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 method to improve neurologically-intact survival rates after cardiac arrest may include performing CPR on an individual in cardiac arrest while the individual is in a supine position in general alignment with a horizontal plane. The method may include elevating the individual's head, shoulders, and heart relative to the individual's lower body while the individual's lower body remains generally aligned with the horizontal plane to cause blood to actively drain venous blood from the brain to reduce intracranial pressure. The method may include performing chest compressions on the individual and actively decompressing the individual's chest while the individual's head, shoulders, and heart are elevated.

A head support device for use with a bed includes a head-receiving component; a base component adapted to rest on a stable surface; a vertically-oriented spine component extending upwards from the base component to the head-receiving component; and at least one bed-connection structure extending horizontally from an intermediate position along the spine component.

Embodiments of cradle frames and cushions are described herein. A cradle frame includes a connection assembly, a support assembly, and a gear assembly. The connection assembly is configured to couple the cradle frame to a structure. The support assembly includes two side sections, and a middle section that is curved and positioned substantially between the two side sections. The gear assembly is coupled to the adjustment assembly for controlling the positioning of the support assembly. A cushion has a contoured upper side, and one or more opening in the middle part of the cushion on the underside.

A device for use with an OR table for supporting a patient's head in a sniff position has a support assembly including a base and patient head support for mounting to an end of an OR table; a pneumatic or mechanical jack, or an expandable bellows, supporting the patient head support for raising or lowering the patient's head relative to the base; a rotatable axis allowing for flexion and extension of the neck; and a mounting assembly for mounting the support assembly to the end of the operating table.

A pad assembly, system and method of securing a patient onto an operating table when the patient is in the Trendelenburg position. The pad assembly and system is used to support and hold a patient on a medical procedure table during a medical procedure performed while the table, and thus the patient lying thereon, is in an inclined position, such as the Trendelenburg position. The pad assembly and system has characteristics which promote improved securing to eliminate shifting and/or sliding due to gravitational forces when the patient's body is in the Trendelenburg position, as well as promote a secure holding of the patient in a desired position on the table, in order to minimize injury to the patient. The pad assembly and system further has improved channels to allow for drainage of fluids that may otherwise be trapped between the patient's body and the OR Table during the surgical procedure.

When imaging a patient using a magnetic resonance (MR) imager, it is desirable to locate an radio frequency (RF) head coil at a position lower than the flat table top patient surface in order to optimize the geometry of the patient anatomy and the RF coil. A flat table top is provided for an MR patient support table (10) that includes a pocket or recessed portion (50) that accepts an RF head coil (14), thereby optimizing imaging geometry. When the RF coil is not mated to the recessed portion of the table (10) a filler insert (20) is mated therewith. This allows an operator to use the table top without the filler insert to position a neurovascular coil at an optimized location below the table top surface for brain imaging, as well as to convert the patient support table back to a completely flat top by removing the coil and installing the flat surface filler insert for additional positioning requirements. The filler insert feature allows for therapy planning using magnetic resonance with optimized image quality in a radiation therapy treatment environment.

A head restraining device is provided for securing a patient's head to a bed. The head restraining device has a frame, a lower compliant support strap, and an upper compliant support strap. The frame has a first anchor assembly, a second anchor assembly, and a connecting mechanism for connecting the frame to the bed. The compliant support straps have a first end and a second end and support a portion of the patient's head. The first end of the upper compliant support strap and the first end of the lower compliant support strap are securable by the first anchor assembly and the second end of the upper compliant support strap and the second end of the lower compliant support strap are securable by the second anchor assembly. The head restraining device may be used for any surgical procedure where head fixation is needed.

A patient examination system including a frame assembly, one or more motion-controlling assemblies connected to the frame assembly for moving one or more selected movable portions of the frame assembly, and a patient support assembly. The patient support assembly includes a seat subassembly including a seat cushion, a back subassembly, a footrest subassembly including a footrest cushion, and a cover element covering a top side of the seat cushion and an external side of the footrest cushion. The cover element has an exposed surface for engagement with the patient. The seat subassembly includes the seat cushion and is secured to the upper element of the frame assembly. The frame assembly is configured to support the seat subassembly relative to the floor in a lowered position thereof, in a raised position thereof, in intermediate seat positions therebetween, and in Trendelenburg positions.

Multiple embodiments of a modular patient positioning system for use during surgical procedures are disclosed. In one exemplary embodiment the system comprises two hinged-together pegboards that can be used to support different portions of a patient's body in different planes. Pegs can be further used to retain portions of the patient's body in desired surgical positions. Additionally, a positioning member, such as a pad or cushion may be positioned over several pegs.