A system and method for integrating and synchronizing an automated mechanical cardiopulmonary resuscitation (CPR) device with components of cardiac catheterization laboratories so as to enhance the efficacy of each intervention. Synchronization can include image gating so that a monitor shows real time images during relaxation of the CPR, and a static image during compression of the CPR.

A portable electronic fluid dispensing system can provide pre-filled, pre-primed IV bag assemblies comprising therapeutic fluids. The same fluid line and connector in the IV bag assembly can be used to fill the IV bag as is used to withdraw fluid from the IV bag and infuse such fluid into the patient. The connection points along the IV assembly, such as the connection between the IV bag and a drip chamber, or between an IV bag and tubing, or between a drip chamber and tubing, or between tubing and a closeable, resealable connector, can each be resistant to disconnection by a user. The healthcare practitioner at the patient care site is not required to attach any of these components to each other, and the healthcare practitioner at the patient care site is not required to introduce a spike into a spike port on the IV bag.

A container includes an upper opening portion, a holder, which is placed in the container, for holding at least one medical device, and a gas non-permeable film for sealing the opening portion. The holder includes a basal plate portion having a plate shape, a plurality of tubular portions protruding downwardly from the basal plate portion, a plurality of stays formed around each of the plurality of tubular portions and connecting another of the plurality of tubular portions, and a support rod protruding downwardly from the basal plate portion and having a length longer than the plurality of tubular portions. The support rod is arranged such that a medical device housed in each of the plurality of tubular portions is not adapted to contact a bottom surface of the container, or another holder adjacent to the holder when the holder and the another holder are stacked.

A container includes an upper opening portion, a holder, which is placed in the container, for holding at least one medical device, and a gas non-permeable film for sealing the opening portion. The holder includes a basal plate portion having a plate shape, a plurality of tubular portions protruding downwardly from the basal plate portion, a plurality of stays formed around each of the plurality of tubular portions and connecting another of the plurality of tubular portions, and a support rod protruding downwardly from the basal plate portion and having a length longer than the plurality of tubular portions. The support rod is arranged such that a medical device housed in each of the plurality of tubular portions is not adapted to contact a bottom surface of the container, or another holder adjacent to the holder when the holder and the another holder are stacked.

A needleless connector and methods for preventing microbial ingress in medical device connections are disclosed. Various examples provide a needleless connector including a male luer having a recessed distal tip surface containing a water-soluble antimicrobial composition. Further examples include a trap for retaining antimicrobial composition. As the needleless connector is inserted into a female connector, a tapered surface distal edge acts to push microorganisms, while the distal tip surface is configured to leave microorganisms undisturbed. After insertion of the needleless connector, microorganisms present on the female luer surface are biased to reside in the recess region. The recess, trap, and antimicrobial composition are configured to facilitate a long-lasting supply of antimicrobial solution within the fluid-filled recess, at the same time confining the antimicrobial solution inside the recess. This produces a high concentration of antimicrobial solution for an extended time, killing microbes, stopping microbial ingress, and preventing infections in patients.

To provide a packaged medical device which is hard to cause a variation in the fixed states of the medical devices. Specifically, provided is a packaged medical device comprising a container having an opening portion, a medical device housed inside the container, and a gas impermeable film sealing the opening portion by heat-sealing, in which the inside of the container is set to a negative pressure to the atmospheric pressure and the medical device is pressed by the gas impermeable film.

A fluid delivery system is disclosed which comprises at least one supply station for supplying at least one fluid, a pressurizing unit for pressurizing said at least one fluid, an inlet fluid circuit in fluid communication with said at least one supply station and with a pump module of said pressurizing unit and an outlet fluid circuit in fluid communication with said pump module for discharging the fluid from the chamber. The chamber is provided with a piston reciprocating therein, thereby defining first and second variable-volume sub-chambers. The fluid delivery system further comprises a recirculation fluid circuit fluidically connecting said first and second variable-volume sub-chambers, and an actuator associated to said recirculation fluid circuit for managing the passage of said at least one fluid between said first and second variable-volume sub-chambers in both directions. A method of operating the fluid delivery system is also disclosed.

A container holder assembly for a medicament delivery device is provided having a container holder and a needle assembly, where the container holder has a distal tubular body for receiving a multi-chamber container therein, the distal tubular body comprising a distal body engaging structure on an external surface configured to movably engage an actuator device of the medicament delivery device in order to releasably connect the container holder to the actuator device, and a proximal tubular part having a proximal body engaging structure connected to the needle assembly, where the needle assembly has a hub having an injection needle with a distal needle end and a proximal needle end, the distal needle end being isolated from the multi-chamber container when the multi-chamber container is received in the distal tubular body. A medicament delivery device having a container holder assembly is also provided.

A number of variations may include a sterile kit that may include a tray constructed and arranged to hold the necessary items to access an Ommaya reservoir and the tray may define a plurality of other resources or indentations constructed and arranged to seat, hold, or house additional components of the sterile kit. The sterile kit may additionally include a paper towel, a fenestrated drape, a plurality of sponge applicators, at least one pouch of povidone-iodine, at least one retractable winged butterfly needle, at least one luer lock syringe, a 3-way stopcock, a plurality of collection vials with tops which may be screwed on to prevent the contents thereof from leaking or escaping, sterile pads, bandages including adhesive bandages, and other components.

A method for performing a medical procedure requiring effective, reliable and foolproof delivery of controlled amounts of a medical grade gas to a patient includes providing a compressed gas cylinder having a weight with medical grade gas sealed therein of at least twelve grams and not greater than fifty grams. The method also includes connecting the compressed gas cylinder to an integrated compressed gas unit including a regulator valve assembly positioned between an outlet port and an inlet port, wherein the regulator valve assembly includes a press button actuator and regulator adjustment dial. A flow control system is secured to the compressed gas unit and the medical grade gas is delivered in precisely controlled amounts by actuating the compressed gas unit and operating the flow control system to deliver the medical grade gas to vasculature of the patient.