A coupling that includes a male part and a female part. The male part has a distal most end, and a retaining projection having a retaining surface located proximal to the distal-most end of the male part. The female part has a retaining recess having a retaining top edge. The male part is configured to be received into the female part, and the retaining top edge of the retaining recess is configured to engage the retaining surface of the retaining projection. The male part may be connected to a medical hose and the female part may be connected to a medical device, or vice versa, wherein the medical device is a source of fluid, a thermal blanket, a pad, or a mattress.

A method for treating the lung during an acute episode of reversible chronic obstructive pulmonary disease such as an asthma attack. The method comprises transferring energy to an airway wall of an airway such that a diameter of the airway is increased. The energy may be transferred to the airway wall prior to, during or after an asthma attack. The energy may be transferred in an amount sufficient to temporarily or permanently increase the diameter of the airway. The method may be performed while the airway is open, closed or partially closed.

A body cooling system including a housing having a top portion, side portions, and a bottom portion. The top portion and the bottom portion include at least one opening. Additionally, the body cooling system includes at least one mesh layer and an absorbent layer at least partially surrounded by the mesh layer.

An ozone and contrast therapy system including an enclosure defining an interior volume, a steam system having a steam dispenser for releasing steam within the interior volume, a cold shower system having a shower head for releasing cold water within the interior volume over a user, and an ozone system having a nozzle for releasing ozone into the interior volume.

A method and system for delivering a molecule to a specific area of a tissue by controlling temperature and impedance is presented. The method is generally comprised of applying heat to a biological structure, such as cells or tissues, to heat the biological structure to a preset temperature after which at least one electroporation pulse is administered to the biological structure. Impedance is measured as a feedback control mechanism after each pulse and pulse parameters are adjusted accordingly until desired impedance is reached. The system generally comprises an electroporation system capable of generating at least one pulse, measuring impedance and measuring temperature.

A light treatment device includes a stacked structure for applying a light treatment to a patient's skin. The stacked structure includes a light source configured to emit treatment light, and a light diffusing layer. The light diffusing layer is configured to receive the emitted treatment light, diffuse the treatment light, and output diffused treatment light.

An apparatus providing heat for treatment of an eyelid includes a heater unit configured to apply heat directly to an outer surface of the eyelid when an electrical signal is applied to the heater unit. The heater unit is affixed directly to the outer surface of the eyelid using an adhesive. A temperature regulator applies the electrical signal to the heater unit in order to achieve heating of the outer surface of the eyelid to a specified temperature range. A method is also disclosed that comprises affixing a heater unit directly into contact with the outer surface of the eyelid using an the adhesive. A control signal is applied to the heater unit to generate heat to the outer surface of the eyelid and is maintained for a period of time until the outer surface of the eyelid is heated to a specified temperature range.

Apparatus and methods for treating dry eye include an energy source configured to apply energy to an obstruction located in a meibomian gland of a patient's eyelid. The apparatus also comprises an insulator configured to be positioned between a rear portion of the patient's eyelid and a surface of the patient's eyeball. An inner surface of the insulator has a curvature greater than that of the patient's eyeball such that an air pocket is formed between the inner surface of the insulator and the patient's eyeball, wherein the air pocket provides additional insulation to reduce or eliminate an amount of heat due to the applied energy from the energy source from being conducted to the surface of the patient's eyeball, such that the applied energy does not cause the temperature to reach a temperature sufficient to cause damage to a corneal or scleral portion of the patient's eyeball.

A process for recovering one or more blastocysts from a uterus of a human includes a step of placing a device transvaginally into a cervical canal of the patient; a step of delivering fluid through the device to the uterus and applying a vacuum to a uterus of the patient to aspirate fluid and entrained one or more blastocysts from the uterus; and a step of performing a biopsy procedure on the one or more recovered blastocysts to remove one or more of trophectoderm cells or inner cell mass from the recovered blastocysts. The process may further include a step of storing one or more of the biopsied trophectoderm cells or inner cell mass following the biopsy procedure and a step of performing at least one molecular diagnostic assay test on the one or more of the biopsied trophectoderm cells or inner cell mass.

In one example embodiment, a system for stimulating tissue with the application of temperature-regulated fluid and negative pressure comprises a negative-pressure source adapted to provide negative pressure to a dressing. The system may further comprise a thermoelectric module thermally coupled to a first heat exchange chamber and a second heat exchange chamber and adapted to transfer heat between said heat exchange chambers. The thermoelectric module can be further adapted to maintain a temperature-regulated fluid fluidly coupled to the first heat exchange chamber and the dressing within a predetermined temperature range by adding heat to and extracting heat from the temperature-regulated fluid as it passes through the first heat exchange chamber.