Abstract: A surgical tool handle assembly can include a handle body and a tool locking mechanism. The handle body can have a tool receiving end for receiving a mating end of a surgical tool. The tool locking mechanism can be configured to securely engage the surgical tool mating end, thereby locking the surgical tool to the handle. The locking mechanism can include a ramp feature, a locking cam, and an actuation mechanism. The actuation mechanism can be configured to actuate the cam to engage the ramp feature as the cam engages the tool mating end to lock the tool to the handle. A surgical kit and a method of locking a surgical tool to a tool handle are also disclosed.

Abstract: A wearable biometric measurement device includes a ring body having interior and exterior surfaces, an electrocardiogram component including first and second electrodes wherein a single lead electrocardiogram is formed upon contact with the first electrode and the second electrode, a pulse oximeter component including a light emitter and a photodetector wherein the photodetector receives one or more signals transmitted by the light emitter, and a communication component. A system for measuring and processing biometric data includes a wearable biometric measurement device, a monitor device, and a server. A method for measuring biometric data using a wearable biometric measurement device includes pre-processing biometric signals, feature extraction on the signals, and event prediction with respect to the signals.

Abstract: Improved circuitry for measuring analog values in an implantable pulse generator is disclosed. The measurement circuitry executes instructions that define the timing and parameters of measurements to be taken. The instructions include instructions that are responsive to different types of triggers issued by different pulse definition circuits, which pulse definition circuits generate different stimulation waveforms at different groups of electrodes. The measurement circuitry is configurable to update the groups of electrodes used to deliver stimulation.

Abstract: [Object] To provide an ablation system capable of suppressing heat damages to the lumen intima. [Solution] An ablation system 10 has an ablation device 11 in which a balloon 21 is provided on the distal end side of a shaft 22 and an in-side tube 27 causing a fluid to flow into the balloon 21, the internal space of the shaft 22 causing a fluid to flow out of the balloon 21, and an optical fiber 29 guiding laser light into the balloon 21 are individually provided along the shaft 22, a laser light generating unit 12 emitting laser light to the optical fiber 29, and a fluid returning unit 13 returning a fluid into the internal space of the balloon 21. The ablation device 11 has a reflector 33 reflecting laser light emitted from the optical fiber 29 in the balloon 21, in which the reflector 33 is movable along the axial direction 191 in the balloon 21 and is rotatable in the axial direction 101 as the axis line.

Abstract: The invention provides a non-invasive skin treatment device (200) comprising: a light source (10) constructed for emitting treatment light (15), an optical system (20) constructed for focusing the treatment light along an optical axis (OA) to a focus position (320) inside the skin tissue (300), and an indenter (30) comprising a skin contact surface (34) having an aperture (A1) at a distance from the optical system for allowing the treatment light to be focused through the aperture into the skin tissue.

Abstract: Aspects of the disclosure include a sleep state detection method. The sleep state detection method includes: upon detecting that current status of a user satisfies a preset sleep condition, sending, by a smart wearable device, a state checking request to a terminal associated with the smart wearable device, the state checking request instructing the terminal to provide state information based on sensor data or an operation event of a predetermined application on the terminal; receiving the state information from the terminal; and determining whether the user enters a sleep state based on the state information.

Abstract: A device for controlling a low level laser probe (20a) suitable for treating adult stem cells of a subject, said probe (20) having a plurality of light sources (24a . . . 24n) provided in a doming treatment surface (25). The device receives, stores and provides (11a, 11) status information from a subject and in accordance with the status information provided controls (12) the laser probe (20a) to transmit visible light (?) having at least two various wavelengths (?1 . . . ?n) for stimulating adult stem cells of the subject, wherein at least one first light source (24a) being centrally positioned in the doming treatment surface (25) of the probe (20a) is adapted to transmit light of a first wavelength (?1,) of a first particular intensity (I1) and the other light sources (24n) positioned around the first light source (24a) are adapted to transmit light of another higher wavelength (?n) and at least a second higher intensity (I2).

Abstract: A heart rate monitor provides a pulse or heartbeat, but without the on-going or continuous phase signal of ECG and/or with a delay relative to the actual heartbeat. For phase determination in echocardiography, the heartbeat from the heart rate monitor is used to assist in identification of phase from acquired ultrasound data. Rather than relying on just ECG or just image processing, the worn or handheld heart rate monitor is used to simplify the image process-based identification of phase.

Abstract: The present disclosure relates to a system and method for providing laser energy through a catheter towards a second end portion of the catheter. Based on a characteristic of the laser energy multiple types of ablation therapy may be implemented. A first ablation therapy is directed at the target site when the laser energy at the second end portion of the laser energy delivery system has a first characteristic. A second ablation therapy is directed at the target site when the laser energy at the second end portion of the laser energy delivery system has a second characteristic. The first ablation therapy may be an optical ablation therapy wherein the laser energy is directed at the target site as optical energy and the second ablation therapy may be a pressure wave ablation therapy wherein pressure waves are directed at the target site as pressure wave energy.

Abstract: The present invention is directed to an integrated system and a method for utilizing the system to detect and remove blood-borne factors of interest, such as pathogens and/or toxins and/or cytokines, from blood or serum (blood) by contacting the blood with a solid, essentially nonporous substrate which has been surface treated with molecules or chemical groups (the adsorbent media or media) having a binding affinity for the pathogens and/or toxins to be removed (the adsorbents). The invention can be used to remove virulence factors, e.g. toxins, that are released from various pathogens. In one aspect, the invention is for the treatment of sepsis and infection, such as infections associated with battle field trauma.

