A one or more radiolucent pneumatic bags that are inflated and deflated to move a surgical table top portion to place a patient in a desired orientation.

Disclosed are patient positioning systems that support a patient in the prone position. A patient positioning system includes a chest bolster and one or more head supports selectively attachable to the chest bolster. The chest bolster elevates the patient's thorax and provides for gentle cervical flexion, while the one or more head supports can be attached to the chest bolster in different configurations to support the patient in a face down position or with the head turned laterally.

A method and a portable prone surgical positioning device are provided which includes: a base frame assembly having a length varying assembly; a pair of chest supporting frames for a patient to lay in prone position thereupon; a width varying assembly connected to the pair of chest supporting frames; and a curvature varying assembly, connected to the base frame assembly and the width varying assembly, operable to change a curvature of the pair of chest supporting frames.

A surgical monitoring system including a machine vision sensor, an electronic controller communicatively coupled to the machine vision sensor, the electronic controller including a processor and a memory storing a computer readable instruction set, where, when the computer readable instruction set is executed by the processor, the electronic controller, detects a position of a subject with the machine vision sensor, detects a position of a person support apparatus, compares the detected position of the subject with the detected position of the person support apparatus, and determines if the detected position of the subject and the detected position of the person support apparatus indicates that the subject is not aligned with the person support apparatus.

A face cushion includes a hollow-out portion located at a central portion of the face cushion; an inflatable portion having an inner peripheral edge located adjacent to the hollow-out portion, an outer peripheral edge, and two slit edges located between the inner and the outer peripheral edge, with an area between the inner and the outer peripheral edge being divided into a first and a second air bag; a slit section formed between the two slit edges; and a plurality of inflating connections separately connected to the first and the second air bag. The first and the second air bag are inflated alternately with gas supplied from a gas supply device to the inflatable body via different pipelines at different time points to produce on the face cushion a facial configuration similar to a patient's face, allowing different parts of the patient's face to contact with the face cushion intermittently.

This invention was developed in response to the need to move a patient from the supine (face up) position to the prone (face down) position and then back to the supine position after therapy is completed. There is the additional option to stop halfway in the lateral decubitus position for therapies which require the patient to be place on their side.

A head rest accessory for coupling to sockets provided on a bed frame of a hospital bed is provided. A frame is configured to be insertable downwardly into the sockets to couple the frame to the bed frame of the hospital bed. A head rest mount is coupled to the frame and is repositionable along the frame. A head rest is coupled to the head rest mount and includes a face rest shell. A first angle sensor is positioned along a side of the face rest shell. A second angle sensor is positioned on a head end of the face rest shell.

A head rest accessory for coupling to a frame member at a head end of a pivotable torso support section of a hospital bed is provided. A frame is configured to couple to the frame member. A head rest mount is coupled to the frame and is repositionable along the frame. A head rest is coupled to the head rest mount and includes a face rest shell. A first angle sensor is positioned along a side of the face rest shell. A second angle sensor is positioned on a head end of the face rest shell.

A surgical frame incorporating an electromagnetic-radiation imaging device, and a radiation-mitigation system for use with the surgical frame are provided. The surgical frame can be capable of reconfiguration before, during, or after surgery, and can include a main beam that can be rotated, raised/lowered, and tilted upwardly/downwardly to afford positioning and repositioning of a patient supported thereon. The surgical frame can support the electromagnetic-radiation imaging device. One of an emitter and a receiver of the electromagnetic-radiation imaging device can be positioned under the main beam of the surgical frame, and the other of the emitter and the receiver of the electromagnetic-radiation imaging device can be positioned over the main beam of the surgical frame. The radiation-mitigation system can serve to intercept/block and mitigate at least some of the scatter of the electromagnetic radiation from the emitter.

A method of rotating a subject includes arranging a lifting aid underneath the subject such that a midline of the subject is off center from a centerline of the lifting aid in a direction opposite of the rotation direction. The lifting aid includes a first loop extending in the rotation direction and a second loop extending in the opposite direction. The method further includes connecting the loops to a sling bar coupled to an overhead lift and directing the overhead lift to raise, where the subject rotates towards the direction of rotation due to the off center location of the subject. The method further includes repositioning the subject when the subject has rotated to a lateral recumbent position and directing the overhead lift to lower, thereby causing the subject to continue rotating.