. Other embodiments are also described. | 02-26-2015 |
20140214135 | DISSOLVABLE ELECTRODE DEVICE - An electrode assembly is provided that is configured to be coupled to nervous tissue of a subject, the electrode assembly including one or more conductive elements. At least a portion of the electrode assembly, including the conductive elements, is configured to be dissolvable after the electrode assembly has been coupled to the tissue. The electrode assembly is configured to come loose from the tissue upon dissolving of the dissolvable at least a portion thereof. Other embodiments are also described. | 07-31-2014 |
20140163661 | ELECTRODE CUFFS - Apparatus is provided for application to a nerve of a subject, including an electrode cuff, which includes a housing, which is configured to be placed at least partially around the nerve so as to define an inner surface of the housing that faces the nerve. A plurality of insulating elements are coupled to the inner surface of the housing at respective insulating element longitudinal positions along the housing, such that the inner surface of the housing and pairs of the insulating elements define one or more respective cavities at respective cavity longitudinal positions along the housing. One or more electrodes are fixed to the housing in fewer than all of the cavities, such that at least one of the cavities is an empty cavity that does not have an electrode positioned therein. Other embodiments are also described. | 06-12-2014 |
20140046407 | NERVE STIMULATION TECHNIQUES - An electrode device is configured to be coupled to a parasympathetic site of a subject. A control unit is configured to drive the electrode device to apply a current in bursts of one or more pulses, during “on” periods that alternate with low stimulation periods, wherein at least one of the low stimulation periods immediately following the at least one of the “on” periods has a low stimulation duration equal to at least 50% of the “on” duration; set the current applied on average during the low stimulation periods to be less than 20% of the current applied on average during the “on” periods; and ramp a number of pulses per burst during a commencement of the at least one of the “on” periods and/or a conclusion of the at least one of the “on” periods. | 02-13-2014 |
20130261721 | ELECTRODE CUFFS - An electrode assembly includes electrodes and a cuff, shaped so as to define a tubular housing that defines a longitudinal axis therealong, two edges, and a slit between the two edges. When the housing is closed, respective contact surfaces of the two edges touch each other, and the housing defines an inner surface that faces and surrounds the axis, to which inner surface the electrodes are fixed. The cuff further defines three or more annular insulating elements that extend toward the axis from the inner surface of the housing at respective longitudinal positions along the housing, such that the inner surface of the housing and pairs of the insulating elements define, at respective longitudinal positions along the housing, respective chambers open toward the axis. The housing is shaped such that the contact surfaces of the two edges extend toward the axis and protrude into the chambers. | 10-03-2013 |
20130211480 | EFFICIENT DYNAMIC STIMULATION IN AN IMPLANTED DEVICE - Apparatus is provided for stimulating a tissue having a tissue capacitance. The apparatus comprises a capacitor, and circuitry which is adapted to charge the capacitor to a potential, and discharge the capacitor for a discharge period through the tissue. The apparatus further comprises a resistive element, having a resistance which is controlled by the circuitry, which is coupled to the circuitry, and which is adapted to substantially short-circuit the tissue capacitance responsive to a control signal generated by the circuitry. | 08-15-2013 |
20130053936 | TECHNIQUES FOR NERVE STIMULATION - Apparatus is provided for applying current to a nerve, including a housing, adapted to be placed in a vicinity of the nerve, and at least one cathode and at least one anode, fixed to the housing. The apparatus further includes two or more passive electrodes, fixed to the housing, and a conducting element, which electrically couples the passive electrodes to one another. Other embodiments are also described. | 02-28-2013 |
20120303080 | PARASYMPATHETIC NERVE STIMULATION - A method is provided, including identifying that a subject is at risk of suffering from atrial fibrillation (AF). Responsively to the identifying, a risk of an occurrence of an episode of the AF is reduced by coupling an electrode device to a site of a subject containing parasympathetic nervous tissue; driving, by a control unit, the electrode device to apply an electrical current to the site not responsively to any physiological parameters sensed by any device directly or indirectly coupled to the control unit; and configuring the current to stimulate autonomic nervous tissue in the site. Other embodiments are also described. | 11-29-2012 |
20120029582 | ELECTRODE DEVICES WITH RESISTIVE ELEMENTS - Apparatus is provided for applying current to a nerve. A cathode is adapted to be placed in a vicinity of a cathodic longitudinal site of the nerve and to apply a cathodic current to the nerve. A primary inhibiting anode is adapted to be placed in a vicinity of a primary anodal longitudinal site of the nerve and to apply a primary anodal current to the nerve. A secondary inhibiting anode is adapted to be placed in a vicinity of a secondary anodal longitudinal site of the nerve and to apply a secondary anodal current to the nerve, the secondary anodal longitudinal site being closer to the primary anodal longitudinal site than to the cathodic longitudinal site. | 02-02-2012 |
20110224749 | NERVE STIMULATION TECHNIQUES - A method is provided for treating heart failure in a subject in need of such treatment, including applying a stimulating current to parasympathetic nervous tissue of the subject, selected from the group consisting of: a vagus nerve and an epicardial fat pad. The stimulating current is configured to inhibit release of at least one proinflammatory cytokine sufficiently to the treat heart failure of the subject. A level of the at least one proinflammatory cytokine is measured. Optionally, the stimulating current is configured to change a level of Connexin 43 of the subject, and the level of Connexin 43 is also measured. Other embodiments are also described. | 09-15-2011 |
20110137365 | TECHNIQUES FOR REDUCING PAIN ASSOCIATED WITH NERVE STIMULATION - Apparatus is provided including an electrode device and a control unit. The electrode device is configured to be coupled to a site of a subject selected from the group consisting of: a vagus nerve, an epicardial fat pad, a pulmonary vein, a carotid artery, a carotid sinus, a coronary sinus, a vena cava vein, a right ventricle, a right atrium, and a jugular vein. The control unit is configured to drive the electrode device to apply to the site a current in at least first and second bursts, the first burst including a plurality of pulses, and the second burst including at least one pulse, and set (a) a pulse repetition interval (PRI) of the first burst to be on average at least 20 ms, (b) an interburst interval between initiation of the first burst and initiation of the second burst to be less than 10 seconds, (c) an interburst gap between a conclusion of the first burst and the initiation of the second burst to have a duration greater than the average PRI, and (d) a burst duration of the first burst to be less than a percentage of the interburst interval between, the percentage being less than 67%. Other embodiments are also described. | 06-09-2011 |