A test strip container includes: an accommodating member in which a test strip is accommodated; a moving member moving the test strip therein; a door member opening and closing at a side surface of the accommodating member to discharge the test strip out of the accommodating member, and cutting the interior and the exterior of the accommodating member off from each other when closed; a door accommodating portion covering the door member, in which the door member can open and close; and a discharge opening cutting the interior and an exterior of the door accommodating portion off from each other when closed, and is provided at the door accommodating portion so as to open and close to discharge the test strip to the exterior of the door accommodating portion, the discharge opening being able to open when the accommodating member is closed by the door member.

The current invention concerns a sample vial for receiving a liquid cell sample, to be used in conjunction with a digital holographic microscope (DHM), said sample vial comprises at least two compartments in fluid connection with one another, said compartments comprising at least one pair of screening surfaces, said screening surfaces are essentially flat; and characterized in that the distance between the pair of screening surfaces of the second compartment is smaller than the distance between the pair of screening surfaces of the first compartment. In a second and third aspect, the current invention pertains to a method and system for analyzing a liquid cell sample by DHM, employing the sample vial of the current invention.

Systems and methods for tracking healing progress of multiple adjacent wounds are provided. In one embodiment, a system may include a processor configured to receive a first image of a plurality of adjacent wounds near a form of colorized surface having colored reference elements, determine colors of the plurality of wounds, correct for local illumination conditions, receive a second image of the plurality of wounds near the form of colorized surface, to determine second colors of the plurality of wounds in the second image, match each of the plurality of wounds in the second image to a wound of the plurality of wounds in the first image, and determine an indicator of the healing progress for each of the plurality of wounds based on changes between the first image and the second image.

A dispensing device for holding and dispensing strip-like objects, like test strips for analyzing a sample of bodily fluid, wherein the dispensing device holds a stack of strips. The dispensing device includes a container portion for holding the stack of strips and a dispenser portion for dispensing strips from the dispensing device, one at a time. The dispenser portion includes a movable element for applying a rotation motion to a strip to be dispensed from a first orientation, in which the strip is enclosed in the dispensing device, to a second orientation, in which the strip is at least partially exposed.

A vial and insert assembly includes a vial having an interior and an opening leading to the interior. The assembly further includes an insert configured to fit within the interior. The insert includes a first receptacle for housing a plurality of unused products and a second receptacle for housing a plurality of used products.

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 collector-analyzer apparatus for urine has a urine collecting tube joined with a urine receiving 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 or resident within the canister. 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 between the urine tube and the urethra.

A body fluid test system includes a test chip, an image capturing device, a moving mechanism for test tube and at least one fluid transfer device. The image capturing device is for capturing image of the test chip. The moving mechanism includes a base and a test tube carrier. The test tube carrier is movably disposed on the base. The test tube carrier is for carrying at least one test tube. One end of the fluid transfer device corresponds to the top of the test tube carrier, and another end of the fluid transfer device corresponds to the test chip. The test tube carrier is movable upwardly from a pre-testing position to a testing position. When the test tube carrier is at the testing position, the fluid transfer device is for transferring a body fluid sample contained in the at least one test tube to the test chip.

Interchangeable inserts are provided for a storage container configured to receive a plurality of vertically oriented items, where the inserts include a body having a base, an upper surface having an upper opening, and an upstanding tubular sidewall extending between the base and the upper surface. The base and the tubular sidewall together define an interior space of the insert. The tubular sidewall has an inner surface and an outer surface, where a pair of resilient securing tabs extend laterally from the outer surface of the tubular sidewall. The securing tabs frictionally engage the storage container for releasably coupling the insert to the storage container. Further, the insert has a first vent opening extending through the tubular sidewall through which air can enter the interior space of the body.

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.