An automatic human urine detection system comprises a control module, a urine collection module, a detection module, an output module and a cleaning module. The control module controls operation of the system and comprises an instruction input unit. The urine collecting module is used for collecting urine to be detected; the detection module comprises a detection probe holder which is used for detecting the urine to be collected and obtains a corresponding detection report according to a detection result; the output module is used for outputting the detection report; and the cleaning module is used for cleaning system components through which the urine flows or is stored in the system. The automatic human urine detection system integrates automatic collection and subsequent automatic detection of human urine, the whole urinalysis process is effectively simplified, the operation process is humanized, and the user experience is good.

An apparatus comprises a diffuser, a connection tube section forming a tubular fluid passage, a first indicating element section that indicates a measurement related to a body fluid disposed between a distal end and the connection tube section, a second indicating element section that indicates that the first indicating element section is suitable for use, and a housing having a generally tubular body. The diffuser is at least partially disposed in the generally tubular body. A fluid chamber adapted to receive fluid is cooperatively defined by the housing and the diffuser. The first indicating element section is visibly disposed in a first section of the housing. The second indicating element section is disposed within the fluid chamber. A micro-needle collector to draw the fluid from a source to the distal end is attachable to the distal end.

The various embodiments disclosed here relate to systems, methods, and devices for monitoring bladder health. Certain implementations are directed to patients who require daily catheterization. The various embodiments have at least one tube coupled to a catheter, a pressure sensor, a pump, and a processor. Certain embodiments include a digital device with a software application capable of displaying the monitored readings.

The disclosure relates to devices, solutions and methods for collecting and processing samples of bodily fluids containing cells (as well as embodiments for the collection, and processing and/or analysis of other fluids including toxic and/or hazardous substances/fluids). In addition, the disclosure relates generally to function genomic studies and to the isolation and preservation of cells from saliva and other bodily fluids (e.g., urine), for cellular analysis. With respect to devices for collection of bodily fluids, some embodiments include two mating bodies, a cap and a tube (for example), where, in some embodiments, the cap includes a closed interior space for holding a sample preservative solution and mates with the tube to constitute the (closed) sample collection device. Upon mating, the preservation solution flows into the closed interior space to preserve cells in the bodily fluid. The tube is configured to receive a donor sample of bodily fluid (e.g., saliva, urine), which can then be subjected to processing to extract a plurality of cells. The plurality of cells can be further processed to isolate one and/or another cell type therefrom. The plurality of cells, as well as the isolated cell type(s), can be analyzed for functional genomic and epigenetic studies, as well as biomarker discovery.

The present invention relates generally to the field of diapers. More specifically, the present invention relates to a vitamin testing diaper device primarily comprised of a body, further comprised of a pair of leg openings, at least one pad, and at least one testing strip. The testing strip is located on the pad. The testing strip is absorbent and impregnated with a chemical that reacts with urine such that the strip will change in color to indicate the presence of a substance in the urine. The substance may be, but is not limited to, a vitamin.

The disclosure relates to devices, solutions and methods for collecting and processing samples of bodily fluids containing cells (as well as embodiments for the collection, and processing and/or analysis of other fluids including toxic and/or hazardous substances/fluids). In addition, the disclosure relates generally to function genomic studies and to the isolation and preservation of cells from saliva and other bodily fluids (e.g., urine), for cellular analysis. With respect to devices for collection of bodily fluids, some embodiments include two mating bodies, a cap and a tube (for example), where, in some embodiments, the cap includes a closed interior space for holding a sample preservative solution and mates with the tube to constitute the (closed) sample collection device. Upon mating, the preservation solution flows into the closed interior space to preserve cells in the bodily fluid. The tube is configured to receive a donor sample of bodily fluid (e.g., saliva, urine), which can then be subjected to processing to extract a plurality of cells. The plurality of cells can be further processed to isolate one and/or another cell type therefrom. The plurality of cells, as well as the isolated cell type(s), can be analyzed for functional genomic and epigenetic studies, as well as biomarker discovery.

Methods for obtaining a sample from a subject include providing a sample collection room. Samples may be small, e.g., a finger-stick. A method is provided for sample collection comprising: obtaining, in a sample collection room, a sample from said body part of said subject; monitoring activity in the sample collection room using at least two motion capture devices positioned to view a field of interest in the sample collection room; and alerting a technician performing the sample collection if a non-conforming action by the technician is detected by at least one of the motion capture devices.

A device for determining the presence and/or quantity of one or more analytes in a sample of human body fluid has a container for receiving a sample of body fluid, with an interior that is delimited by a base and by a circumferential surface. It further comprises at least one test strip and a holding element for receiving and holding the one or more test strips. The holding element is designed such that it has a shape corresponding and adapted to the peripheral circumferential surface of the container. The device further comprises an elongate sampling element having an absorbent sampler that takes up the sample of body fluid and by means of which the sample of body fluid is transferred into the container. The sampling element can include an indicator strip for determining whether the amount of liquid sample sufficient for carrying out an assay.

The present invention generally relates to collecting, determining and/or transmitting information associated with the process of receiving bodily fluid through a device opening and/or delivering substances to a subject. In one aspect, the device includes an information collecting portion and a fluid receiving portion. In another aspect, the two portions are constructed and designed to attach to one another. In one embodiment, actuation of one of the portions causes the other portion to actuate. Methods of time keeping and information transmission are also discussed.

The present disclosure relates to devices and methods for identifying conditions in a human or animal body, such as pregnancy or ovulation. For example, the present disclosure relates to devices and methods for identifying pregnancy or ovulation, which devices and methods are adapted to mitigate the “hook effect”, thereby improving accuracy of the devices and methods.