A handheld cryoanesthesia or analgesia device for cooling a target area on cutaneous membranes, mucous membranes, and tissue of the mucocutaneous zone having an elongated body and a thermoelectric cooling system disposed within the elongated body. The thermoelectric cooling system is configured to physically contact and thermally couple the target area of the cutaneous membranes, mucous membranes, and tissue of the mucocutaneous zone to induce cryoanesthesia or analgesia. The thermoelectric cooling system includes a thermally-conductive cold tip, a thermally-conductive cooling power concentrator thermally coupled to the cold tip, at least one Peltier unit module thermally coupled to the cooling power concentrator, a heatsink thermally coupled to at least one Peltier unit module, a power source, at least one thermal sensor, and a controller operably outputting a control signal to the Peltier unit module to maintain a predetermined temperature.

Embodiments of the devices described herein are directed to a vein imaging system which adds user protection, variable positioning, and portability to an established imaging modality, near infrared (NIR) videography and videogrammetry.

Methods and devices for delivering an agent to a solid tissue in vivo for assessment of efficacy are described. One method involves withdrawing of a needle from and injecting of the agent into the solid tissue; another method involves delivering the agent using a plurality of microdialysis probes to a solid tissue.

Embodiments of the invention provide devices, systems, and methods that precisely identify a minimum of one predetermined spot which is hidden under a skin. The system comprises a locator device and corresponding implanted target device. The port locator device preferably comprises one magnet with north and south magnetic pole, a body and a suspending component. The body may utilize specific geometry which improves accuracy. The implanted target device may include at least one magnet and at least one target or a plurality of targets and at least one magnet. Various configurations can be provided that precisely identify a single spot or a plurality of spots which are hidden under a skin.

A carrier assembly and related sterile kits are disclosed. The carrier assembly is configured to be used with a sensor assembly for determining a characteristic of a human body. The carrier assembly comprises a frame member comprising a sidewall defining a central opening configured to receive at least a portion of the sensor assembly and laterally extending wing members hingedly attached at a proximal end thereof to the sidewall of the frame member. The laterally extending wing members each comprise a cavity proximate a distal end thereof and configured to receive a magnet. Related kits and systems are also disclosed.

An apparatus and method for creating a three dimensional imaging system is disclosed. There is a first source of laser light and a second source of laser light having a wavelength different from the wavelength of the laser light of the first source. The laser light from the first and second sources are combined, and the combined laser light is transmitted to a scanner. The scanner further transmits the combined light to a surface to be imaged.

A portable vein viewer apparatus may be battery powered and hand-held to reveal patient vasculature information to aid in venipuncture processes. The apparatus comprises a first laser diode emitting infrared light, and a second laser diode emitting only visible wavelengths, wherein vasculature absorbs a portion of the infrared light causing reflection of a contrasted infrared image. A pair of silicon PIN photodiodes, responsive to the contrasted infrared image, causes transmission of a corresponding signal. The signal is processed through circuitry to amplify, sum, and filter the outputted signals, and with the use of an image processing algorithm, the contrasted image is projected onto the patient's skin surface using the second laser diode. Revealed information may comprise vein location, depth, diameter, and degree of certainty of vein locations. Projection of vein images may be a positive or a negative image. Venipuncture needles may be coated to provide visibility in projected images.

A skin-patch type medicament delivery device (10, 30, 50) comprises a housing (11) containing a medicament delivery mechanism (12) including an injection needle (13). An adhesive surface (19) is provided for securing the housing (11) to a patient's skin during a medicament delivery process. A sterilizing mechanism is connected to the housing (11) and thus integrated into the device, and comprises a pad (18) impregnated with sterilizing agent which contacts the skin once the housing (11) is secured to a patient, and which can, respectively has to be moved in a swiping action across the injection site to sterilize the latter before the needle insertion and drug administration can be performed.

Systems and methods for mitigating the formation of heterotopic ossification lesions by delivering a neuromuscular inhibitor employ a delivery device to distribute injection of the neuromuscular inhibitor. A delivery device for delivering the neuromuscular inhibitor can include an injector body, a device body for spacing the injector body from a target delivery location, and a plurality of needles; or can include an injector guide having multiple guide holes and an injector needle for delivering the neuromuscular inhibitor via the guide holes.