This document discusses, among other things, patient monitoring systems, apparatus, and methods that change the operation of an ambulatory medical device (AMD) using geographic location information.

A patient bed is provided in a healthcare facility having a network including a real time locating system (RTLS) and an electronic medical records (EMR) computer. The patient bed includes bed control circuitry that is configured to receive at least one protocol messages from the EMR computer and, in response to the at least one protocol message, enables at least one bed safety protocol in which at least one bed condition is monitored by the bed control circuitry. The bed control circuitry generates an alert in response to the at least one bed condition being in an undesirable state and no caregiver being present in the patient room as determined by the RTLS and communicated to the bed circuitry. The bed control circuitry suspends monitoring the at least one bed condition in response to the RTLS indicating to the bed control circuitry that at least one caregiver is present in the patient room.

A patient bed is provided in a healthcare facility having a network including a real time locating system (RTLS) and an electronic medical records (EMR) computer. The patient bed includes bed control circuitry that is configured to receive at least one protocol messages from the EMR computer and, in response to the at least one protocol message, enables at least one bed safety protocol in which at least one bed condition is monitored by the bed control circuitry. The bed control circuitry generates an alert in response to the at least one bed condition being in an undesirable state and no caregiver being present in the patient room as determined by the RTLS and communicated to the bed circuitry. The bed control circuitry suspends monitoring the at least one bed condition in response to the RTLS indicating to the bed control circuitry that at least one caregiver is present in the patient room.

This document discusses, among other things, patient monitoring systems, apparatus, and methods that change the operation of an ambulatory medical device (AMD) using geographic location information.

A patient bed is provided in a healthcare facility having a network including a real time locating system (RTLS) and an electronic medical records (EMR) computer. The patient bed includes bed control circuitry that is configured to receive at least one protocol messages from the EMR computer and, in response to the at least one protocol message, enables at least one bed safety protocol in which at least one bed condition is monitored by the bed control circuitry. The bed control circuitry generates an alert in response to the at least one bed condition being in an undesirable state and no caregiver being present in the patient room as determined by the RTLS and communicated to the bed circuitry. The bed control circuitry suspends monitoring the at least one bed condition in response to the RTLS indicating to the bed control circuitry that at least one caregiver is present in the patient room.

Techniques are provided that enable displaying of medical images that depict cyclic motions in the subject. An X-ray CT system scans, with X-rays, the subject whose targeted region is experiencing a cyclic motion and acquires detection data. This X-ray CT system comprises a reconstruction processor, a moving image creator, and a display controller. The reconstruction processor generates a plurality of sets of volumetric data based on a plurality of sets of detection data that have been acquired during one cycle of the cyclic motion. The moving-image creator creates a moving image that shows the cyclic motion, on the basis of at least a part of the plural sets of volumetric data. The display controller superposes the moving image over an image based on the volumetric data and displays these images on the display unit.

A display device in a monitored-person monitoring system according to the present invention is a device for a monitored-person monitoring system in which each of a plurality of monitored persons is sensed and the plurality of monitored persons is monitored, the device receiving and displaying monitoring information on the monitored person. While a monitoring information display screen expressing the monitoring information on a certain monitored person among the plurality of monitored persons is displayed, even if the monitoring information on another monitored person who is different from the certain monitored person is received, the display of the monitoring information display screen expressing the monitoring information on the certain monitored person is continued as long as a predetermined input manipulation has been accepted.

A system for predicting exit from an occupant support, includes a processor, a memory in communication with the processor, and a frame having at least one force sensor which outputs a force signal in response to force exerted thereon. The system also includes machine readable instructions stored in the memory which cause the system to perform at least the following actions when executed by the processor: 1) determine a property of the signal during an interval of time, 2) classify the property as suggesting an exit event or as not suggesting an exit event, and 3) if the property is classified as suggesting an exit event, generate a notification thereof.

A display device in a monitored-person monitoring system according to the present invention is a device for a monitored-person monitoring system in which each of a plurality of monitored persons is sensed and the plurality of monitored persons is monitored, the device receiving and displaying monitoring information on the monitored person. While a monitoring information display screen expressing the monitoring information on a certain monitored person among the plurality of monitored persons is displayed, even if the monitoring information on another monitored person who is different from the certain monitored person is received, the display of the monitoring information display screen expressing the monitoring information on the certain monitored person is continued as long as a predetermined input manipulation has been accepted.

The invention provides a system for characterizing a patient undergoing hemodialysis, featuring: 1) a body-worn biometric sensor, worn on a single location of the patient, and featuring: i) sensing elements for measuring electrocardiogram (ECG), thoracic bio-impedance (TBI), photoplethysmogram (PPG), and phonocardiogram (PCG) waveforms; ii) a processor for collectively analyzing the ECG, TBI, PPG, and PCG waveforms to determine a set of physiological parameters; and iii) a first wireless transceiver configured to transmit the set of physiological parameters; 2) a gateway system comprising a second wireless transceiver configured to receive the set of physiological parameters; and 3) a data-analytics system configured to analyze the set of physiological parameters to determine the patient's status.