Abstract: Methods and devices are provided for activating brown adipose tissue (BAT) using electrical energy. In general, the methods and devices can facilitate activation of BAT to increase thermogenesis. The BAT can be activated by applying an electrical signal thereto that can be configured to target sympathetic nerves that can directly innervate the BAT. The electrical signal can be configured to target the sympathetic nerves using fiber diameter selectivity. In other words, the electrical signal can be configured to activate nerve fibers having a first diameter without activating nerve fibers having diameters different than the first diameter. Sympathetic nerves include postganglionic unmyelinated, small diameter fibers, while parasympathetic nerves that can directly innervate BAT include preganglionic myelinated, larger diameter fibers.

Abstract: A method for treating a disorder of a patient. The method comprises transcutaneously delivering electrical energy to a targeted tissue site at a frequency of at least 50 KHz, thereby treating the disorder.

Abstract: Methods and devices are provided for activating brown adipose tissue (BAT). Generally, the methods and devices can activate BAT to increase thermogenesis, e.g., increase heat production in the patient, which over time can lead to weight loss. In one embodiment, a medical device is provided that activates BAT by electrically stimulating nerves that activate the BAT and/or electrically stimulating brown adipocytes directly, thereby increasing thermogenesis in the BAT and inducing weight loss through energy expenditure.

Abstract: A method for treating a disorder of a patient. The method comprises transcutaneously delivering electrical energy to a targeted tissue site at a frequency of at least 50 KHz, thereby treating the disorder.

Abstract: Methods and devices are provided for activating brown adipose tissue (BAT). Generally, the methods and devices can activate BAT to increase thermogenesis, e.g., increase heat production in the patient, which over time can lead to weight loss. In one embodiment, a medical device is provided that activates BAT by electrically stimulating nerves that activate the BAT and/or electrically stimulating brown adipocytes directly, thereby increasing thermogenesis in the BAT and inducing weight loss through energy expenditure.

Abstract: Methods and devices are provided for activating brown adipose tissue (BAT) using electrical energy. In general, the methods and devices can facilitate activation of BAT to increase thermogenesis. The BAT can be activated by applying an electrical signal thereto that can be configured to target sympathetic nerves that can directly innervate the BAT. The electrical signal can be configured to target the sympathetic nerves using fiber diameter selectivity. In other words, the electrical signal can be configured to activate nerve fibers having a first diameter without activating nerve fibers having diameters different than the first diameter. Sympathetic nerves include postganglionic unmyelinated, small diameter fibers, while parasympathetic nerves that can directly innervate BAT include preganglionic myelinated, larger diameter fibers.

Abstract: Methods and devices are provided for inhibiting nerves when activating brown adipose tissue (BAT). In general, a first nerve type (e.g., sympathetic nerves) innervating BAT can be activated while at least one other nerve type (e.g., parasympathetic nerves and/or sensory nerves) innervating BAT is being suppressed. A first neuromodulator (e.g., an electrical signal, a chemical, a light, cooling, etc.) can be applied to activate the first nerve type, and a second neuromodulator can be applied to inhibit the at least one other nerve type. In this way, parasympathetic nerves and/or sensory nerves innervating BAT can be inhibited when activating sympathetic nerves innervating BAT.

Abstract: A method for treating a disorder of a patient. The method comprises transcutaneously delivering electrical energy to a targeted tissue site at a frequency of at least 50 KHz, thereby treating the disorder.

Abstract: A method for treating a disorder of a patient. The method comprises transcutaneously delivering electrical energy to a targeted tissue site at a frequency of at least 50 KHz, thereby treating the disorder.

Abstract: Methods and devices are provided for activating brown adipose tissue (BAT). Generally, the methods and devices can activate BAT to increase thermogenesis, e.g., increase heat production in the patient, which over time can lead to weight loss. In one embodiment, a medical device is provided that activates BAT by electrically stimulating nerves that activate the BAT and/or electrically stimulating brown adipocytes directly, thereby increasing thermogenesis in the BAT and inducing weight loss through energy expenditure.

Abstract: Methods and devices are provided for activating brown adipose tissue (BAT). Generally, the methods and devices can activate BAT to increase thermogenesis, e.g., increase heat production in the patient, which over time can lead to weight loss. In one embodiment, a medical device is provided that activates BAT by electrically stimulating nerves that activate the BAT and/or electrically stimulating brown adipocytes directly, thereby increasing thermogenesis in the BAT and inducing weight loss through energy expenditure.

