A fail-safe release mechanism for use with patient positioning support apparati having a base structure and a patient support structure, to prevent collapse of the patient support during disconnection of the patient support structure from the base structure.

A surgical frame and method for use thereof is provided. The surgical frame is capable of reconfiguration before, during, or after surgery. The surgical frame includes 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 also includes a reconfigurable upper leg support for supporting portions of the upper legs, the hips, and the lower back of the patient to facilitate positioning and repositioning there during surgery. The upper leg support via reconfiguration thereof can accommodate patients of different sizes, can provide flexure of the patient's lumbar spine to facilitate surgical access thereto, and can prevent unwanted torsion of a patient's spine during such reconfiguration.

A boot stirrup for use with a surgical table is provided. The boot stirrup includes a support arm, a surgical boot, and a lockable joint coupled to the support arm and the surgical boot. The support arm is configured to couple to a surgical table for movement about a plurality of axes relative to the surgical table. The surgical boot is configured to support and/or immobilize the foot and leg of the patient. The lockable joint is configured to selectively permit movement of the surgical boot relative to the support arm.

A fail-safe release mechanism for use with patient positioning support apparati having a base structure and a patient support structure, to prevent collapse of the patient support during disconnection of the patient support structure from the base structure.

A patient support system includes independently adjustable end columns supporting a centrally hinged, jointed or breaking patient support structure. At least one column includes a powered rotation assembly. The patient support includes at least two sections. A coordinated drive system provides for both upwardly and downwardly breaking or jointed orientations of the two sections in various inclined and tilted positions. Cable, cantilevered and pull-rod systems are included.

A patient support system includes independently adjustable end columns supporting a centrally hinged, jointed or breaking patient support structure. At least one column includes a powered rotation assembly. The patient support includes at least two sections. A coordinated drive system provides for both upwardly and downwardly breaking or jointed orientations of the two sections in various inclined and tilted positions. Cable, cantilevered and pull-rod systems are included.

An extension foot sleeve is formed with an L-shaped foot-receiving shell having an external adapter block for arranging on an operating table and having quick-release clasps and detent tabs for securing a patient's foot. The foot sleeve makes it possible to easily clamp a patient's foot without turning it in the L-shaped foot-receiving shell and without moving cushioning material laterally, and also reliably prevents an accidental release of the quick-release clasps or undesirable contact between the operating team and same. The quick-release clasps are arranged in pairs to the right and left on side edges of the foot-receiving shell in an edge region of the L angle close to the heel and in an edge region of the upper end of the foot-receiving shell. The extension foot sleeve is associated with clamps having detent tabs on both sides, which can be inserted in parallel into the quick-release clasps.

A patient support apparatus is defined that includes a patient support having one or more pads for supporting a patient's torso and hip in a generally horizontal orientation. At least one, elongated leg support extends from the patient support. The leg support is movable through a generally horizontal plane. A portion of the leg support is declinable and inclinable from the horizontal plane. A traction device is connected to the leg support. The traction device is attachable to a patient's leg and operable to exert a traction force on the patient's leg along an axis of the traction device. The traction device is connected to the leg support by a slide assembly and the traction device can be secured stationary relative to the leg support or the traction device can slide relative to the leg support.

A shoulder hold-down is provided for use in securing at least a shoulder of a patient in position relative to a surgical frame. The shoulder hold-down includes a locking mechanism that is adjustable to afford positioning of a shoulder engaging portion for contacting the patient. The locking mechanism facilitates at least four (4) modes of adjustment to position the shoulder engaging portion relative to the patient.

A surgical underlay pad to secure a patient's torso while in a Trendelenburg position, the pad comprised of a flexible substrate with an adhesive gel coat on one or more sides of the substrate having a shear strength such that when the pad is positioned on an operating table surface and the table is tilted, the pad and the torso positioned on the pad resist sliding. The gel coat can be applied as a continuous coating or in a variety of patterns. The pad is removable and the gel coat forms a water resistant bond with the operating table surface. The gel coat reduces the overall mass of the pad, and is cost effective, easier to manufacture, and produces less environmental waste.