A mobilisation module (1) for mobilising a body part of a patient comprises a body part support, a movement mechanics (4; 40) and a drive unit (6; 60). The body part support is coupled to the movement mechanics (4; 40). The movement mechanics (4; 40) is adapted to induce a controlled cadenced displacement of the body part support. The controlled cadenced displacement moves the body part support by at least 1 cm or at least 3 cm and preferably by at least 5 cm. The drive unit (6; 60) is connected to the movement mechanics (4; 40) to actuate the movement mechanics (4; 40).

A system and method are disclosed for positioning a patient on an operating table. The patient positioning system includes a positioning pad having a body formed from a compressible material including a slip-resistant surface, a first end and a second end. The body has a thickness which increases from the first end of the positioning pad to the second end of the positioning pad. A plurality of tethers is fixedly secured to the body. Each of the tethers includes a fastening member adapted to secure the body to an operating table. The body includes a transverse cut which extends transversely from one side wall of the body to an opposite side wall of the body. The system also includes a sheet positioned within the transverse cut of the body of the positioning pad spaced from the slip-resistant surface of the positioning pad and at least one strap for securing the patient to the operating table. The positioning pad may include a perforated section to mirror a perineal cutout of an operating table.

The disclosed technology relates to examination or procedure tables and chairs which can be moved into positions in more efficient and desirable ways to better meet the needs of the patient and medical service providers. In particular, a plurality of actuators which cause the seat, leg rest and foot rest of the disclosed technologies to move may, if desired, be independently programmed to provide mechanically independent movement of the seat, leg rest and foot rest to desirable positions needed to provide ease of entry or transfer by the patient to the equipment including positioning the highest portion of the seat to a home or patient entry position no more than nineteen inches from the floor.

A patient-supporting device is disclosed. The patient-supporting device includes a fastening assembly that fastens the patient-supporting device to a structural member, a support member configured to receive a body part of a patient, and a height adjustment assembly that adjusts a distance between the fastening assembly and the support member. The height adjustment assembly includes a locking assembly and an elongated member. The support member is attached to a first end portion of the elongated member. The locking assembly is stationary relative to the fastening assembly. The elongated member is guided in an aperture of the locking assembly in a longitudinal direction of the elongated member. A plurality of first snap-in recesses is disposed on a first side portion of the elongated member. The locking assembly includes a first locking member.

A method of securing a patient onto an operating table when the patient is in a position such as the trendelenburg position and apparatus therefor including a kit. A viscoelastic pad 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 viscoelastic pad has characteristics which promote a minimization of pressure forces on the patient's body, as well as promote a secure cushioning and holding of the patient in a desired position on the table, in order to minimize injury to the patient.

An elevation device used in the performance of cardiopulmonary resuscitation (CPR) and after resuscitation includes a base and an upper support operably coupled to the base. The upper support is configured to elevate an individual's upper back, shoulders and head. The elevation device also includes a chest compression device coupled with the base. The chest compression device is configured to compress the chest and to actively decompress the chest.

The present disclosure relates to a system for positioning a patient on a medical device. More specifically, the present disclosure relates to a system for aligning a patient's head, spine, and shoulders for providing radiation treatment to a head and neck area of the patient.

An adapter plane for surgical table comprising a central body having a proximal portion suitable to at least partially accommodate the lumbar region of the body of a patient and a distal portion suitable to at least partially accommodate the sacral region of the body of a patient, wherein the adapter plane can be coupled to a surgical table by placing the central body at least partially on top of the surgical table, and the central body, in the distal portion, is provided with a quick coupling device for coupling the adapter plane to one or more surgical instruments.

A method of securing a patient onto an operating table when the patient is in a position such as the trendelenburg position and apparatus therefor including a kit. A viscoelastic pad 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 viscoelastic pad has characteristics which promote a minimization of pressure forces on the patient's body, as well as promote a secure cushioning and holding of the patient in a desired position on the table, in order to minimize injury to the patient.

A patient support structure includes a pair of independently height-adjustable supports, each connected to a patient support. The supports may be independently raised, lowered, rolled or tilted about a longitudinal axis, laterally shifted and angled upwardly or downwardly. Position sensors are provided to sense all of the foregoing movements. The sensors communicate data to a computer for coordinated adjustment and maintenance of the inboard ends of the patient supports in an approximated position during such movements. A longitudinal translator provides for compensation in the length of the structure when the supports are angled upwardly or downwardly. A patient trunk translator provides coordinated translational movement of the patient's upper body along the respective patient support in a caudad or cephalad direction as the patient supports are angled upwardly or downwardly for maintaining proper spinal biomechanics and avoiding undue spinal traction or compression.