Abstract: A neuromodulation system and method of providing sub-threshold modulation therapy. Electrical modulation energy is delivered to a target tissue site of the patient at a programmed intensity value, thereby providing therapy to a patient without perception of stimulation. In response to an event, electrical modulation energy is delivered at incrementally increasing intensity values. At least one evoked compound action potential (eCAP) is sensed in a population of neurons at the target tissue site of the patient in response to the delivery of the electrical modulation energy at the incrementally increasing intensity values. One of the incrementally increased intensity values is selected based on the sensed eCAP(s). A decreased intensity value is automatically computed as a function of the selected intensity value. Electrical modulation energy is delivered to the target tissue site of the patient at the computed intensity value, thereby providing sub-threshold therapy to the patient.

Abstract: A method for treating a disorder of a patient. The method comprises transcutaneously delivering electrical energy to a targeted tissue site at a frequency of at least 50 KHz, thereby treating the disorder.

Abstract: A device for providing transdermal electrical stimulation at an adjustable position on a head. The device including a supporting member economically shaped and configured to be fixedly supported about an anatomical body part; the supporting member being adjustably positionable in only two directions substantially perpendicular to one another. No electrical stimulation is provided by the supporting member. Alternatively, the device includes at least one pair of electrodes for producing the transdermal electrical stimulation to the head. The electrodes are mounted to a securing member shaped and configured to be releasably securable only about a plurality of strands of hair at a predetermined fixed orientation without being secured about any anatomical body part.

Abstract: A device for providing transdermal electrical stimulation at an adjustable position on a head. The device including a supporting member ergonomically shaped and configured to be fixedly supported about an anatomical body part; the supporting member being adjustably positionable in only two directions substantially perpendicular to one another. No electrical stimulation is provided by the supporting member. Alternatively, the device includes at least one pair of electrodes for producing the transdermal electrical stimulation to the head. The electrodes are mounted to a securing member shaped and configured to be releasably securable only about a plurality of strands of hair at a predetermined fixed orientation without being secured about any anatomical body part.

Abstract: Self-positioning of at least a portion of a transdermal electrical stimulation patch within a target area (e.g., supraclavicular fossa region) of a human body to activate a depot of brown adipose tissue therein. An electric field is generated using the electrical stimulation patch to activate the brown adipose tissue within the supraclavicular fossa region of the body. The patch is self-positioned using one or more anatomical points (e.g., anatomical landmarks and/or anatomical features) or markings on the body. Brown adipose tissue may also be activated by applying an electrical signal to a body piercing partially implanted proximate a target area in which the tissue is disposed.

Abstract: Methods and devices are provided for delivering obesity therapy to a patient. In general, the methods and devices allow for onset of a patient eating solid food, e.g., the patient beginning a meal, to trigger delivery of an obesity therapy to a patient. The obesity therapy can be delivered to the patient for a limited period of time such that the patient stops receiving the obesity therapy prior to a second onset of the patient eating solid food, e.g., the patient beginning a second meal, which can trigger a second delivery of the obesity therapy to the patient for a limited period of time.

Abstract: Self-positioning of at least a portion of a transdermal electrical stimulation patch within a target area (e.g., supraclavicular fossa region) of a human body to activate a depot of brown adipose tissue therein. An electric field is generated using the electrical stimulation patch to activate the brown adipose tissue within the supraclavicular fossa region of the body. The patch is self-positioned using one or more anatomical points (e.g., anatomical landmarks and/or anatomical features) or markings on the body. Brown adipose tissue may also be activated by applying an electrical signal to a body piercing partially implanted proximate a target area in which the tissue is disposed.

Abstract: Methods and devices are provided for delivering obesity therapy to a patient. In general, the methods and devices allow for onset of a patient eating solid food, e.g., the patient beginning a meal, to trigger delivery of an obesity therapy to a patient. The obesity therapy can be delivered to the patient for a limited period of time such that the patient stops receiving the obesity therapy prior to a second onset of the patient eating solid food, e.g., the patient beginning a second meal, which can trigger a second delivery of the obesity therapy to the patient for a limited period of time.

Abstract: Methods and devices are provided for delivering obesity therapy to a patient. In general, the methods and devices allow for onset of a patient eating solid food, e.g., the patient beginning a meal, to trigger delivery of an obesity therapy to a patient. The obesity therapy can be delivered to the patient for a limited period of time such that the patient stops receiving the obesity therapy prior to a second onset of the patient eating solid food, e.g., the patient beginning a second meal, which can trigger a second delivery of the obesity therapy to the patient for a limited period of time.