The present invention is a disposable brief made of absorbent material with small amount of cellulose for good absorbance. The material has elasticity for comfort on the skin and stretch ability. The said invention was designed for full coverage to prevent any leakage from the anterior and posterior of the perinium. Velcro fastening on the lateral sides for easy removal and applying if needed. The said invention has a pocket in the front and back of the disposable material brief for the insertion of FDA approved Urine test strips for the anterior and FDA approved Guaiac paper that can be inserted in the posterior part of the brief. The brief was designed to be a funnel for testing material for early detection of urinary tract infections and gastrointestinal bleeding. Urine test strips and Guaiac paper purchased separately.

Urinary tract infections UTI may be over-diagnosed in very young children because of contamination of a urine specimen by external bacteria when using a conventional catheter. The subject matter disclosed herein relates to a coaxial catheter system and methods for its use, comprising an outer catheter that shields the distal collection opening of an inner catheter during insertion of the system through the meatus. Once the system has been deployed, the distal opening of the inner catheter is exposed in order to collect uncontaminated urine. The system may include a variety of mechanisms to advance the inner catheter relative to the outer, or to retract the outer catheter relative to the inner, a halting mechanism to limit distal movement of the outer catheter, a stopping mechanism to limit distal movement of the inner catheter, and a stabilization mechanism to hold the deployed system in place in male patients.

A system and related methods include a durable component, an indicator component including an indicator zone comprising at least one colorimetric analyte sensing element, at least one moisture sensor, and a fluid collection reservoir. The durable component contains at least one spectrophotometer, a computing system, and means for electronic communication between the computing system and at least one external device. The indicator component includes at least one colorimetric analyte sensing element and a fluid transport layer in fluid communication with the indicator zone, and it is arranged and configured for attachment to the durable component. In addition, the moisture sensor is arranged and configured to communicate the presence of moisture to initiate a predetermined delay in measuring the concentration of at least one analyte. The fluid collection reservoir is releasable from at least one of the indicator components and the durable component at a predetermined breaking point for clinical analysis.

Improved urine output collection apparatus and monitoring device features are provided. The disposable urine collection apparatus includes a collection reservoir and a diverter for controlling the flow of urine to a first passageway of the diverter in a first position and to a second passageway of the diverter in a second position, wherein the first passageway is fluidly interconnected to the collection reservoir. The disposable urine collection apparatus may include a cartridge having an internal chamber and inlet and outlet members interconnected to the cartridge, wherein the inlet member is selectively, fluidly interconnectable to the second passageway of the diverter, and wherein the outlet member is selectively, fluidly interconnectable to the collection reservoir. The monitoring device is interconnectable with the cartridge and operable to monitor a volume and/or level of urine collected within the cartridge. The cartridge may include a front portion and a reduced-width projecting portion extending rearwardly from the front portion. The projecting portion of the cartridge may be received within a recessed portion of the monitoring device. The monitoring device may include at least light source (e.g. a laser diode) for emitting a fan beam light signal into the projecting portion and a light detector array (e.g. a charge coupled device) for detection of the fan beam light signal and output of signals employable to determine a volume and/or level of collected urine.

A urine collection device suitable for female or male use. The device may be configured to the wearer and has an open cavity with one or more one way valves through which urine may flow into an enclosed cavity. The enclosed cavity comprises a valve through which collected urine may be expelled so that the device may be reused if desired.

In a method embodiment, an example method for simultaneously filling balloons with water, using an apparatus sufficiently compact to be operated while being held by hand, is disclosed. The method includes attaching the apparatus to a water supply. The apparatus includes a fitting comprising an inlet configured to connect to the water supply and a bulkhead joining the at least three branch assemblies. Each branch assembly includes a tube and an automatically-sealing balloon with a neck disposed around and removably attached to the tube. The method further includes simultaneously providing water from the attached water supply to each balloon of the balloon-filling apparatus. The method further includes detaching one or more of the balloons from the balloon-filling apparatus using a force comprising gravity each detached balloon and the water contained therein. Each detached balloon automatically seals upon detachment.

Apparatus and methods are described for use with feces of a subject that is disposed within a toilet bowl (23), and an output device (32). One or more light sensors (60, 62, 64, 66) receive light from the toilet bowl, while the feces are disposed within the toilet bowl. A computer processor (44) analyzes the received light, and, in response thereto, determines that there is a presence of blood within the feces, and determines a source of the blood from within the subject's gastrointestinal tract. The computer processor (44) generates an output on the output device (32), at least partially in response thereto. Other applications are also described.

Devices, systems, and methods are provided for monitoring or analyzing excreta of a subject using a toilet. In one embodiment, the device includes a housing mounted adjacent a toilet bowl, a urinalysis module for deploying urinalysis strips into the toilet bowl to collect a urine sample from a subject's urine stream delivered into the toilet bowl and a urinalysis sensor to acquire data from the urinalysis strip related to the urine sample, and a stool analysis module including a camera oriented into the toilet bowl to provide images of contents of the toilet bowl. In addition, the device may include a uroflowmetry module and/or a biometric identification module. One or more sensors are provided for identifying when a subject uses the toilet, and a processor activates one or more of the modules when the sensors indicate a subject is using the toilet.

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.

A floating device acting as a target for enhancing the accuracy of a urine stream. When placed inside a toilet bowl, the target provides visual stimulation and cognitive reinforcement in response to contact with urine. The target may comprise a hull with a cavity. A reactive substance may be placed in the cavity of the hull. The reactive substance may provide a visual stimulation or cognitive reinforcement when contacted by the urine stream. A top portion may be fit against the hull to retain the reactive substance in the cavity of the hull. A barrier layer may cover at least a portion of the hull and/or the top portion. The barrier layer may be semi-permeable or selectively permeable to water when contacted by a urine stream from a user.