An attachment arrangement has a housing and a needle located within the housing. The arrangement allows administration ports of different sizes to be inserted into and secured within the housing. In certain embodiments, compliant retainers secure the administration port within the housing. In certain other embodiments, the administration port is secured within the housing when the housing is compressed against the administration port by a housing compression element. Once the administration port is secured within the housing, a fluid-tight seal is formed between the attachment device and the administration port.

A delivery system of a portable delivery device, using a chamber with three connections structure (10) arranged on the upper housing (1) as a buffer channel for the flow passage of the drug fluid from the external syringe into the reservoir (6) and from the reservoir (6) into the infusion needle; and the structures on the upper, the lower housings (1), (4) and the needle seat (2) accommodating the infusion needle mate with each other sophisticatedly ensuring the compactness of the delivery device and enabling the patient to control the position of the infusion needle safely and conveniently at the same time; in additional, the needle seat cover (7, 8) which covers the needle seat (2) enhances the safety of using the infusion needle. The delivery system of a portable delivery device has advantages of small size, sophisticated structure, simple operation, safety guarantee.

A delivery system of a portable delivery device, using a chamber with three connections structure (10) arranged on the upper housing (1) as a buffer channel for the flow passage of the drug fluid from the external syringe into the reservoir (6) and from the reservoir (6) into the infusion needle; and the structures on the upper, the lower housings (1), (4) and the needle seat (2) accommodating the infusion needle mate with each other sophisticatedly ensuring the compactness of the delivery device and enabling the patient to control the position of the infusion needle safely and conveniently at the same time; in additional, the needle seat cover (7, 8) which covers the needle seat (2) enhances the safety of using the infusion needle. The delivery system of a portable delivery device has advantages of small size, sophisticated structure, simple operation, safety guarantee.

An apparatus (110) includes an activation mechanism (20) and a safety latch (122). The activation mechanism is operative to deploy a needle (116) to protrude out of a housing (112), the needle (116) having a longitudinal axis. The safety latch (122) is movably mounted on the housing (112) and formed with a needle opening (129) to allow the needle (116) to pass therethrough. The safety latch (122) has a first position wherein the needle (116) is aligned to pass through the needle opening (129) and a second position wherein the safety latch (122) is moved with respect to the housing (112) such that the needle (116) is blocked from movement in a direction parallel to the longitudinal axis thereof by a portion of the safety latch (122) distanced from the needle opening (129).

A method of predicting peak pressure within a fluid path, which includes a tubing set and a catheter into which at least one fluid is introduced under pressure by a pressurizing system of a fluid injection apparatus, includes (a) inputting an initial injection protocol into the fluid injection apparatus according to which the at least one fluid is intended to be introduced into the fluid path; (b) predicting an expected peak pressure level that would result in the fluid path if the initial injection protocol were to be used as intended to introduce the at least one fluid into the fluid path. The expected peak pressure level is determined before commencement of the initial injection protocol according to at least one model on the basis of a flow rate of the at least one fluid, at least one catheter characteristic, and a viscosity of the at least one fluid. The at least one model is determined experimentally for a plurality of fluids of different viscosities, for a plurality of catheters of different catheter characteristics, and for at least one tubing set of like kind to the tubing set of the fluid path.

A method of predicting peak pressure within a fluid path, which includes a tubing set and a catheter into which at least one fluid is introduced under pressure by a pressurizing system of a fluid injection apparatus, includes (a) inputting an initial injection protocol into the fluid injection apparatus according to which the at least one fluid is intended to be introduced into the fluid path; (b) predicting an expected peak pressure level that would result in the fluid path if the initial injection protocol were to be used as intended to introduce the at least one fluid into the fluid path. The expected peak pressure level is determined before commencement of the initial injection protocol according to at least one model on the basis of a flow rate of the at least one fluid, at least one catheter characteristic, and a viscosity of the at least one fluid. The at least one model is determined experimentally for a plurality of fluids of different viscosities, for a plurality of catheters of different catheter characteristics, and for at least one tubing set of like kind to the tubing set of the fluid path.

Disclosed are various embodiments for illuminated medical infusion including, for example, a medical infusion system which includes a source of illumination and an illuminating infusion line and wherein the illuminating infusion line includes an integrated fluid transmission channel and light transmission channel.

A protective cover type safety device for syringes includes a first buckle seat, a second buckle seat which can be engaged with the first buckle seat, and a protective cover which is pivotably connected with the first buckle seat. The first buckle seat and the second buckle seats are clamped and positioned to a needle seat of a syringe, and the protective cover is able to swing between a first position and a second position, and limited at a third position. The protective cover at the third position covers a needle body of the syringe to prevent the needle body from being exposed or piercing or hurting people.

A liquid transfer device is provided having a trifurcated body that includes a vial adapter at a first end configured to telescopically mount on the crown of an IV bottle to puncture a stopper in the crown with a cannula, an IV port extending from an opposing second end of the trifurcated body, and a needleless self-sealing port extending from a third end of the trifurcated body and configured to couple with the male connector of an additive transfer device. Methods of using the liquid transfer device with an IV bottle, additive transfer device, and an infusion set to prepare an infusion liquid for administration to a patient are also provided.

A manual infusion set comprises a top connector lockable in a plurality of positions. The top connector and tubing is initially loaded from the top and then slid forward in order to puncture the septum. Once the connector is attached, it cannot be rotated. With the connector locked in place, flexible tubing connects the septum hub with a medicine pump, which continually supplies medicine such as insulin to a user.