A trolley system configured to transport a patient within an MRI environment includes a patient support portion, a base portion configured for movement relative to a floor, a lift coupled to the patient support portion and the base portion, an electric motor coupled to the lift, and an electric blower coupled to the patient transfer device. The lift is configured to change the elevation of the patient support portion relative to the base portion. The motor is mounted such that the elevation of the motor is fixed relative to base portion. The trolley system is positionable adjacent an MRI apparatus within the MRI environment and the magnetic field of the MRI does not interfere with the operation of the motor or blower. The trolley system may further include a patient transfer device having an air bearing. The blower is configured to deliver air to the air bearing.

A patient trolley configured for transporting a patient to a target modality includes a top portion having a top surface and an overhang area along at least one side of the top portion, a bottom portion supporting the top portion, and a side rail coupled to the top portion for movement between a deployed position and a stowed position. The patient trolley is configured to dock adjacent the target modality such that the overhang area is capable of extending over at least a portion of the target modality. The patient trolley may be combined with a patient transfer device to facilitate transfer of a patient from the top surface of the patient trolley to the patient support surface of the target modality. Methods of docking the patient trolley adjacent a target modality and transferring a patient from the patient trolley to the target modality are also provided.

Embodiments disclosed include a person-support apparatus, which includes a mattress, a person-support apparatus frame, and a siderail. The siderail assembly may be pivotally coupled to the person-support apparatus frame. The siderail assembly includes a siderail, a drop surface, and a siderail adjustment mechanism. The drop surface is configured to be raised and lowered relative to a deck section of a person-support apparatus so as to widen or narrow the width of the deck section. The siderail adjustment mechanism has a rail end and a frame end. The drop surface is removably attached to the siderail. The rail end of the siderail adjustment mechanism is pivotally coupled to the siderail. The frame end of the siderail adjustment mechanism is pivotable relative to the person-support apparatus frame such that pivoting the siderail adjustment mechanism moves the siderail assembly between a raised position and a lowered position.

The present disclosure provides a mounting assembly for attaching medical equipment to a patient table. In one particular embodiment, the present disclosure provides a mounting assembly for attaching a magnetic field generator to a patient table. The mounting assembly allows for the secure attachment of the magnetic field generator to the patient table while also allowing for easy adjustment of the positioning and location of the magnetic field generator, even after the patient is on the table. In many embodiments the mounting assembly is comprised of a mounting apparatus that attaches directly to the patient table and first and second side rails that attach to the magnetic field generator and are configured to slidably attach to the mounting apparatus. In some embodiments, the mounting apparatus and side rails are constructed of a material that provides little or no interference with the magnetic field generator.

A method of evaluating the likelihood that an occupant will exit an occupant support comprises determining if the location of the occupant on the occupant support is displaced relative to a reference location, and if the location of the occupant is so displaced, designating that the occupant is at a risk of exiting the occupant support which is elevated relative to the baseline risk. A support apparatus comprises a framework, a mattress, sensors distributed on the support apparatus to sense occupant weight distribution on the support apparatus, and a processor adapted to designate a risk of occupant egress as a function of the direction of the occupant weight distribution and the elevation status of the perimeter panels.

The present disclosure provides a mounting assembly for attaching medical equipment to a patient table. In one particular embodiment, the present disclosure provides a mounting assembly for attaching a magnetic field generator to a patient table. The mounting assembly allows for the secure attachment of the magnetic field generator to the patient table while also allowing for easy adjustment of the positioning and location of the magnetic field generator, even after the patient is on the table. In many embodiments the mounting assembly is comprised of a mounting apparatus that attaches directly to the patient table and first and second side rails that attach to the magnetic field generator and are configured to slidably attach to the mounting apparatus. In some embodiments, the mounting apparatus and side rails are constructed of a material that provides little or no interference with the magnetic field generator.

A bed comprises a frame and a siderail assembly. The siderail assembly includes a noncollapsible siderail panel having an upper edge and a lower edge, a guide rail affixed to the panel and having an extension which extends past the lower edge of the panel, and a link rotatably mounted on the frame. The link is configured to receive the extension so that the link grips the extension but also permits translation of the guide rail relative to the link.

The present disclosure provides a mounting assembly for attaching medical equipment to a patient table. In one particular embodiment, the present disclosure provides a mounting assembly for attaching a magnetic field generator to a patient table. The mounting assembly allows for the secure attachment of the magnetic field generator to the patient table while also allowing for easy adjustment of the positioning and location of the magnetic field generator, even after the patient is on the table. In many embodiments the mounting assembly is comprised of a mounting apparatus that attaches directly to the patient table and first and second side rails that attach to the magnetic field generator and are configured to slidably attach to the mounting apparatus. In some embodiments, the mounting apparatus and side rails are constructed of a material that provides little or no interference with the magnetic field generator.

Embodiments disclosed include a person-support apparatus, which includes a mattress, a person-support apparatus frame, and a siderail. The siderail assembly may be pivotally coupled to the person-support apparatus frame. The siderail assembly includes a siderail, a drop surface, and a siderail adjustment mechanism. The drop surface is configured to be raised and lowered relative to a deck section of a person-support apparatus so as to widen or narrow the width of the deck section. The siderail adjustment mechanism has a rail end and a frame end. The drop surface is removably attached to the siderail. The rail end of the siderail adjustment mechanism is pivotally coupled to the siderail. The frame end of the siderail adjustment mechanism is pivotable relative to the person-support apparatus frame such that pivoting the siderail adjustment mechanism moves the siderail assembly between a raised position and a lowered position.

A siderail includes upper and lower siderail bodies, and a linkage assembly operatively connected thereto for guiding movement of the siderail between a deployed position and a stowed position. In the deployed position, the upper siderail body is disposed above the lower siderail body so that the siderail has a deployed height. In the stowed position, the lower siderail body is disposed at least partly laterally inwardly of the upper siderail body so that the siderail has a smaller stowed height. The linkage assembly includes: a first link pivotably connected to a frame connector; a second link pivotably connected to the first link; a third link pivotably connected to the second link and pivotably connected to the upper siderail body; and a fourth link pivotably connected to the frame connector and to the upper siderail body. The second and fourth links are ternary links that are connected to each other.