Abstract: In an embodiment, a method includes acquiring electronic data indicative of a property of a mammal without making physical contact with the mammal. The method also includes extracting digital information indicative of a physiological characteristic of the mammal from the electronic data indicative of the property of the mammal. The method further includes choosing from an electronically accessible treatment database a neuromodulation treatment regimen for administration to the mammal in response to the information indicative of a physiological characteristic of the mammal. The method also includes electronically initiating an administration of the chosen neuromodulation treatment regimen to a nervous system component of the mammal.

Abstract: Systems, devices, methods, and compositions are described for providing an actively controllable shunt configured to, for example, monitor, treat, or prevent an infection.

Abstract: Embodiments described herein relate to a garment system including at least one muscle or at least one joint activity sensor, and at least one actuator that operates responsive to sensing feedback from the at least one muscle or the at least one joint activity sensor to cause a flexible compression garment to selectively compress against or selectively relieve compression against at least one body part of a subject. Embodiments disclosed herein also relate to methods of using such garment systems.

Abstract: Devices, compositions, and methods are described which provide a tubular nanostructure or a composite tubular nanostructure targeted to a lipid bilayer membrane. The tubular nanostructure includes a hydrophobic surface region flanked by two hydrophilic surface regions. The tubular nanostructure is configured to interact with a lipid bilayer membrane and form a pore in the lipid bilayer membrane. The tubular nanostructure may be targeted by including at least one ligand configured to bind to one or more cognates on the lipid bilayer membrane of a target cell.

Abstract: Treatment of cardiac tissue via an implantable heart treatment device is described. A device embodiment includes, but is not limited to, a substrate configured for implantation within a body; an electromagnetic signal generator coupled to the substrate and configured to generate one or more electric signals configured to stimulate one or more tissues of a heart; and an oxygenator coupled to the substrate and configured to supply one or more oxygenated molecules to one or more tissues of the heart, the oxygenator including a blood inlet portion, a blood outlet portion, and an oxygen exchange portion positioned between the blood inlet portion and the blood outlet portion, the oxygen exchange portion including a high surface area oxygen exchanger configured to transfer one or more oxygenated molecules from the high surface area oxygen exchanger to blood passing from the blood inlet portion to the blood outlet portion.

Abstract: A medical apparatus is disclosed, at least a portion of which is configured for implantation in an animal. The medical apparatus includes a communication module configured to receive communications originating external to the animal. The medical apparatus also includes a threat assessment module configured to ascertain a malware threat characteristic of a communication received by the communication module. The medical apparatus further includes a threat mitigation module configured to implement a mitigation measure responsive to the ascertained malware threat characteristic of the received communication.

Abstract: Methods and systems for monitoring compliance of a patient with a prescribed treatment regimen are described. Patient activity is detected unobtrusively with an activity sensor at the patient location, and activity data is transmitted to a monitoring location. Patient speech detected during use of a communication system such as a mobile telephone by the patient may also be used as an activity signal. Patient activity and/or speech is processed at the patient location or monitoring location to identify activity parameters or patterns that indicate whether the patient has complied with the prescribed treatment regimen. The activity sensor and other components at the patient location may be incorporated into, or associated with, a cell phone, computing system, game system, or vehicle system, for example. The system may provide a report to an interested party, for example a medical care provider or insurance company, regarding patient compliance with the prescribed treatment regimen.

Abstract: Systems and methods are described for monitoring an individual and facilitating a motion regimen of the individual. In an aspect, a system includes, but is not limited to, a deformable substrate; a sensor assembly to generate sense signals based on detection of a movement of the body portion and a physiological parameter of the body portion during a motion regimen executed by the individual; a processor including circuitry configured to identify a pain state of the individual based on at least one of the movement or the physiological parameter, and to compare at least one of the pain state, the movement, or the physiological parameter to threshold target values; and a communicator configured to generate communication signals responsive to instruction by the processor, the communication signals associated with comparison between at least one of the pain state, the movement, or the physiological parameter to threshold target values.

Abstract: Treatment of cardiac tissue via an implantable heart treatment device is described. A device embodiment includes, but is not limited to, a substrate; an electromagnetic signal generator configured to generate one or more electric signals configured to stimulate one or more tissues of a heart; a metabolic molecule supply device configured to supply one or more metabolic molecules to one or more tissues of the heart; and control circuitry operably coupled to the electromagnetic signal generator and the metabolic molecule supply device, the control circuitry configured to generate one or more control signals according to at least a first control protocol and a second control protocol, dependent upon a status of a ventricular fibrillation event of the heart.