Abstract: Embodiments of this invention generally relate to ophthalmic laser procedures and, more particularly, to systems and methods for creating synchronized three-dimensional laser incisions. In an embodiment, an ophthalmic surgical laser system comprises a laser delivery system for delivering a pulsed laser beam to a target in a subject's eye, an XY-scan device to deflect the pulsed laser beam, a Z-scan device to modify a depth of a focus of the pulsed laser beam, and a controller configured to synchronize an oscillation of the XY-scan device and an oscillation of the Z-device to form an angled three-dimensional laser tissue dissection.

Abstract: The present application relates to a device for cutting hair (1). The device has a skin contacting face (3) that is arranged to be placed against a surface of the skin (6) of a user during use, and an optical system configured to direct a cutting laser beam (8) across a cutting zone (5) parallel to and spaced from said skin contacting face (3) to cut hairs extending into the cutting zone (5). The device also has a skin sensor (18) configured to detect one or more optical properties of the surface of the skin (6), and a control unit (20) configured to adjust one or more characteristics of the optical system in dependence on the one or more optical properties of the skin (6) detected by the skin sensor (18). The present application also relates to a system for cutting hair comprising a device for cutting hair and a base unit for receiving the device.

Abstract: Methods and systems for the controlled generation of bubbles in a medium having a liquid phase are generally provided. Laser pulses having a time-dependent pulse parameter controllable over their duration are generated. The medium is irradiated with the laser pulses with a radiant exposure sufficient to initiate microcavitation within the medium during each laser pulse. The time-dependent pulse parameter of each laser pulse is controlled according to a generally positive variation over the pulse duration such that the medium absorbs a greater quantity of energy from the laser pulse at an end of the pulse duration than at a beginning thereof. Such methods and systems may be used for various applications such as biology, medicine or material processing.

Abstract: A person support apparatus includes sensors for monitoring aspects of a person positioned thereon. The outputs from the sensors are used to distinguish between new and prior occupants of the support apparatus, automatically zero an integrated scale system, distinguish between objects and humans on the support apparatus, determine if a person is sleeping or awake, monitor and characterize movement levels of the person, record a log of likely events regarding a support surface of the apparatus, propose identifications of objects added to or removed from the support surface, record force outputs, and/or other purposes. A person's sleep state may also be obtained and forwarded to a remote location. The sleep state data may be used to mute and/or control alerts or indicators, and/or to predict when a person is going to wake up and likely exit the support apparatus.

Abstract: A light therapy bed including multiple LEDs positioned in individually controllable modules is disclosed. The modules of LEDs are configured to have direct contact or in close proximity to the skin or tissue of the user, through an acrylic or similar cover. The LEDs light the surface and underlying layers of tissue for photodynamic stimulation of the cells. Iterations of the device utilize light known to have a bactericidal effect in the case of acne, MRSA, etc. The bed is fabricated and formed in a curved configuration to optimize contact between the LEDs and the skin of a user. Each of the LED modules may be mounted on a PCB in an arrangement to provide even lighting and temperature upon the skin or tissue surface of a user. Each module also has one or more thermal sensors that evenly and quickly heat all of the areas of a user's body.

Abstract: A telesurgical manipulator comprises an insertion axis mechanism including a base link and a carriage link movable relative to the base link. The carriage link receives a surgical instrument for movement relative to the base link. The base and carriage links are configured for telescoping motion with an extended configuration in which a portion of the carriage link extends beyond the base link. The manipulator also includes an instrument interface included in the carriage link coupled to the surgical instrument via a sterile adaptor that secures a sterile drape to the instrument interface. The sterile drape permits communication between the surgical instrument and the carriage link while maintaining a sterile barrier. The manipulator comprises a communication device on the insertion axis mechanism that wireles sly communicates with the surgical instrument with the sterile drape disposed therebetween and that wirelessly provides power to the surgical instrument with the sterile drape disposed therebetween.

Abstract: A photonic treatment apparatus and apparatus for patient care, using a film, such as a phosphorous plate and a casing comprising an aperture provided for films that may be positioned therein to allow for desired treatments of a user, a photonic engine, positioned behind the film, to create photonic pressure. The photonic engine directed toward the film energizes the film achieving a desired wavelength emanation, a first zone of wavelengths that originate from the photonic engine, and a second zone of wavelengths emanating from the film that can be directed toward a target area and used in a method for treating patient conditions. A specific phosphor plate can be used for a desired treatment to customize the output to a specific wavelength necessary for treatment of specific conditions or other possible uses.

Abstract: A light therapy device including multiple light-emitting diodes (LEDs) positioned in a handheld, portable device is disclosed. The device including the LEDs are configured to have direct or nearly direct contact with the skin or tissue of the user without any intermediary materials, and light the surface and underlying layers of tissue for photodynamic stimulation of the user's cells. Housings for the devices may contain an arrangement of 12-600 LEDs on one or more circuit boards in an arrangement to provide even lighting over the skin or tissue surface. A plurality of devices may be connected together for treating larger areas of tissue. A belt may be used for keeping in position a plurality of therapeutic devices.