Abstract: Embodiments described herein relate to methods, devices, and computer systems thereof for the derivation of T CAR libraries (Universal Subject or Individual Subject) for personalized treatment of disease in a subject. In certain embodiments, differential screening of normal and diseased tissue expression data is utilized to determine disease-specific antigens and thereby generate T CAR cells reactive to such antigens to form a disease-specific library. In certain embodiments, determination of the most effective T CAR clones from the disease-specific library is based on the subject's own disease-specific antigens. In certain embodiments, a subject is treated with a therapeutically effective amount of T CAR clones.

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: Devices and methods for profiling microbiota of skin are described which include a hand-held microbe profiling device including a housing defining an opening, the housing including at least one rotatable component at least partially disposed in the opening defined by the housing, an elongated flexible strip disposed on an outer surface of the at least one rotatable component, the outer surface of the elongated flexible strip positioned to contact one or more regions of a skin surface of an individual through the opening defined by the housing, a location-capture component to detect a location of one or more regions of the skin surface as the elongated flexible strip contacts said one or more regions, at least one sensor component to detect one or more signals emitted or reflected from the elongated flexible strip, and a computing component to associate the location of said one or more regions of the skin surface and the detected one or more signals.

Abstract: Disclosed herein include various embodiments related to site-specific epigenetic editing of biological cells. Various embodiments relate to fusion protein constructs and methods of using the same for site-specific epigenetic editing of biological cells. Various embodiments relate to fusion protein constructs that utilize endogenous epigenetic editing effector agents for site-specific editing of biological cells.

Abstract: Devices and methods for profiling microbiota of skin are described which include a microbe profiling device including a device head and a hand-held housing, the device head including an epidermis-engaging component and an access window and configured to dislodge microbes from a skin surface, and the hand-held housing defining an opening aligned with the access window, the hand-held housing including a motor operably coupled to a motivatable component, a substrate disposed in relation to the motivatable component and including signal-generating complexes, a location-capture component to detect a location of one or more regions of the skin surface as the epidermis-engaging component contacts said one or more regions, at least one sensor component to detect one or more signals emitted from the signal-generating complexes, and a computing component including circuitry to associate the location of said one or more regions of the skin surface and the detected one or more signals.

Abstract: Devices and methods for profiling microbiota of skin are described which include a microbe profiling device including a device head and a hand-held housing, the device head including an epidermis-engaging component and an access window and configured to dislodge microbes from a skin surface, and the hand-held housing defining an opening aligned with the access window, the hand-held housing including a motor operably coupled to a motivatable component, a substrate disposed in relation to the motivatable component and including a microbe-capture region, a location-capture component to detect a location of one or more regions of the skin surface as the epidermis-engaging component contacts said one or more regions, at least one sensor component to detect one or more signals emitted or reflected from the microbe-capture region, and a computing component including circuitry to associate the location of said one or more regions of the skin surface and the detected one or more signals.

Abstract: Devices, systems, and methods for assessing microbiota of skin are described which include: a skin-covering material with an inner surface conforming in shape to a topography of a skin surface and including a plurality of specific microbe-binding elements; an image capture device to capture an image of the inner surface of the skin-covering material and to transform the image into a digital output including information associated with at least one property and a spatial distribution of at least one type of microbe bound to the specific microbe-binding elements; and a computing device including circuitry configured to receive the digital output from the image-capture device, compare the at least one property of the at least one type of microbe bound to the specific microbe-binding elements with a database of reference microbe properties, and generate a digital profile including the at least one property and the spatial distribution of the at least one type of microbe bound to the specific microbe-binding eleme

Abstract: Embodiments described herein relate to methods, devices, and computer systems thereof for the derivation of T CAR libraries (Universal Subject or Individual Subject) for personalized treatment of disease in a subject. In certain embodiments, differential screening of normal and diseased tissue expression data is utilized to determine disease-specific antigens and thereby generate T CAR cells reactive to such antigens to form a disease-specific library. In certain embodiments, determination of the most effective T CAR clones from the disease-specific library is based on the subject's own disease-specific antigens. In certain embodiments, a subject is treated with a therapeutically effective amount of T CAR clones.

Abstract: Devices and methods are disclosed herein for preventing or treating ventilator associated pneumonia in a mammalian subject. The device includes an endotracheal tube having an interior surface and an exterior surface; and one or more closed cell layers in contact with the exterior surface and circumferentially surrounding one or more longitudinal portion of the endotracheal tube, wherein the closed cell layer is flexibly shaped to reversibly form a seal in a trachea of a mammalian subject.

