A stretcher with a heated section, the heated section of the stretcher comprising: two opposing electrically conductive elements positioned at, or towards, opposing sides of the stretcher, wherein the opposing electrically conductive elements are connectable to a power source; an electrically conductive layer in electrical contact with the opposing electrically conductive elements, to heat up when the opposing electrically conductive elements are powered by the power source; such that the electrically conductive layer is X-ray transparent to allow a patient to be X-rayed whilst on the stretcher.

A stretcher with a heated section, the heated section of the stretcher comprising: two opposing electrically conductive elements positioned at, or towards, opposing sides of the stretcher, wherein the opposing electrically conductive elements are connectable to a power source; an electrically conductive layer in electrical contact with the opposing electrically conductive elements, to heat up when the opposing electrically conductive elements are powered by the power source; such that the electrically conductive layer is X-ray transparent to allow a patient to be X-rayed whilst on the stretcher.

Mattresses for human stabilization may include a mass of foam material. A cover including a fabric material may at least partially surrounding the mass of foam material. Head blocks including a foam material may be located proximate to one end of the mattress. The fabric material of the cover may at least partially cover the head blocks, and the head blocks may be foldable relative to the mass of foam material to enable the head blocks to be positioned against lateral sides of a person's head. Human stabilization platforms may include a litter having a surface sized and shaped to support a person thereabove. Straps may be configured to restrain a person's head, the straps having releasable connectors at ends thereof. A track may be located on the surface of the litter, and may be configured to receive the connectors to affix the straps to the litter.

A patient litter basket spin control assembly for use on a patient litter basket is provided. The assembly comprises thruster unit for discharging an air stream and is mounted on the patient litter basket. At least one sensor is associated with the thruster unit for sensing rotational movement or spin of the patient litter basket, and a power source is provided for powering the thruster unit and the sensor. A clamp member mounts on the patient litter basket and releasably receives the thruster unit. The sensors modulate the force of the air stream from the thruster unit so that the air stream counters the rotational movement of the patient litter basket to stabilize the patient litter basket by preventing the spin.

An apparatus (18) for mounting surgical rails (40, 42) to a litter (10) having a pair of parallel poles (12) includes a pair of longitudinal members (20, 22) fixed to outboard sides of respective ones of the pair of poles (12). A pair of surgical rails (40, 42) is fixed to outboard surfaces of respective ones of the pair of longitudinal members (20, 22). Clamps (24, 26, 28, 30) at each end of each longitudinal member (20, 22) fix the longitudinal members (20, 22) to the pair of poles (12). A pair of cross bars (36, 38) extend between and are fixed to opposing clamps (24, 26, 28, 30) at each end of each longitudinal member (20, 22).

A patient support apparatus, such as a bed, stretcher, cot, or the like, includes a frame, a support surface, a control, a controller, and a transceiver. The patient support apparatus employs one or more machine learning techniques to perform one or more of the following: automatically implement one or more user-preferred settings, automatically predict the occurrence of one or more events based on analyses of prior events, and/or automatically improve one or more algorithms based on analyses of additional sensor data. The machine learning techniques may be implemented onboard the patient support apparatus and/or may be implemented at a remote computer device (e.g. a server) that collates and analyzes data from multiple patient support apparatuses, and then sends the results of the analyses back to the patient support apparatuses.

A patient support apparatus, such as a bed, stretcher, cot, or the like, includes a frame, a support surface, a control, a controller, and a transceiver. The patient support apparatus employs one or more machine learning techniques to perform one or more of the following: automatically implement one or more user-preferred settings, automatically predict the occurrence of one or more events based on analyses of prior events, and/or automatically improve one or more algorithms based on analyses of additional sensor data. The machine learning techniques may be implemented onboard the patient support apparatus and/or may be implemented at a remote computer device (e.g. a server) that collates and analyzes data from multiple patient support apparatuses, and then sends the results of the analyses back to the patient support apparatuses.

A hydraulic drive unit for a stretcher has a hydraulic circuit with a differential cylinder, a pump, a tank and a valve assembly. The differential cylinder includes a rod working chamber and a piston working chamber. The valve assembly is switchable into at least a first state and a second state, wherein the rod working chamber is connected to the tank in the first state and to the pump in the second state, and wherein the piston working chamber is connected to the pump in the first state and to the tank in the second state. The tank is a tank separated from the atmosphere with a variable tank volume, so that the hydraulic circuit is configured as a closed hydraulic circuit. A stretcher having such a hydraulic drive unit is also provided.

An apparatus for mounting and securing medical/surgical devices may be attached to a litter (40), The medical/surgical devices may include. for example, IV holders (186), aspirators (144). cardiac monitors (148) , defibrillators (150) , infusion pumps 152 (152), ventilators (146) and other devices. The apparatus frame assembly (10) includes rails (12), (14), (16), (18), (20), (46), (48), (50), (52) having cross-sections of standard surgical rails, for attachment of slidable rail clamps (84), (104). Medical device mounts (108), (110), (112) are attached to the slidable rail clamps. The medical device mounts have height and/or rotational adjustment to improve patient access and view. The apparatus may be mounted longitudinally anywhere along the litter to maximize access to the patient.

A patient litter basket spin control assembly for use on a patient litter basket is provided. The assembly comprises thruster unit for discharging an air stream and is mounted on the patient litter basket. At least one sensor is associated with the thruster unit for sensing rotational movement or spin of the patient litter basket, and a power source is provided for powering the thruster unit and the sensor. A clamp member mounts on the patient litter basket and releasably receives the thruster unit. The sensors modulate the force of the air stream from the thruster unit so that the air stream counters the rotational movement of the patient litter basket to stabilize the patient litter basket by preventing the spin.