Abstract: A neutron capture therapy system includes a neutron generation device for generating a neutron beam, an irradiation room for irradiating an irradiated body with the neutron beam and a placement table that is accommodated in the irradiation room and is adapted to support the irradiated body. The placement table includes a placement member for supporting a patient, an adjustment device for adjusting a spatial position of the placement member, a driving rod connected between the adjustment device and the placement member and a first shielding member covering the adjustment device. The first shielding member prevents the adjustment device from being radiated by radioactive rays. The adjustment device is disposed in the first shielding member that is basically sealed, thereby greatly reducing radiation damage to the adjustment device by neutrons and gamma rays and prolonging the service life of the adjustment device.

Abstract: A processing system includes methods to promote sleep. The system may include a monitor such as a non-contact motion sensor from which sleep information may be determined. User sleep information, such as sleep stages, hypnograms, sleep scores, mind recharge scores and body scores, may be recorded, evaluated and/or displayed for a user. The system may further monitor ambient and/or environmental conditions corresponding to sleep sessions. Sleep advice may be generated based on the sleep information, user queries and/or environmental conditions from one or more sleep sessions. Communicated sleep advice may include content to promote good sleep habits and/or detect risky sleep conditions. In some versions of the system, any one or more of a bedside unit 3000 sensor module, a smart processing device, such as a smart phone or smart device 3002, and network servers may be implemented to perform the methodologies of the system.

Abstract: The present invention is a device and a method to generate an electric current in a conductor (15). More specifically, the present invention is a device (10) that comprises a magnetic field generator element (11), a control element (12), and a support element (14). The magnetic field generator element (11) and the control element are electrically assembled, the magnetic field generator element (11) is designed to generate a varying magnetic field (B). The aforementioned varying magnetic field (B) comprises at least one varying parameter, the control element (12) is designed to control at least one varying parameter, and the support element (14) is designed to hold the magnetic field generator element (11), and the control element.

Abstract: Methods are provided for permitting manipulation of an achievable dose distribution estimate deliverable by a radiation delivery apparatus for proposed treatment of a subject. One such method comprises: determining a dose modification voxel for which it is desired to modify the dose value and a corresponding magnitude of desired dose modification; for each of a plurality of beams: (i) characterizing the beam as a two-dimensional array of beamlets, wherein each beamlet is associated with a corresponding intensity value and a ray line representing the projection of the beamlet into space; and (ii) identifying one or more dose-change beamlets which have associated ray lines that intersect the dose modification voxel; modifying the intensity values of at least one of the dose-change beamlets; and updating the achievable dose distribution estimate to account for the modified intensity values of the at least one of the dose-change beamlets.

Abstract: A therapeutic device comprises a sensor positioned proximate to a user and configured to receive a plurality of signals, and a processor coupled to the sensor and configured to determine a biomarker describing a biological characteristic of the user based on the plurality of signals, and determine whether the user is likely to experience an impending sleep disorder episode within a predetermined period of time based on the biomarker.

Abstract: An example of subject may deliver a therapy by delivering energy to tissue. The system may comprise a magnetic field system and an electric field system. The magnetic field system may be configured to provide a magnetic field in a first direction to the tissue. The magnetic field system may include at least one magnetic field source to produce the magnetic field. The magnetic field produced by the at least one magnetic field source may include a magnetic field produced by at least one of a permanent magnet, a temporary magnet or electric current flow through a conductor. The electric field system may be configured to provide an electric field in a second direction to the tissue. The electric field system may include at least one electric field source to provide the electric field and the second direction is non-parallel to the first direction.

Abstract: The present disclosure pertains to automatically predicting a slow wave response of a subject to sensory stimulation during a sleep session. The sensory stimulation may be delivered to the subject upon detection of deep NREM sleep. The sensory stimulation may be auditory, haptic, visual, or other stimulation. The system delivers stimulation to the subject in blocks of stimulation separated from one another be intra-block intervals. The blocks are separated from each other by inter-block stimulations. The system compares the stimulated slow wave activity of the subject to the unstimulated slow wave activity of the subject. The system may update the stimulation parameters based on the comparison and deliver a subsequent block stimulation. Once the comparison indicates that the stimulated slow wave activity is significantly different from the unstimulated slow wave activity, the system may apply continuous fixed sensory stimulation to the user according to the most recent stimulation parameters.

Abstract: Disclosed herein are radiation therapy systems and methods. These radiation therapy systems and methods are used for emission-guided radiation therapy, where gamma rays from markers or tracers that are localized to patient tumor regions are detected and used to direct radiation to the tumor. The radiation therapy systems described herein comprise a gantry comprising a rotatable ring coupled to a stationary frame via a rotating mechanism such that the rotatable ring rotates up to about 70 RPM, a radiation source (e.g., MV X-ray source) mounted on the rotatable ring, and one or more PET detectors mounted on the rotatable ring.

