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.

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 generally to devices, systems, and methods for diagnosis and treatment via laser-treated skin and, more particularly, to devices, systems, and methods for inducing leakage or rupture of one or more blood vessels comprising the dermis for various diagnostic and therapeutic applications. Other aspects of the present disclosure can include methods for detecting one or more target analytes in a dermis of a subject, methods for facilitating skin-to-blood delivery of agent in a subject, and methods for collecting a fluid sample from the dermis of a subject.

A microfluidic device for non-invasively and passively accessing interstitial fluid from a patient includes a substrate containing multiple vertical micro channels therethrough, wherein at a first end of each of the multiple vertical micro channels a microheater is formed for controllably ablating a portion of dry dead skin cells to access the interstitial fluid; and wherein at a second end of each of the multiple vertical micro channels is a horizontal micro channel for receiving accessed interstitial fluid from a vertical micro channel and guiding the accessed interstitial fluid to a common collection port.

An arrangement for producing a sample of body fluid from an opening created in a skin surface at a sampling site including a cartridge with a plurality of compartments and a plurality of sampling sites, and a detector assembly. Each sampling site includes a skin-penetration member having a first end configured to pierce the surface of the skin and an inner lumen in communication with the first end, a spring actuator operatively associated with the skin-penetration member, and a needle hub connecting the skin-penetration member and the spring actuator. The needle hub includes a reagent pad and the spring actuator is configured to drive the skin-penetration member to form the wound opening. Each compartment at least partially encloses the skin-penetration member, the spring actuator, and the needle hub of a respective sampling site.

An arrangement for producing a sample of body fluid from a wound opening created in a skin surface at a sampling site includes: a housing, the housing comprising a first opening; a skin interface member disposed in the first opening, the skin interface member comprising an inner member having a second opening, and an outer member at least partially surrounding the inner member and attached to the first opening; and at least one skin-penetration member configured and arranged to project within the second opening. Arrangements having alternatively constructed skin interface members are also described.

A smart tourniquet includes a casing having a control unit; a contact area arranged to the casing, configured to contact a patient's skin, and connected to the control unit; a cuff arranged to the casing with an inflatable bladder; an adjustable strap arranged to the cuff for securing the cuff and casing to the patient; a pump contained in the casing, connected to the bladder, and controlled by the control unit; a thermoelectric module contained in the casing, controlled by the control unit, and connected to the contact area; and at least one sensor contained in the casing for detecting blood pulse and controlled by the control unit. The control unit is configured to inflate and deflate the bladder in response to blood pulse for changing a pressure around an arm or leg and to heat the contact area for vasodilating a vein under the patient's skin for visual detection.

Devices are provided to automatically access blood from beneath or within skin. These devices include an injector configured to drive a needle into the skin and subsequently to retract the needle from the skin. These devices additionally include a seal to which suction is applied. To drive the needle into the skin, the needle is first driven through the seal, creating at least one hole in the seal. The suction applied to the seal acts to draw blood from the puncture formed in the skin by the needle, through the at least one hole in the seal, and to a sensor, blood storage element, or other payload. These devices can be wearable and configured to automatically access blood from skin, for example, to access blood from the skin at one or more points in time while a wearer of a device is sleeping.

An arrangement for producing a sample of body fluid from a wound opening created in a skin surface at a sampling site includes: a housing, the housing comprising a first opening; a skin interface member disposed in the first opening, the skin interface member comprising an inner member having a second opening, and an outer member at least partially surrounding the inner member and attached to the first opening; and at least one skin-penetration member configured and arranged to project within the second opening. Arrangements having alternatively constructed skin interface members are also described.

A heat pack using supercooled aqueous salt solution that resists premature activation at low temperatures is disclosed. The heat pack comprises two sheets that are bonded together to form a laminated sheet. The heat pack has a first and second compartment. A frangible seal separates the two compartments. One of the compartments contains a supercooled aqueous salt solution. The salt solution contains 15 to 25 percent glycerin by mass.