Systems are provided for a patient isolation unit for use with a medical imaging system includes an enclosure comprised of a pathogen impermeable material compatible with one or more imaging systems. The enclosure includes a base, a first end wall coupled to a first end of the base, a second end wall coupled to a second end of the base, and a cover coupled to a first side of the base, second side of the base, the first end wall and the second end wall for substantially enclosing a patient therein. In another exemplary embodiment, a patient isolation unit for use with a medical imaging system includes a head enclosure comprised of a pathogen impermeable material and a body enclosure coupled to the head enclosure and comprised of a pathogen impermeable material.

A thermotherapy device (1) includes a pivotable wall (2) and a pivoting device (3). The pivoting device (3) has a pivoting axis section (31) connected to the thermotherapy device. A locking element (32) is connected to the pivotable wall (2) and is mounted movably radially to the pivoting axis section (31) and pivotably about the pivoting axis section (31). A blocking element (33) and a holding module (34) for the blocking element (33) are provided. A contact element (35) is permanently connected to the locking element (32) for contacting the blocking element (33). The holding module (34) pushes the blocking element (33) between the pivoting axis section (31) and the contact element (35) when the locking element (32) is moved from a locked position, defined by a first distance to the pivoting axis section (31), into an unlocked position, defined by a second distance to the pivoting axis section (31).

Patient support systems and methods for docking, transporting, sterilizing, and storing patient support decks. The patient support system comprises patient support decks that are configured to carry patients, such as in emergency situations or in a healthcare facility. The patient support decks are adapted to be engaged by docking stations and transport devices. Different configurations of docking stations and transport devices are contemplated. Sterilization apparatuses are provided to sterilize the patient support decks after use and storage facilities store the patient support decks for later use once they are sterilized.

In some embodiments, an apparatus can include a surgical table and an adapter coupled thereto. The adapter includes an interface structure, a first link member coupled to a second link member, and a third link member coupled to a fourth link member. The first link member and the third link member are each pivotally coupled to the interface mechanism at a shared first pivot joint. The second link member and the fourth link member are each coupleable to a robotic arm. The first link member and the second link member collectively provide for movement of the first robotic arm in at least one of a lateral, longitudinal or vertical direction relative to the table top. The third link member and the fourth link member collectively provide for movement of the second robotic arm in at least one of a lateral, longitudinal or vertical direction relative to the table top.

The present inventive subject matter describes a device and system for positioning, adjusting, and stretching a patient's extremity for surgical procedures where alignment is critical and minute adjustments may be required repeatedly. The device helps in maintaining the patient's extremity stationary, once the physician has selected the precise position for the elected procedure. The device uses using a combination of an articulating and a rotating frame, support plates and support rings that are attached to the extremity surgical positioning system. The system acts as a limb splint that is firmly attached to the surgical table. The support plates are attached to the patient via a series of adjustable straps preventing the extremity from moving independently of the support plate. A locking rack and gear configuration has adjustable locking pivot points that are positioned along and within the outer/inner proximal tube and outer/inner distal tube that lengthens or rotates various portions of the extremity.

A portable X-ray system includes an X-ray scanner coupled to a module for processing and visualization of digital signals; and foldable intake and output trays configured to pass an object in and out of the scanner module. The foldable intake and output trays are articulated approximately in their middle. A first drum extends substantially across an entire opening of the scanner tunnel and configured to press down on the object and pull the object inside a scanner tunnel. A second drum extends substantially across an entire opening of the scanner tunnel and configured to press down on the object and pull the object from the scanner tunnel. A radiation shield covers an opening of the scanner tunnel. Sensors detects a type of object to be scanned and to control the first drum according to the type of object to be pulled inside the scanner tunnel.

An X-ray CT device according to an embodiment includes a gantry, a top board, and a movement mechanism. The gantry includes an X-ray tube that generates X-rays and a detector that detects the X-rays. The top board inserts the subject into the opening section of the gantry. The movement mechanism moves the top board in a longitudinal direction. Furthermore, the position of the top board in a vertical direction at the position that intersects with the path of the X-rays is changed at substantially the same slope relative to the movement distance of the top board when the top board is moved in the longitudinal direction.

A movable medical device is provided. The movable medical device may include a medical cabin configured to accommodate medical resources for providing multiple types of medical services and a movable platform configured to move the medical cabin to a desired location. The medical cabin may include a radiation room configured to accommodate a radiation device for providing a medical imaging service; a sample processing room configured to accommodate medical resources for providing at least one of a sampling service or a sample detection service; and a control room configured to accommodate a control platform used to control the radiation device for providing the medical imaging service.

The purpose of the invention is to provide a transcranial magnetic stimulation system capable of guiding a patient into an optimum posture for treatment. The system 1 of the invention includes an optical device 502 for projecting a light spot 805 to a head of a patient and detecting a reflection light of the light spot; a memory means 71 for memorizing information included in the reflection light detected by the optical device as a reference information when the projected light spot on the patient overlaps a marking (800) provided on the patient; a calculation means 72 for using the reference information memorized in the memory means and a comparison information included in the reflection light of the light spot to calculate an overlap ratio between the marking and the light spot corresponding to the comparison information; and a display means 504 for displaying the overlap ratio.

A radiation monitoring system includes a patient support apparatus. A radiation sensor assembly is operably coupled to the patient support apparatus. The radiation sensor assembly includes a radiation sensor and a first controller. The radiation sensor senses radiation data corresponding to a radiation dose received by a patient. A management system includes a second controller that stores a patient profile database. The second controller is communicatively coupled with the first controller. The first controller communicates the radiation data to the second controller for storage in the patient profile database to monitor the radiation dose received by the patient.