Biological chemicals, potentially found in blood are measured by collecting sweat and determining the concentration or meaning of the selected chemical in sweat. The sweat can be collected using a time based, interval collector and analyzed using an external device. It can also be collected on a one time basis, using a flexible, chemical capacitor, or on a continuous basis using a chemical, field effect transducer.

A system for transdermal alcohol sensing to be worn near a skin surface of a user, including: an alcohol sensor; a microporous membrane; a housing coupled to the alcohol sensor and the membrane, defining a volume between the alcohol sensor and a first membrane side, and fluidly isolating the volume from a second membrane side opposing the first membrane side; an electronics subsystem electrically coupled to the alcohol sensor, operable to power and receive signals from the alcohol sensor; and a fastener operable to position the second membrane side proximal the skin surface.

Disclosed herein are devices for measuring sweat that are substantially clogging free, having low dead volumes, and allowing a quick sensory response. Also disclosed herein are methods of making and using such devices.

A detection apparatus detects at least one chemical species in the sweat of a human or animal subject, the at least one chemical species being selected from the group consisting of nitrogen oxide NO, nitrite ion NO2— and hydrogen peroxide H2O2. The apparatus has a collection element that is intended to be positioned in an investigation zone of an epidermis of the subject, and a detection device has at least one fluid circuit that is coupled to the collection element in order to direct at least one flow of sweat from the investigation zone and an electrochemical sensor having electrodes that are arranged in the fluid circuit, the electrochemical sensor being configured to produce a signal that represents a concentration of the at least one chemical species in the flow of sweat and a signal that represents a flow speed of the flow of sweat.

Detection devices, systems, and methods include those for detecting analytes (e.g., volatile organic compounds (VOCs) and/or other chemical substances) from a target area of a subject's anatomy (e.g., a subject's skin, a wound on a subject, etc.). In some cases, a detector may have a detecting component that includes an analyte sensitive material applied to a substrate. The detector may be used with a pump. The detector may include a hydrophobic, gas permeable material configured to limit liquid reaching the analyte sensitive material, while allowing analytes in gaseous fluid to reach the analyte sensitive material.

Biological chemicals, potentially found in blood are measured by collecting sweat and determining the concentration or meaning of the selected chemical in sweat. The sweat can be collected using a time based, interval collector and analyzed using an external device. It can also be collected on a one time basis, using a flexible, chemical capacitor, or on a continuous basis using a chemical, field effect transducer.

A sweat collection system includes a sweat collection device configured to be adhered to the skin of a user to collect sweat for storage, extraction, and analysis. The sweat collection device includes a flexible body having a first, outwardly facing surface and a second, skin-facing surface, and a sweat collection channel formed in the body and having a first end defining a sweat inlet port, and a second end defining a sweat outlet port. A biochemical assay well is formed in the sweat channel, and a dye is disposed therein and is positioned to react with sweat in the sweat channel and to provide an indicator of the flow of the sweat in the sweat channel. The sweat collection device is affixed to the skin to determine a total volume of sweat collected over a known period, and a graph of sweat volume over time is plotted to determine a sweat rate.

The present invention provides a dermal patch for selectively retaining one or more analyte(s) from a body of a subject comprising: a membrane layer (101) for retaining one or more analyte(s) from a body of a subject, with a first and a second side, wherein the first side is adapted to be in fluid communication with the skin of the subject; optionally holding means for securing the membrane layer in place; an adhesive layer (104); and a backing layer; wherein between the backing layer and the membrane layer (101) there is an expandable layer (103) for applying pressure to the membrane layer.

The application relates to a chemical monitoring system comprising a skin patch for detecting an analyte in perspiration and a processor adapted to receive parameter data and to return an output indicative of a presence of an analyte in a subject's body based on the parameter data. The skin patch (100) includes a first layer (105) permeable to perspiration; a second layer (110) coupled to the first layer, the second layer being adapted to receive the perspiration; wherein a property of the second layer changes upon receiving the analyte; an electrical detector coupled to the second layer, adapted to detect parameter data indicative of the property of the second layer; and a flexible electronic circuit (140) coupled to the second layer, comprising a readout circuit for reading parameter data from the electronic detector and a transmitter adapted to transmit the parameter data to a processor.

A sweat sensing system comprises a mesh for location over a sweat surface on which sweat is formed or collected, and a vibration system for vibrating the mesh to nebulize sweat droplets. The nebulized sweat droplets are condensed on a sensing surface, and a sweat sensor performs biomarker sensing of the sweat at the sensing surface.