An incontinence detection system monitors an area for moisture events and wirelessly transmits moisture-related information to one or more notification devices. The system has a pad that includes a substrate and one or more sensors supported by the substrate. The sensor(s) emit wireless signals indicative of the moisture-related information. A sensor event communication system forwards the sensor signals to another device, such as a notification device. Portions of the system are included in a patient support apparatus, such as a bed.

A combined apparatus for indicating the elevated temperature of an infant and for sensing moisture in a diaper. The combined apparatus includes an elongated sensing strip made of highly efficient liquid absorption and transfer capillary wick material having a first end disposed in engagement with the diaper. The elongated sensing strip has a first side having a pair of screen-printed, spaced apart conductive ink bands which couple electrically at one end with a portable alarm unit and a second side having an elongated band of thermochromic ink printed thereon a segment of which is visible proximate the second end of the elongated sensing strip.

Absorbent articles with biodegradable and/or biocompostable elements are disclosed, wherein the absorbent articles include sensors. The sensors detect and determine variables associated with collected fluids, solids, and gases, including a presence of fluids, solids, and gases, a volume of fluids, solids, and gases, and/or a distribution of fluids, solids, and gases. In one embodiment, the sensors and/or connected computing systems are calibrated to capacities and other properties of elements within the articles, including superabsorbent polymers, and are operable to trigger an alert based on detected or determined conditions.

A method for collecting and analyzing urine at the time it is released uses a urine collecting tube joined with a canister. Suction is produced in the collecting tube to join the tube with a penis or to the exterior surface of a female urethra orifice. Once suction is achieved the collecting tube stays in place by suction action. When urine flows into the urine collecting tube a sensor triggers a vacuum pump to produce a higher level of suction to flush the urine into the canister where a level sensor determines the quantity of urine received. Various sensors in the canister determine levels of non-urine partials such as occult blood, drugs, salt, and other substances. When urine is no longer detected within the urine tube, the vacuum pump is turned off and a low-level vacuum remains to assure interconnection with the urine tube.

A hygiene monitoring system comprising: a hygiene monitoring device, the hygiene monitoring device comprising a housing with an identifier-obtaining component; and a station for receiving the hygiene monitoring device, the station comprising: a securing component configured to receive and hold the housing at a defined location relative to the station; and a station identifier configured to provide an identifier to the identifier-obtaining component when the housing of the hygiene monitoring device is received by the securing component of the station.

The systems and methods described herein combine both moisture and electromyograph (EMG) sensors in a single wearable garment, along with a suitable output device such as a “smart” mobile device or computer, to provide users with new and useful feedback that can significantly improve incontinence symptoms. The EMG provides feedback to the user specifically regarding the quality of pelvic floor muscle contractions, while the moisture sensor provides feedback about the “end result” of the subjects' incontinence. Each measurement device alone can also provide useful information and feedback to different population groups. Combining these two measurements provides unprecedented data to enhance the subjects' therapy in managing urinary incontinence.

An incontinence detection system monitors an area for moisture events and wirelessly transmits moisture-related information to one or more notification devices. The system has a pad that includes a substrate and one or more sensors supported by the substrate. The sensor(s) emit wireless signals indicative of the moisture-related information. A sensor event communication system forwards the sensor signals to another device, such as a notification device. Portions of the system are included in a patient support apparatus, such as a bed.

Sensor devices and systems for monitoring the basic needs of an infant comprising feeding, sleeping, and/or voiding (urinating and/or defecating) are described herein.

A notification system is provided that provides notification of patient events such as movement and/or incontinence. The notification system provides for a plurality of different pressure sensor pads as well as an incontinence pad to be used in association with a single monitor.

The present invention relates to a combination of sensors, a system and a method for monitoring incontinence and physiological parameters. The system includes a plurality of electrodes on an absorbent article including an absorbent core to be worn by a wearer being monitored, a device for electrical connection with the electrodes and for monitoring one or more electrical properties of the electrodes indicative of the occurrence of an incontinence event, an oxygen saturation sensor for monitoring the oxygen saturation of the blood of the wearer, and wherein the operation of the oxygen saturation sensor is controlled according to the body position of the wearer.