A device for selectively connecting mobile medical equipment, such as an IV pole, to a patient transport platform such that the medical equipment and patient transport platform can move together, thus providing a patient mobility while maintaining the patient's connection to the mobile medical equipment and therefore eliminating the necessity to disconnect an existing medical equipment (such as IV pole) and transfer the patient to a new medical equipment, while also allowing monitoring of patient movement and activity via electronics in the device.

A system for automatically assessing orthostatic hypotension for a patient supported on a patient support apparatus. The system receives position data identifying a first position of a patient supported on a patient support apparatus, and after a delay, receives vital signs data of the patient. The system receives position data identifying a second position of the patient supported on the patient support apparatus, and after a delay, receives vital signs data of the patient. The system determines an orthostatic hypotension assessment based on a difference in the vital signs data between the first and second positions. Based on the orthostatic hypotension assessment, the system modifies one or more conditions on the patient support apparatus to mitigate a risk for patient fall.

A system for automatically assessing orthostatic hypotension for a patient supported on a patient support apparatus. The system receives position data identifying a first position of a patient supported on a patient support apparatus, and after a delay, receives vital signs data of the patient. The system receives position data identifying a second position of the patient supported on the patient support apparatus, and after a delay, receives vital signs data of the patient. The system determines an orthostatic hypotension assessment based on a difference in the vital signs data between the first and second positions. Based on the orthostatic hypotension assessment, the system modifies one or more conditions on the patient support apparatus to mitigate a risk for patient fall.

A support apparatus for a person includes a main cushion having a bottom surface, a top surface to form a support surface for a person supported on the main cushion, and a length having a perimeter that has longitudinal and lateral sides extending around the perimeter. In addition, the support apparatus has at least one sleeve located along one of the sides of the man cushion. The sleeve is configured between a stowed state, where the sleeve is closely adjacent to the one side, and a deployed state, where the sleeve forms an extension of the top surface of the main cushion to thereby increase the width or the length of the support surface.

Infusion pumps having a fluid pump and a processor are disclosed. The processor is configured to transmit a signal to make a medical facility network aware that the infusion pump is within a wireless network range of a medical treatment area of a medical facility, receive a request for device identity information specific to the infusion pump, transmit the device identity information specific to the infusion pump, receive, if the infusion pump is authenticated by the medical facility network, an initialization signal from the medical facility network, wherein the initialization signal causes initialization of the infusion pump within the medical treatment area, receive, from a sensor via the medical facility network after receiving the initialization signal, a measurement, and control the adjustable rate of the fluid pump based at least in part on the measurement. Systems having infusion pumps are also disclosed.

Infusion pumps having a fluid pump and a processor are disclosed. The processor is configured to transmit a signal to make a medical facility network aware that the infusion pump is within a wireless network range of a medical treatment area of a medical facility, receive a request for device identity information specific to the infusion pump, transmit the device identity information specific to the infusion pump, receive, if the infusion pump is authenticated by the medical facility network, an initialization signal from the medical facility network, wherein the initialization signal causes initialization of the infusion pump within the medical treatment area, receive, from a sensor via the medical facility network after receiving the initialization signal, a measurement, and control the adjustable rate of the fluid pump based at least in part on the measurement. Systems having infusion pumps are also disclosed.

Systems, devices and methods are described for mounting medical equipment on IV poles, bed rails and other supporting structures in medical facilities including operating rooms and critical care sections. A system including a mounting hanger and corresponding equipment housing is disclosed that allows quick mounting and dismounting of equipment from a supporting structure. The novel structural design of mounting hanger including a symmetrical t-slot feature and a plunger lock allows a piece of equipment to be mounted on a supporting structure in multiple orientations as per the requirement which allows a user to optimize the placement of equipment in the medical environment.

A system for use with a bed having a frame and a supporting surface includes a sheet having a bottom surface placed above the supporting surface of the bed, a top surface, and a plurality of tether straps connected to and extending from the sheet. Each tether strap is configured for connection to the bed. The bottom surface is at least partially formed of a low friction material, and the top surface is at least partially formed of a high friction material, such that the top surface provides greater slipping resistance than the bottom surface. The tether straps include at least two pairs of tether straps, with one pair connected proximate a top edge of the sheet and another pair connected proximate a bottom edge of the sheet. The sheet may further include a sliding member on the bottom surface to assist in lateral sliding of the sheet.

A patient support apparatus comprises a plurality of load cells, a frame supported on the load cells, a mattress, a vibration sensor, and a control system. The mattress includes a plurality of inflatable zones positioned on the frame, the mattress and frame cooperating to direct any patient load through the mattress and frame to the load cells. The control system includes a controller operable to receive a separate signal from each of the plurality of load cells and the vibration sensor and process the signals to identify motion of the patient.

A patient support apparatus comprises a plurality of load cells, a frame supported on the load cells, a mattress, a vibration sensor, and a control system. The mattress includes a plurality of inflatable zones positioned on the frame, the mattress and frame cooperating to direct any patient load through the mattress and frame to the load cells. The control system includes a controller operable to receive a separate signal from each of the plurality of load cells and the vibration sensor and process the signals to identify motion of the patient.