The disclosure belongs to the field of aerospace technology, and in particular relates to a method of urination and defecation in space. The method may include: forming a sealed space between a spacesuit below the waist and above the two thighs and the human skin before an astronaut urinates or defecates, and using, by the astronauts, the sealed space to urinate or defecate. The disclosure can confine the excrements in a small sealed space, and the operation thereof is simple, convenient and fast, and no excessive cost is required, and no pollution is caused in the spacesuit and the cabin, facilitating the astronauts' work in space.

Disclosed is a sensor assembly part for a base plate of an ostomy system and an associated method for operating a monitor device, wherein the sensor assembly part comprises: an electrode assembly including a plurality of electrodes, each electrode including a sensing part and a connection part, the connection part being configured to electrically couple the sensing part to a monitor device of the ostomy system; a monitor interface configured to couple the sensor assembly part to the monitor device; and a first identifier element configured to be queried by the monitor device.

Urine collection systems and associated methods and devices are disclosed herein. A representative system can include a urine collection device, a flow control assembly configured to direct a urine flow from the patient to the urine collection device, and a urine measurement device including a first sensor and a second sensor. The first sensor is configured to generate first sensor data based on a weight of the container, and the second sensor is configured to generate second sensor data based on the urine flow from the patient to the container. The system can further include non-transitory computer readable media having instructions that, when executed by one or more processors, cause the system to perform operations comprising determining a first patient urine output based on the first sensor data; and determining a second patient urine output based on the second sensor data.

An ostomy bag can include one or more sensors for measuring one or more metrics. An ostomy wafer can also include one or more sensors for measuring one or more metrics. The sensors can be temperature sensors and/or capacitive sensors, for example, and the metrics can include bag fill, leakage, skin irritation, and phase of stoma output, among others.

A medical device includes a monitor having a processor for processing data and a memory adapted to store the data, and a medical appliance attachable to skin of a user. The medical appliance includes an adhesive, an electrode assembly coupled to the medical appliance and located distal to the adhesive, a top layer coupled to the medical appliance and located distal to the electrode assembly, and a monitor interface connected to the top layer. The monitor interface includes a mechanical coupling part to mechanically attach the monitor to the medical appliance and an electrical coupling part with a terminal that electrically connects the monitor to the electrode assembly when the monitor is attached to the medical appliance.

A monitor device (6) for connecting to a sensor patch (10) of an ostomy appliance (2), the monitor device comprising; a housing (100), an electronic circuitry (101,106,124); a first interface (102) configured for collecting sensor data from the sensor patch; and a tail portion (30) comprising a proximal end (31) and a distal end (32), where the tail portion comprises one or more electrodes (43) extending from the proximal end of the tail portion to the distal end, the one or more electrodes being connected to the first interface at the proximal end of the tail portion, and the distal end of the tail portion comprising a first coupling element (33), and where the one or more electrodes are connected to the first coupling element at the distal end of the tail portion, the monitor device being adapted to couple mechanically and electrically the first interface of the monitor device to the sensor patch of an ostomy appliance for relaying signals from the sensor patch to the monitor device.

Disclosed is a sensor patch and a method for manufacturing a sensor patch for attachment to an adhesive surface of a base plate for an ostomy appliance. The sensor patch having a first side and a second side. The sensor patch being adapted to form a stomal opening with a centre point, the stomal opening being configured to allow passage of output through the stomal opening and into an ostomy pouch attached to a base plate. The sensor patch comprises: a sensor assembly comprising a plurality of electrodes, a first adhesive sensor layer forming the first side of the sensor patch, and a second adhesive sensor layer forming the second side of the sensor patch.

Examples relate to systems, devices, and methods for removing fluid from a fluid collection device using a vacuum source operably coupled thereto. The fluid collection devices include urine collection devices having shape memory material that may be selectively shaped to complement the female or male anatomy near the respective urethras.

An ostomy bag includes a textile layer bonded to the barrier film along a portion of an outer periphery of the ostomy bag.

The health support system according to a preferred embodiment includes a sensor that outputs an output signal corresponding to a specific component in urine, a transmitter connected to the sensor, and a user terminal carried by the user. The user terminal includes a storage unit that stores an identifier corresponding to the user, a wireless receiving unit that receives a wireless signal from the transmitter, an output unit that outputs the data to an analysis system that analyzes the health state of the user based on a specific component indicated by the data when the identifier indicated by the wireless signal matches the identifier stored in the storage unit, and an acquisition unit that acquires information corresponding to the results of the analysis of the analysis system.