A patient support apparatus includes a frame having a supporting surface. A transmitting element is coupled to the frame. A surface assembly is selectively positioned on the supporting surface. The surface assembly includes a surface selectively enclosing an interior. A controller is communicatively coupled to the transmitting element. A sensor assembly is coupled to the surface assembly. The sensor assembly includes a sensor configured to sense information about at least one of the surface assembly and a person positioned on the surface assembly. A receiving assembly is operably coupled to the surface assembly and the sensor assembly. The receiving assembly is configured to selectively interact with the transmitting element via a charging interface to power the sensor assembly.

A system includes a patient support apparatus that has one or more therapies. The therapies are optionally available depending on the acuity of the patient. A request for enablement of a therapy is transferred to a service provider for approval and, when approved, the therapy is enabled by the service provider. The patient support apparatus may be in communication with a server that is in communication with multiple patient support apparatuses so that the server is operable to selectively enable therapies on various patient support apparatuses.

According to the present disclosure, a microclimate system includes a topper and an air box. The topper is configured to conduct air along a surface of the topper so that heat and moisture from a patient lying on the topper are drawn away from the surface. The air box includes a blower coupled to the topper to provide air to the topper to be conducted along the surface of the topper. The air box may also include an environmental sensor unit coupled configured to detect environmental information corresponding to the environment around the microclimate system.

A patient support apparatus includes a support surface including a topper. An opening is formed in a side of the support surface. A cavity extends from the opening into the support surface. An inlet port is positioned within the cavity and fluidly coupled to the topper. A pneumatic blower is configured to removably position within the cavity and has an outlet port that couples to the inlet port.

Introduced are methods and systems for monitoring a person's sleeping patterns, and detecting episodes of sleeping disorders such as snoring and sleep apnea. In one embodiment, a sensor strip attached to the mattress monitors the user's breathing, and detects signature frequencies corresponding to snoring and sleep apnea. Once a sleeping disorder is detected, a notification can be sent to a device associated with the user, or the user's bed can be automatically adjusted to alleviate the sleeping disorder.

The described apparatuses, devices, and mechanisms are configured to measure the temperature of one or more Abreu brain thermal tunnel (ABTT) terminuses. In addition, some embodiments are configured to provide treatment for the diagnosed conditions and diseases.

A patient support apparatus includes a frame having a supporting surface. A transmitting element is coupled to the frame. A surface assembly is selectively positioned on the supporting surface. The surface assembly includes a surface selectively enclosing an interior. A controller is communicatively coupled to the transmitting element. A sensor assembly is coupled to the surface assembly. The sensor assembly includes a sensor configured to sense information about at least one of the surface assembly and a person positioned on the surface assembly. A receiving assembly is operably coupled to the surface assembly and the sensor assembly. The receiving assembly is configured to selectively interact with the transmitting element via a charging interface to power the sensor assembly.

Introduced are methods and systems for monitoring a person's sleeping patterns, and detecting episodes of sleeping disorders such as snoring and sleep apnea. In one embodiment, a sensor strip attached to the mattress monitors the user's breathing, and detects signature frequencies corresponding to snoring and sleep apnea. Once a sleeping disorder is detected, a notification can be sent to a device associated with the user, or the user's bed can be automatically adjusted to alleviate the sleeping disorder.

An example method includes capturing images using a camera and detecting a medical device in a first image among the images. A request is transmitted to the medical device. Based on transmitting the request, the example method includes determining that the medical device has output a chirp signal in a second image among the images. Based on the chirp signal, the method includes causing the medical device to perform an action by transmitting a control message to the medical device.

The present disclosure provides systems and methods for adjusting a bed device. The systems and methods comprise an adjustable bed frame. The adjustable bed frame comprises one or more zones, each of the one or more zones comprising one or more adjustable sections. Each of the one or more adjustable sections is configured to independently adjust at least one angular position thereof relative to a rest position, to incline or decline said one or more adjustable sections. The systems and methods further comprise a processor. The processor is communicatively coupled to the adjustable bed frame. The processor is configured to direct the adjustable bed frame to independently adjust the at least one angular position of said each of the one or more adjustable sections based on one or more of a biological signal of at least one user or an instruction from said at least one user. Said processor is configured to compare current biological signal data of the at least one user with historical biological signal data of the at least one user to detect a discrepancy. The discrepancy is indicative of a sleep abnormality selected from the group consisting of snoring, sleep apnea, restless leg, and combinations thereof. Based on the detection of the discrepancy, the processor sends a control signal to the adjustable bed frame to adjust the at least one angular position.