Modules for housing electronic and electromechanical medical equipment including a system to measure and record administration of one or more IV medications or fluids for IV administration.

The invention relates to a method for reducing an amount of sub visible particles in a pharmaceutical composition contained in a medical injection device comprising a container (1) including a barrel (10) lubricated with a lubricant coating (2) in contact with the pharmaceutical composition, and a stopper (14) in sliding engagement within the barrel (10), the container comprising a region (130, 121, 123) extending distally from the distal end (100) of the barrel which is not accessible to the stopper. During formation of said lubricant coating (2) on the inner wall of the barrel, the method comprises limiting lubricant from being deposited into said region (130, 121, 123) extending distally from the distal end (100) of the barrel.

A syringe having barrel defining an outer circumferential surface, and a distal end including a non-luer tip that is not connectable to an intravenous device. The syringe barrel defines a snap-in, syringe engagement feature, adjacent to its distal end, oriented on its outer circumferential surface, which is selectively insertable within a bore of a complementary enteral collar. A proximal end of the enteral collar has a snap-in, enteral collar engagement feature, in the bore of the collar. In some embodiments, the snap-in, enteral collar engagement feature includes one or more cantilever snap joints, which engage a recess in the syringe engagement feature, upon axial insertion of the syringe tip into the bore of the collar. In some embodiments, the enteral collar engagement feature includes a discontinuous-annular snap joint. The enteral collar is sized to permit connection to an enteral device and prevent connection to a device having a luer connector.

A drug delivery device is provided herein, the device including a reservoir for containing a medicament. The medicament includes a suspension of solids in a liquid carrier. The device also includes a needle having a distal end for injection into a patient, a proximal end in communication with the reservoir, and a lumen extending between the distal and proximal ends. A path is defined from the reservoir to the distal end of the needle through the lumen, the path having an inner diameter that decreases in a proximal to distal direction along at least a portion thereof. Advantageously, with the subject invention, a flow path may be defined which provides a more gradual transition in diameter from the reservoir to a distal tip of the needle. In this manner, changes in velocity of the suspension may be less abrupt than in the prior art, thus better maintaining solid particles in the suspension.

A medical fluid suspension generating apparatus for performing medical procedures includes a Venturi-agitating tip assembly composed of a multi-channel arrangement at a proximal first end thereof and a tip at a distal second end thereof. The apparatus also includes a compressed medical fluid unit fluidly connected to the multi-channel arrangement at a proximal first end of the Venturi-agitating tip assembly and a medical solution fluidly connected to the multi-channel arrangement at a proximal first end of the Venturi-agitating tip assembly. Pressurized sclerosant or other chemical medical solution, from the compressed medical fluid unit, and the medical solution of sclerosant or other chemical medical solution are combined within the Venturi-agitating tip assembly in a manner generating an enriched medical suspension that is ultimately dispensed from the suspension delivery apparatus to spray or wash the inner wall of a lumen.

A fertility kit for performing self-insemination, comprising a package with three sets of sterilized disposable syringes and collection jars. Each fertility syringe comprises: an outer rigid tubular barrel and an inner plunger. The barrel comprises a curved distal end with a small circular distal opening, and a sealed proximal end, and an inner hollow tube housing the plunger. The barrel's proximal end also comprises two opposing circular members to fit a user's fingers; and a plunger flat end fitting in-between. The plunger distal end has a has a funnel-like shape that fits into the barrel curved end to push all the semen out while preventing a backflow. The collection jar comprises a sealable lid, and an inner surface comprising smooth seamless edges. Fresh or frozen, unwashed semen is deposited into the jar, pulled into the syringe, and administered cervically during a user's maximum monthly level of luteinizing hormone.

A device (100) having a proximal end (20) and end a distal end (40) for withdrawal of a liquid sample, fractionation, and separation of one or more fractions comprising: a piston assembly (300) comprising a piston (302) dismountably attached at its proximal end (20) to an actuating rod (350); a container (200) having a body (202) disposed with a cylindrical chamber (204) for slidable movement of the piston (302) therein; wherein the cylindrical chamber (204) is provided at the distal end (40) with a resealable septum (410) for co-operation with a puncture needle assembly (600) for withdrawal of the liquid sample, an at the proximal end (20) with a stop member (206), which stop member (206) limits movement of the piston (300) in a proximal direction, wherein the container body (202) is dimensioned to fit inside a centrifuge rotor, and is configured for breakability into two parts at a temperature of 0 deg C. or lower at a breakable zone (210).

A method of administering subcutaneous treatment to a patient is provided. The method includes delivering, by a needle-free injection device, a first volume of a treatment at a first location on a surface of a body of the patient; detecting a movement of the needle-free injection device relative to the first location; determining, from the movement of the needle-free injection device relative to the first location, a second location of the needle-free injection device relative to the first location; determining a second volume of the treatment to deliver at the surface of the body of the patient at the second location; and delivering, by the needle-free injection device, the second volume of the treatment at the second location on the surface of the body of the patient.

A method for medicine administration and tracking and system for the same that may implement the method via a health management application running on a computing device includes tracking movement of an injection pen from a start location to a dispensing location, detecting a dispensing event of medicine dispensed from the injection pen at the dispensing location, determining a location of the dispensing location relative to a user's body, associating information relating to the detected dispensing event with information relating to the determined location, and providing feedback based upon the detected dispensing event information and the determined location information.

A system includes a flow sensor contained within a flow sensor housing, a base, and a seal. The base houses a controller that generates at least one operation modification signal, and the flow sensor is separable from and mountable onto the base. A bottom surface of the flow sensor housing includes the seal. The seal forms a liquid-tight engagement between the flow sensor housing and the base when the flow sensor is mounted onto the base.