An adjustable bedframe assembly for enhancing comfort and spinal alignment includes a plurality of legs that is coupled to and extends from a frame to support the frame on a substantially horizontal surface. A first plate that is coupled to a head rail and a pair of opposing side rails of the frame extends from the head rail to proximate to a midline of the pair of opposing side rails. A second plate that is pivotally coupled to the first plate extends to proximate to a foot rail of the frame so that the second plate and the first plate are configured to support a mattress. An actuator that is coupled to the second plate is positioned to selectively pivot the second plate relative to the first plate. The second plate is configured to selectively lower and raise a section of the mattress that is positioned on the second plate.

A traction apparatus develops a pull force through some or all the compressed joints of the ankles, the knees, the hips and the vertebrae of an individual, after the individual attaches to the ankles, or the waist, or the shoulders, a harness connected to suspended weights, and then positions self to rest supine over an inclinable, full length frictionless surface of full-width idler rollers, and inserts self's head's occipital portion into a crescent shaped hollow head restrainer which arrests the body's pull by the weights.

Decompression table embodiments are described that provide body weight support distributed along the body by providing a lumbar support harness as well as separate foot and leg attachment elements, Other embodiments may either alone or in combination with body weight support elements may provide elements for placing the body in a pre-stretched configuration during decompression by curving the body support portion of the table and strategically adding controlled spacing from the cervical and lumbar areas to the table surface.

A medical shelf for holding surgical instruments in a convenient location during obstetric care. The medical shelf includes a tray having pair of arms extending from opposing ends of a rear side thereof, wherein the arms can mount to an end of a birth delivery bed. In a mounted position, the tray provides a surface that can receive surgical instruments to allow a medical professional the ability to conveniently access the instruments while performing a procedure on a patient positioned on the bed. A first brace secures each arm to the tray in a perpendicular position and a second brace secures each arm in an L-shaped configuration. A lip is disposed around a perimeter of the tray. A gap is disposed between the arms to allow the medical professional positioned on a front side of the tray to access the patient positioned on the opposing side of the tray.

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.

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.

Examples of systems and methods for performing an orthopedic knee arthroplasty surgery with a robotic arm are generally described herein. A method may include awakening, using a robotic controller, a robotic arm from a parked mode to a surgical procedure mode. Moving, using the robotic controller, the robotic arm to a specified position to aid in the surgical procedure. The method may further include initiating, using the robotic controller, the surgical procedure by activating the robotic arm. In some examples, the robotic arm may be connected to a robotic base located between a first leg support configured to support a first leg of the patient during the surgical procedure and a second leg support configured to support a second leg of the patient during the surgical procedure.

Examples of systems and methods for performing an orthopedic knee arthroplasty surgery with a robotic arm are generally described herein. A method may include awakening, using a robotic controller, a robotic arm from a parked mode to a surgical procedure mode. Moving, using the robotic controller, the robotic arm to a specified position to aid in the surgical procedure. The method may further include initiating, using the robotic controller, the surgical procedure by activating the robotic arm. In some examples, the robotic arm may be connected to a robotic base located between a first leg support configured to support a first leg of the patient during the surgical procedure and a second leg support configured to support a second leg of the patient during the surgical procedure.

A patient support for use with a foundation frame is disclosed. The foundation frame includes a first column and a second column. The patient support includes a base beam, a leg support, and a guide. The base beam is coupleable to the foundation frame to be supported by the first column and the second column. The leg support has a first end pivotably coupled to the base beam and a second end spaced apart from the first end. The, guide is coupled to the base beam and to the second end of the leg support. The guide is configured to guide the second end of the leg support along an arcuate path when the leg support pivots relative to the base beam