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 within the body; and an energy-carrier molecule delivery device coupled to the substrate and configured to supply one or more non-oxygen cellular energy sources to one or more tissues of the heart within the body.

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: 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: Devices, systems, and methods for assessing microbiota of skin are described which include: a skin-covering material with an inner surface conforming in shape to a topography of a skin surface and including a plurality of specific microbe-binding elements; an image capture device to capture an image of the inner surface of the skin-covering material and to transform the image into a digital output including information associated with at least one property and a spatial distribution of at least one type of microbe bound to the specific microbe-binding elements; and a computing device including circuitry configured to receive the digital output from the image-capture device, compare the at least one property of the at least one type of microbe bound to the specific microbe-binding elements with a database of reference microbe properties, and generate a digital profile including the at least one property and the spatial distribution of the at least one type of microbe bound to the specific microbe-binding eleme

Abstract: Systems, devices, and methods are described for acquiring, among other things, lesion information from a hair or fur-covered region of a biological subject.

Abstract: A device can include a vibration sensor configured to sense blood flow in a lumen of a person; a cuff coupled to the vibration sensor and configured to contact a limb of the person; a mechanical cuff tensioner coupled to the cuff, the mechanical cuff tensioner configured to adjust a compressive force of the cuff on the lumen; a tension sensor operably coupled to the mechanical cuff tensioner, the tension sensor configured to measure a first tension value of the cuff during a first sense by the vibration sensor and to measure a second tension value of the cuff during a second sense by the vibration sensor; and a recorder mechanism configured to record the first tension value, the first measurement by the vibration sensor, the second tension value, and the second measurement by the vibration sensor.

Abstract: Devices, systems, and methods for assessing microbiota of skin are described which include: a skin-covering material with an inner surface conforming in shape to a topography of a skin surface and including a microbe-capture region; an image-capture device to capture a least one image of the inner surface of the skin-covering material and to transform the captured at least one image into a digital output including information associated with at least one property and a spatial distribution of at least one type of microbe bound to the microbe-capture region; and a computing device including circuitry configured to receive the digital output from the image-capture device, compare the at least one property of the at least one type of microbe with a database of reference microbe properties, and generate a digital profile including the at least one property and the spatial distribution of the at least one type of microbe bound to the microbe-capture region of the skin-covering material.

Abstract: Disclosed herein include embodiments related to compositions, devices, computer systems, computer-implemented methods, and computer program products associated with an ingestible salt grabber.

Abstract: Systems and devices are described which include a tissue cutting device including a tethering component; an elongated flexible cutting component having a first end and a second end, the first and the second end of the elongated flexible cutting component secured to the tethering component; at least one tether having a first end and a second end, the first end of the at least one tether attached to the elongated flexible cutting component, the second end of the at least one tether operably coupled to the tethering component, the tethering component configured to at least one of extend and retract the at least one tether; and a motor operably coupled to the tethering component, the motor including circuitry configured to rotate the tethering component and the secured elongated flexible cutting component; wherein extension and retraction of the at least one tether by the tethering component changes a shape formed by the elongated flexible cutting component.

Abstract: Systems and devices are described which include a tissue cutting device including a central rotatable shaft having a first end and a second end; a motor operably coupled to the first end of the central rotatable shaft, the motor including circuitry configured to rotate the central rotatable shaft; a tethering component; and an elongated flexible cutting component having a first end and a second end, the first end of the elongated flexible cutting component secured to the central rotatable shaft at a position between the first end and the second end central rotatable shaft, the second end of the elongated flexible cutting component operably coupled to the tethering component, the tethering component configured to at least one of extend and retract the elongated flexible cutting component; wherein extension and retraction of the elongated flexible cutting component by the tethering component changes a shape formed by the elongated flexible cutting component.

Abstract: Systems and devices are described which include a tissue cutting device including a central rotatable shaft having a first end and a second end; a motor operably coupled to the first end of the central rotatable shaft, the motor including circuitry configured to rotate the central rotatable shaft; a moveable component configured to move along at least a portion of the length of the central rotatable shaft; and an elongated flexible cutting component having a first end and a second end, the first end of the elongated flexible cutting component secured to the moveable component and the second end of the elongated flexible cutting component secured to the central rotatable shaft in proximity to the second end of the central rotatable shaft; wherein movement of the moveable component along the at least a portion of the length of the central rotatable shaft changes a shape formed by the elongated flexible cutting component.