Embodiments of the invention are directed to flush syringe assemblies comprising an integrated contamination-prevention device integrated with device connector flushing positioned so that the practitioner cannot forget to apply disinfectant. The flush syringe assemblies comprise a barrel with an elongate plunger rod disposed therein and a cap comprising a passageway. The plunger rod includes a stopper of which at least a portion can be embedded in the passageway of the cap to form a plug in the cap.

A method in which a nerve associated with a spasticity in a limb of a patient may be identified. The cryogenic cooling needle may be inserted through a skin surface. The cryogenic cooling needle may be positioned to a target tissue such that the distal end of the cryogenic cooling needle is proximate to the nerve by bending the needle, wherein the needle has varying stiffness at a proximal portion and a distal portion. A treatment cycle may be delivered to a target tissue proximate to the nerve, the treatment cycle may comprise a cooling phase wherein cooling fluid flows into the lumen so that liquid from the cooling fluid flow vaporizes within the lumen to provide cooling to the nerve so as to treat spasticity.

In some embodiments, data sensed and/or operational parameters used during a catheterization procedure are used in the motion frame-rate updating and visual rendering of a simulated organ geometry. The organ geometry is rendered as a virtual material using a software environment (preferably a graphical game engine) which applies simulated optical laws to material appearance parameters affecting the virtual material's visual appearance, as part of simulating a scene comprising the simulated organ geometry, and optionally also comprising simulated views of a catheter probe used for sensing and/or treatment. Optionally, measurements of and/or effects on tissue by sensing and/or commanded probe-tissue interactions are converted into material appearance changes, allowing dynamic visual simulation of intra-body states and/or events based on optionally non-visual input data. In some embodiments, physiology, motion physics, and/or other physical processes are simulated based on live inputs as part of associating material appearance properties to the simulated tissue's geometry.

Devices, systems, and methods that may be used to controllably deliver alcohol to a subject using an inhaler, wherein the inhaler may include a housing having a flow channel coupled to an ethanol-containing inhalant reservoir, an actuator configured to facilitate release of the inhalant, a constituent sensor, and a control unit. The control unit may accept parameters associated with the subject, create an inhalant delivery regime, and control operation of the actuator based at least partially on a sensed constituent level to facilitate release of an ethanol-containing inhalant from the reservoir into the flow channel in accordance with the regimen.

A method of delivering a medication or a pharmaceutical product to a patient includes operations of activating an active mesh of an active mesh nebulizer, the active mesh being in contact with a liquid formulation of the medication, and configured to generate a plume of particles having a particle diameter between 1 and 6 micrometers, directing the plume of particles to a mouth of a patient during an inhalation by a patient; and stopping the plume of particles during the inhalation by the patient such that a substantial majority, or nearly all, of the plume of particles is inhaled by the patient.

A method of delivering a medication or a pharmaceutical product to a patient includes operations of activating an active mesh of an active mesh nebulizer, the active mesh being in contact with a liquid formulation of the medication, and configured to generate a plume of particles having a particle diameter between 1 and 6 micrometers, directing the plume of particles to a mouth of a patient during an inhalation by a patient; and stopping the plume of particles during the inhalation by the patient such that a substantial majority, or nearly all, of the plume of particles is inhaled by the patient.

In some embodiments, data sensed and/or operational parameters used during a catheterization procedure are used in the motion frame-rate updating and visual rendering of a simulated organ geometry. The organ geometry is rendered as a virtual material using a software environment (preferably a graphical game engine) which applies simulated optical laws to material appearance parameters affecting the virtual material's visual appearance, as part of simulating a scene comprising the simulated organ geometry, and optionally also comprising simulated views of a catheter probe used for sensing and/or treatment. Optionally, measurements of and/or effects on tissue by sensing and/or commanded probe-tissue interactions are converted into material appearance changes, allowing dynamic visual simulation of intra-body states and/or events based on optionally non-visual input data. In some embodiments, physiology, motion physics, and/or other physical processes are simulated based on live inputs as part of associating material appearance properties to the simulated tissue's geometry.

A liquid injectable pharmaceutical drug product consisting of no less than 99 percent ethanol comprised of no less than 99 percent ethanol active pharmaceutical ingredient with a volume of at least 0.05 mL to be injected into a patient as a method of ablating/lysing cells.

A stand-alone chamber or multi-chamber inhalation system has at least two alternative vaporized test liquid supply systems for passive or self-administered delivery of vaporized test fluid and air to one or more test chambers, which can be passive or restraint chambers, based on operator selection of delivery on and off times in a passive mode or actuation of an actuator in the chamber by a test animal in a self-administered mode. In one case, a multiple inhalation chamber system has two or more separate test fluid delivery systems and provides options for selective passive uniform drug delivery to multiple chambers or selective delivery of two or more different drugs to different groups of chambers from different delivery systems so that two different drugs or different concentrations of delivered drugs can be tested simultaneously.

A stand-alone chamber or multi-chamber inhalation system has at least two alternative vaporized test liquid supply systems for passive or self-administered delivery of vaporized test fluid and air to one or more test chambers, which can be passive or restraint chambers, based on operator selection of delivery on and off times in a passive mode or actuation of an actuator in the chamber by a test animal in a self-administered mode. In one case, a multiple inhalation chamber system has two or more separate test fluid delivery systems and provides options for selective passive uniform drug delivery to multiple chambers or selective delivery of two or more different drugs to different groups of chambers from different delivery systems so that two different drugs or different concentrations of delivered drugs can be tested simultaneously.