Abstract: Systems and methods are described for monitoring an individual subject and facilitating a motion regimen of the individual subject. In an aspect, a system includes, but is not limited to, a deformable substrate; a sensor assembly configured to generate one or more sense signals based on detection of at least one of a movement of the body portion or at least one physiological parameter of the body portion; a processor configured to receive the one or more sense signals, the processor including circuitry configured to identify a physiological state of the individual subject based on at least one of the movement of the body portion or the at least one physiological parameter of the body portion; and an effector operably coupled to the processor and configured to effect at least one predetermined motion of the body portion corresponding to a motion regimen responsive to control by the processor.

Abstract: Embodiments disclosed herein relate to a garment system including a flexible compression garment, at least one sensor, and at least one therapeutic stimulation delivery device operable responsive to sensing feedback from the at least one sensor, effective to provide therapeutic radiation to a body part of a subject. Embodiments disclosed herein also relate to methods of using such garment systems.

Abstract: Embodiments disclosed herein relate to a garment system including a flexible compression garment, at least one sensor, and at least one therapeutic stimulation delivery device operable responsive to sensing feedback from the at least one sensor, effective to provide therapeutic radiation to a body part of a subject. Embodiments disclosed herein also relate to methods of using such garment systems.

Abstract: A 3D-display system alternates between directing light representing a left-eye view of a 3D image to a viewer's left eye and directing light representing a right-eye view of a 3D image to a viewer's right eye. To direct the light towards the viewer's eyes, the system receives eye-location data relative to a display device from an eye-tracking system and uses light deflectors, such as acousto-optic, electro-optic, and passive optical deflectors, to aim the light in a particular direction.

Abstract: Systems, devices, and methods are described for detecting an embolus, thrombus, or a deep vein thrombus in a biological subject.

Abstract: Systems and methods are described herein for guided injection, which include: one or more controllable light-emitting elements configured to emit non-destructive light and a computing device operably connected to the one or more controllable light-emitting elements configured to emit non-destructive light, the computing device including a processor operable to receive at least one digital representation of a body region of an individual, the body region of the individual including one or more physical registration landmarks, the at least one digital representation including one or more digitally registered injection sites and one or more digital registration landmarks corresponding to the one or more physical registration landmarks on the body region; and control the one or more controllable light-emitting elements to illuminate a location of a surface of the body region of the individual corresponding in location to at least one of the one or more digitally registered injection sites.

Abstract: Combination therapeutics, computer program products, and systems are described that include at least one combined prescription psychiatric medication and at least one artificial sensory experience for ameliorating at least one side effect of the psychiatric medication.

Abstract: Devices, systems, and methods for assessing microbiota of skin are described, including: a skin-covering material including an inner surface and an outer surface, the inner surface substantially conforming to a topography of a skin surface of an individual and including a plurality of signal-generating complexes, one or more of the plurality of signal-generating complexes configured to emit one or more signals in response to at least one type of microbe; an image capture device to capture an image of the inner surface of the skin-covering material, the image including one or more signals emitted from the plurality of signal-generating complexes, and to transform the image into a digital output; and a computing device including circuitry configured to receive the digital output, compare the properties of the imaged one or more signals with a database of reference signal-generating complexes, and generate a digital spatial profile of microbes on the skin-covering material.

Abstract: This document discloses EEG headset designs that address shortcomings in prior art headsets and also provides headset solutions for new and useful applications utilizing EEG headsets. One such application is brain computer interface (BCI) applications, and more specifically, a BCI application for stroke therapy in which the headset is utilized to obtain ipsilateral brain signals. This document also discloses BCI devices and methods utilizing EEG headsets.

Abstract: Devices, systems, and methods are disclosed herein for treatment of a disease, disorder, or condition in a vertebrate subject. A device is provided that includes one or more cooling elements configured to be applied to one or more tissues of a vertebrate subject to modulate at least one activity of brown adipose tissue of the vertebrate subject, and a programmable controller configured to provide instructions to the one or more cooling elements in response to information regarding one or more physiological conditions of the vertebrate subject.

Abstract: Systems and methods are described for monitoring, treating, and preventing a pain state of an individual. In an aspect, a system includes, but is not limited to, a deformable substrate; a sensor assembly coupled to the deformable substrate, the sensor assembly including a motion sensor and a physiological sensor, the sensor assembly configured to generate one or more sense signals based on detection of a movement of the body portion by the motion sensor and a physiological parameter of the body portion by the physiological sensor; a processor including circuitry configured to identify a physiological state of the individual subject based on at least one of the movement of the body portion or the physiological parameter; and an effector operably coupled to the processor and configured to affect the body portion responsive to control by the processor.