Introduced here is technology to monitor moisture levels in a hygiene product, such as tampons, pads, menstrual cups, child diapers, adult diapers etc. According to one embodiment, a moisture sensor is inserted inside a feminine hygiene product. The moisture sensor is connected to a wearable device that gathers the moisture data and sends the data to a mobile device, such as a cell phone. The cell phone generates notifications to the user, such as percentage saturation of the feminine hygiene product, message to change the feminine hygiene product, expected start and end dates of the next menstrual cycle, etc. According to another embodiment, the moisture sensor can be inserted in other hygiene products, such as child diapers or adult diapers, to measure the amount of urination, defecation, or other excretions, and to generate notifications to the user, the user's caretaker, or a third party.

An article having a conductive body, a magnetic diverter, and a communication device is described. The magnetic diverter is positioned on an outer surface of the conductive body. The magnetic diverter covers a substantial portion of the outer surface of the conductive body. A communication device is positioned on the outer surface of the diverter or may be recessed therein. The communication device is capable of signal coupling with a reader.

A smart nursing consumable includes an absorbent body and a sensor module. The absorbent body includes a water-absorbing layer. The sensor module is disposed above the water-absorbing layer and includes a plurality of wires. A physiological monitoring device employing the aforementioned smart nursing consumable is also provided.

A disposable, wearable article can be used for collecting a sample and performing urinalysis. The article incorporates a test port feature to simplify this function. The test port has a resealable cover that can be used to selectively expose an aperture through the backsheet of the disposable article. The test port is used to position test devices, such as urine test strips to urine collected in the disposable article.

A disposable diaper product useful for collecting a urine sample from an infant is disclosed. In one example the product may have a liquid control structure overlying a liquid impermeable backsheet, with a plan surface area defining a volume coextensive therewith, wherein a portion of the volume defined by at least 50 percent of the plan surface area contains no more than 50 percent by weight absorbent material. In another example the product may have a liquid control structure overlying a liquid impermeable backsheet, and have an average Liquid Release Ratio of at least 3 percent. A method for collecting a urine sample from an infant is also disclosed, in which a diaper is used for collection.

Embodiments of apparatuses and methods for determining a positioning of sensors in a wound dressing are disclosed. In some embodiments, a wound monitoring and/or therapy system can include a wound dressing and a plurality of sensors configured to measure one or more wound characteristics. The wound monitor system can also include at least one positioning device configured to indicate position and/or orientation in the wound of a sensor of the plurality of sensors. In some embodiments, a detector can be configured to determine, based on the positioning data, the position and/or orientation in the wound of the sensor of the plurality of sensors. In some embodiments, the plurality of sensors can be positioned on a strip or string of material in communication with the positioning device.

At least a method is disclosed for visualizing sensor data from a sensor monitoring a wound. The method can include: receiving senor data generated by one or more sensors monitoring a wound of a patient, the wound being covered with a wound dressing; generating a graphical representation from the sensor data; and presenting the graphical representation to a user via augmented reality so that the graphical representation is overlaid on an area proximate to the patient from a viewing perspective of the user.

An absorbent article includes: a liquid-permeable topsheet; a liquid-impermeable backsheet; an absorbent core disposed between the topsheet and the backsheet; and one or more low liquid permeation portions each of which: has a lower permeability speed of body fluid permeating from a skin side to a non-skin side of the absorbent article than a permeability speed of the body fluid in a surrounding area of the one or more low liquid permeation portions, is disposed on the non-skin side relative to a non-skin surface of the topsheet and on the skin side relative to a non-skin surface of the absorbent core, and is disposed in a central region among three equally divided regions of the absorbent core in a width direction of the absorbent article.

A dermal patch system includes a lancet with three needles and a cartridge that is configured to attach to the skin of a subject. The lancet is configured automatically move the three needles from an undeployed position to a deployed position when the lancet engages with the cartridge. The three needles are configured to puncture the skin of the subject to draw a physiological sample when in the deployed position.

At least a method is disclosed for visualizing sensor data from a sensor monitoring a wound. The method can include: receiving senor data generated by one or more sensors monitoring a wound of a patient, the wound being covered with a wound dressing; generating a graphical representation from the sensor data; and presenting the graphical representation to a user via augmented reality so that the graphical representation is overlaid on an area proximate to the patient from a viewing perspective of the user.