Abstract: Described are methods, devices, and systems for a novel, inexpensive, easy to use therapy for a number of disorders. Described are methods and devices to treat disorders that involves no medication. Methods and devices described herein use alternating magnetic fields to gently “tune” the brain and affect mood, focus, and cognition of subjects.

Abstract: The present invention includes an intraoral tool, including one or more selected solid or inflatable inserts targeted to provide a low load prolonged stretch to orofacial musculature that may be coupled to tool handle or tool mounting bracket, wherein the intraoral tool is configured for a delivery of intraoral treatment, such as a stretch to a patient's facial injury or disorder and configured to permit manipulation of the insert in the patient's mouth.

Abstract: Wearable devices can be used to provide therapy to users and/or to monitor various physiological parameters of the user. In some cases, therapy can be triggered automatically based on the monitored physiological parameters reaching or exceeding predefined thresholds.

Abstract: A flexible neuromodulation device and method capable of varying a neuromodulation therapy in order to prevent, delay, or control a sexual emission, and/or increasing an intensity of a sexual climax.

Abstract: Disclosed herein is a radiotherapy apparatus for delivering radiation to a patient. The apparatus comprises a gantry, a source of radiation attached to the gantry and configured to emit radiation along a radiation axis, a support structure for supporting the gantry, and a gantry rotation mechanism positioned between the support structure and the gantry. The gantry rotation mechanism is configured to rotate the gantry about a gantry rotation axis, and tilt the gantry with respect to the gantry rotation axis such that the radiation axis is non-perpendicular with the gantry rotation axis.

Abstract: An insertable cardiac monitor (ICM) with induction-based recharging capabilities and a transmitting coil for recharging the same are disclosed. The length of the monitoring performed by the ICM is extended and the functionality of the ICM enhanced, by including an internal energy harvesting module that allows for charging the ICM at a high speed without burning the patient or overheating components of the ICM. Internally, the energy harvesting module includes at least two overlapping receiving coils that are spaced to be orthogonal to each other and that have a tilt angle of substantially 45°. Such overlapping wire combination allows to minimize mutual inductance of the solenoid coils and increase the rate at which energy can be provided to the energy harvesting module. Further, the rate at which the energy is transmitted from the outside can be increased by defining in a transmitting coil a substantially triangular gap.

Abstract: Systems and devices for continuous heating combined with oscillatory magnetic stimulation of the ST36 acupoint and/or other acupoint(s) by noninvasive infrared heating and transcutaneous magnetic field stimulation, and applied to the treatment of several physical conditions.

Abstract: The present invention relates to a kit suitable for preparing a sustained release composition, in particular for preparing a sustained release composition comprising spermatozoa embedded within an alginate matrix.

Abstract: Pelvic implant having a frame with two arms and a sheet are disclosed. The sheet may be held under tension in the assembled implant. The implant may be planar (flat) or may be non-planar. The implant may be contoured laterally. A curved non-planar implant may be convex or concave in a rostro-caudal direction. The implants may (optionally) include two additional arms and a second sheet for supporting a urethra and/or a bladder neck. Methods for constructing and assembling the implants are disclosed. A method ultrasonically welding the frame of the implant without thermally damaging the sheet is disclosed. Methods of implantation of the implants are disclosed.

Abstract: A method of providing neuromodulation treatment to a patient includes both an assessment procedure prior to the application of magnetic stimulation signal to the patient during a treatment period of time. The assessment procedure is completed prior to the treatment period of time and senses an electroencephalogram (EEG) signal of the person and then an evaluates the EEG signal to obtain a measure of a patient's endogenous brain activity within a selected EEG band of the EEG signal of the patient. A control subsystem adjusts a stimulation protocol parameter used in the generation of the magnetic stimulation signal based upon the measure of a characteristic of the patient's endogenous brain activity obtained during the assessment procedure. The adjusted magnetic signal is then applied to the head of the patient for providing treatment to the patient patient's brain.

Abstract: Wearable devices can be used to provide therapy to users and/or to monitor various physiological parameters of the user. In some cases, therapy can be triggered automatically based on the monitored physiological parameters reaching or exceeding predefined thresholds.

Abstract: A method for assessing neurological function in a subject includes a) prompting a user to follow a moving saccade-evoking stimulus on a display, b) tracking eye movement of the subject while the user follows the moving stimulus, c) collecting a first eye conjugacy data of the subject relating to the saccade-evoking stimulus, and d) comparing the first eye conjugacy data with a second eye conjugacy data, the second eye conjugacy data relating to an anti-saccade stimulus.