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.

A positioning system for a surgical mask utilizing an adjustable leg that is positioned on a mirror by way of a series of orifices. The adjustable leg includes a handle rotatably confined by the mirror orifice to raise and lower the surgical mask.

A system for testing sutures includes a test bench having a rotatable table, a framework supporting the test bench and the rotatable table above a surface, and a continuous passive motion (CPM) machine mounted on the rotatable table. The CPM machine is configured to rotate between a first position in which the CPM machine is upright and located above the rotatable table and a second position in which the CPM machine is inverted and located below the rotatable table. The system includes a fluid supply subsystem for directing an infusion fluid toward the CPM machine, a pump for circulating the infusion fluid in the fluid supply subsystem, a heat exchanger for heating the infusion fluid, a fluid collection tray located below the CPM machine and the rotatable table, and a pressure monitoring subsystem for monitoring a pressure level of the infusion fluid.

A positioning frame for supporting a patient to facilitate different surgical approaches to the spine includes a main support beam, first and second support structures, a torso-lift support, and a pelvic-tilt support. The main support beam has a first end, a second end, and a length extending between the first and second ends. The main support beam defines an axis of rotation relative to at least a first support structure and a second support structure, and the axis of rotation substantially corresponds to a cranial-caudal axis of the patient when the patient is supported on the positioning frame. The first and second support structures support the main support beam, and space the main support beam from the ground. The torso-lift support is attached to the main support beam, and is configured to pivot a chest support plate between at least a first position and a second position to move the torso of the patient between an unlifted position and a lifted position. The pelvic-tilt support is attached to the main support beam, and is configured to support the thighs and the lower legs of the patient. Portions of the pelvic-tilt support are pivotal with respect to one another to facilitate adjustment of the hips of the patient.

A surgery apparatus includes a resilient foam pillow having an arrangement of labeled tabs for holding lines leading to/from a patient during and after surgery. A central cutout area in the pillow accommodates the patient's eyes, nose and mouth when in the prone position. Left and right channels in the foam pillow extend from a top edge of the pillow to the central cutout area for holding a breathing tube system. The foam pillow further includes a removably attachable chest support and opposite shoulder supports. A multipurpose holder device for placement on the patient's head has an arrangement of straps for securing an eye shield, a bite block and ventilator tube securing straps on the patient during surgery.

A head stabilization system including a head restraint mechanism and a head harness configured to engage a head of a patient. The head restraint mechanism is configured to be operatively disposed on a patient support device and includes a generally vertically upstanding arcuate tilt guide. The head harness is releasably attachable to and at least partially supported by the head restraint mechanism. The head harness is selectively repositionable generally vertically relative to the tilt guide. The head restraint mechanism is configured to stabilize the head harness relative to the patient support device. The head restraint mechanism is configured to selectively allow lateral flexion of a neck of the patient, lateral rotation of the head of the patient, and extension and flexion of the neck of the patient.

A controller for positioning a patient utilizing an inflatable device is provided. The inflatable device may include three independently inflatable chambers. The controller may include first, second, and third pressure output ports; first, second, and third pressure sensors; a plurality of electro-mechanical switches; an electronic user interface; an computer; a pressurized air input port; and an atmospheric air port. The plurality of electro-mechanical switches may be configured to independently control air flow through the first, second, and third pressure output ports. The first, second, and third pressure sensors may be configured to measure pressure internal to the first, second, and third pressure output ports, respectively. The computer may be configured to receive first, second, and third pressure signals from each of the first, second, and third pressure sensors, respectively; to control each of the plurality of electro-mechanical switches; and communication with the user through the electronic user interface.

An adapter plane for a 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 supporting system is provided for a patient in a prone position, especially for patients that are intubated and/or mechanically ventilated. The supporting arrangement ensures proper posture of the patient so as to prevent damages caused by prolonged lying in the prone position. The arrangement includes a kit of separate modules (10 - 40, 50sx, 50dx - 90sx, 90dx) for containing, pushing, supporting, and unloading distinct body segments of the patient’s body. The modules are freely positionable and orientable with respect to one another on an external supporting surface, such as a mattress. The supporting arrangement provides for a sub-arrangement intended for supporting the patient’s head and comprises modules for the head (10 -40) which make it possible to effectively support the user’s head in a neutral position as well as in a position turned to the side.