A patient positioning system configured for positioning and supporting a patient against movement, the positioning system comprising: an arm positioner configured to be positionable about an arm of the patient. The arm positioner has a triangular wedge with a planar base and an angled leg, an end of the triangular wedge of the arm positioner is located to extend between the base of the arm positioner and the angled leg of the arm positioner and configured to abut the arm of the patient. An upper flexible flap extends away from the angled leg of the arm positioner adjacent the end of the triangular wedge; and a lower flexible flap extends away from the base of the arm positioner adjacent the end of the triangular wedge. The upper flexible flap and the lower flexible flap are configured to be oppositely wrapped around the arm of the patient to snugly envelope the arm and secure it relative to the triangular wedge.

A patient securing overlay is provided that includes a sheet of fabric for supporting a patient's torso on a surgical table. The sheet of fabric has an upper surface configured to face the patient and a lower surface configured to face a surgical table mattress or underbody support. The sheet of fabric includes friction enhancing elements applied to at least a portion of the upper surface thereof. The sheet of fabric can include an extension at a foot end of the sheet of fabric that provides material to be tucked under a foot end of the surgical table mattress or underbody support for securing the foot end of the sheet of fabric to the surgical table mattress or underbody support. The extension can include one or more friction enhancing elements.

A patient support apparatus includes a litter that includes a support structure articulable between seated and supine configurations. The support structure includes a seat section and a leg section coupled to the seat section and articulable relative to the seat section around a seat axis between first and second angular positions corresponding to the seated and supine configurations, respectively. The apparatus includes a steerable wheel assembly coupled to and rotatable relative to the leg section around a steering axis, and a wheel system including a deployment frame coupled to and rotatable relative to the leg section around a pivot axis and a wheel coupled to and rotatable relative to the deployment frame around a wheel axis parallel to the seat axis. The apparatus includes a wheel deployment mechanism configured to rotate the deployment frame around the pivot axis when the leg section articulates between the first and second angular positions.

In accordance with one or more embodiments of the invention, removably attachable walker handles are presented, including a substantially ring-shaped handle portion, a walker mating portion, and a fastening mechanism, where the handles provide expanded handles, vertically and horizontally, when engaged to a standard walker. The walker handles facilitate improved posture and handling when engaged with a standard walker.

A patient positioning system configured for positioning and supporting a patient against movement, the positioning system comprising: an arm positioner configured to be positionable about an arm of the patient. The arm positioner has a triangular wedge with a planar base and an angled leg, an end of the triangular wedge of the arm positioner is located to extend between the base of the arm positioner and the angled leg of the arm positioner and configured to abut the arm of the patient. An upper flexible flap extends away from the angled leg of the arm positioner adjacent the end of the triangular wedge; and a lower flexible flap extends away from the base of the arm positioner adjacent the end of the triangular wedge. The upper flexible flap and the lower flexible flap are configured to be oppositely wrapped around the arm of the patient to snugly envelope the arm and secure it relative to the triangular wedge.

An inflatable transfer mattress includes a top panel, a bottom panel having a perimeter sealingly coupled to a perimeter of the top panel to define an internal volume therebetween, a first wedge pocket coupled to an outer surface of the top panel, and a first inflatable wedge. The internal volume is configured to receive an air flow therein. The first inflatable wedge is sized and configured to be inserted into the first wedge pocket and is configured to be transitioned from a deflated state to an inflated state. The first inflatable wedge is configured to rotate a patient to a predetermined angle with respect to the top panel in the inflated state.

A patient support apparatus includes a litter that includes a support structure articulable between seated and supine configurations. The support structure includes a seat section and a leg section coupled to the seat section and articulable relative to the seat section around a seat axis between first and second angular positions corresponding to the seated and supine configurations, respectively. The apparatus includes a steerable wheel assembly coupled to and rotatable relative to the leg section around a steering axis, and a wheel system including a deployment frame coupled to and rotatable relative to the leg section around a pivot axis and a wheel coupled to and rotatable relative to the deployment frame around a wheel axis parallel to the seat axis. The apparatus includes a wheel deployment mechanism configured to rotate the deployment frame around the pivot axis when the leg section articulates between the first and second angular positions.

A patient positioning system configured for positioning and supporting a patient against movement, the positioning system comprising: an arm positioner configured to be positionable about an arm of the patient. The arm positioner has a triangular wedge with a planar base and an angled leg, an end of the triangular wedge of the arm positioner is located to extend between the base of the arm positioner and the angled leg of the arm positioner and configured to abut the arm of the patient. An upper flexible flap extends away from the angled leg of the arm positioner adjacent the end of the triangular wedge; and a lower flexible flap extends away from the base of the arm positioner adjacent the end of the triangular wedge. The upper flexible flap and the lower flexible flap are configured to be oppositely wrapped around the arm of the patient to snugly envelope the arm and secure it relative to the triangular wedge.

In accordance with one or more embodiments of the invention, a stand up device is presented, including a substantially ring-shaped grip portion, a height adjustment tube, a frame, a securing mechanism, and a plurality of legs. The stand up device provides additional support when installed with a mattress, and facilitates getting up from, and standing up from, a bed.

A patient securing overlay is provided that includes a sheet of fabric for supporting a patient's torso on a surgical table. The sheet of fabric has an upper surface configured to face the patient and a lower surface configured to face a surgical table mattress or underbody support. The sheet of fabric includes friction enhancing elements applied to at least a portion of the upper surface thereof. The sheet of fabric can include an extension at a foot end of the sheet of fabric that provides material to be tucked under a foot end of the surgical table mattress or underbody support for securing the foot end of the sheet of fabric to the surgical table mattress or underbody support. The extension can include one or more friction enhancing elements.