Medical device assemblies capable of aspirating liquid into a syringe barrel or other medical devices while evacuating any air from the syringe are described. An exemplary medical device includes a syringe barrel, plunger rod and stopper assembly having an air permeable and liquid impermeable porous portion and structure for forming a vacuum within either the stopper or the plunger rod. Described is a medical device including a syringe barrel, plunger rod and stopper assembly having an air permeable and liquid impermeable porous portion and structure for forming a vacuum within chamber between the stopper and plunger rod wherein the plunger rod includes a sealing edge and is moveable relative to the stopper. Exemplary medical devices may include a vent for allowing air that permeates through the porous portion to escape to atmosphere. Methods for aspirating a syringe barrel with a liquid are also provided.

The present disclosure relates to a device (1) for sampling and/or injection of a radioactive solution (S) in a vial (2), wherein the vial (2) comprises an opening closed by a puncturable closure member (3). The device (1) comprises a container (7) adapted to receive said vial (2) and a vial adaptor (4), said vial adaptor (4) having a longitudinal axis (L1), provided at a first end (41) with a hollow spike (42) adapted to pierce said puncturable closure member (3) when the vial adaptor (4) is mounted on the vial (2), and at a second end (43) with connection means (5) adapted for its removable connection to a syringe (6), the container (7) comprising: a container body (71) adapted to receive said vial (2), the container body (71) having an opening (711), and a vial adaptor support structure (72) configured for being mounted onto the opening (711) of the container body (71), and comprising retention means configured for enabling releasable retention of said vial adaptor (4) within said vial adaptor support structure (72), and wherein the vial adaptor support structure (72) and the container body (71) are made at least partially of a radioprotective material for providing protection against ionizing radiation.

A filling aid. The filling aid includes a needle housing portion including at least one tab having a starting position and a filling position, and a filling needle cradle including a filling needle, the filling needle cradle slidable connected to the needle housing portion and having a starting position and a filling position, wherein when the at least one tab on the needle housing moves from a starting position to a filling position, the filling needle cradle slides from a starting position to a filling position, and wherein when the at least one tab on the needle housing moves from a filling position to a starting position, the filling needle cradle slides from a filling position to a starting position.

A system for compounding medications. The system includes one or more compounding devices, and a central computer system. The central computer system receives requests, at least some of which require the compounding of one or more medications, and pushes assignments of respective compounding tasks to the one or more compounding devices. The assignments are made in accordance with a set of rules designed to promote efficient use of compounding resources.

A method for preparing for preparing a solution comprising a plurality of particles in a vial is disclosed. The method includes agitating the vial at a first predetermined mixing speed. The method also includes dispersing, into the vial, during the agitating, a first volume of buffer solution at a first predetermined dispensing rate to suspend the plurality of particles in the solution, wherein particles of the plurality of particles comprise a unique identifying feature.

An apparatus for delivering fluid from a fluid container comprises a housing to which a fluid container is attachable, a slider movably disposed in the housing and a resilient having a first end connected to the housing and a second end connected to the slider. Upon receiving an external force, the slider moves relative to the housing from a first position toward a second position to deform the resilient member from an original state to a deformed state, and upon release of the external force, the resilient member is allowed to resume to the original state to move the slider toward the first position to urge the slider against the fluid container to deliver fluid from the fluid container under a constant fluid flow rate.

A fluidic group (21) couplable to a first container (24) adapted to contain a drug and a second container (22) adapted to contain an ingredient, comprising: a syringe (154) comprising a movable piston (150) defining a chamber (162a) having a variable volume; a first (171, 172) and a second (25) coupling group selectively fixable to the second (22) and, respectively, to the first (24) container; a forking element (166) having a first (166′), a second (166″) and a third (166′″) inlet in fluid communication with each other and, respectively, with the first coupling group (171, 172), with the second coupling group (25) and with the chamber (162a); a first one-way valve (168) interposed between the first coupling group (171, 172) and the forking element (166) and controllable to allow the passage of the ingredient from the second container (22) to the chamber (162a); and a second one-way valve (176) interposed between the second coupling group (25) and the forking element (166) and controllable to allow the passage of the ingredient from the chamber (162a) to the first container (24).

A device for filling and priming syringes is provided and comprises a support base, an engagement seat defined on the support base to receive a rear end of a syringe barrel of a syringe provided with a sliding plunger, engaging means defined at the engagement seat to cooperate with the syringe barrel for firmly holding the syringe to the engagement seat, a first vacuum pump or compressor which is provided with a suction opening communicating with the engagement seat to generate an under-pressure in the volume comprised between the plunger and the engagement seat when the syringe is firmly engaged in the engagement seat, and a second vacuum pump or compressor which is provided with a discharge opening communicating with the engagement seat to generate an over-pressure in the volume comprised between the plunger and the engagement seat when the syringe is thinly engaged in the engagement seat.

An insulin storage and dispensing system for housing a standard insulin bottle and securely keeping the bottle in place when using a syringe to access the port on the top of the bottle to fill the syringe while providing accessibility in the form of a convenient mounting assembly for mounting on a refrigerator, an interior cabinet door or wall.

A manufacturing method of two-chamber type combined container-syringe including: a vacuum plugging process (S2) of eliminating air bubbles from the dissolving solution of the dissolving solution-filled cartridge and sealing the dissolving solution with a middle stopper after the dissolving solution filling process (S1); a vacuum plugging process (S2) has a first cooling processing (S21) of cooling the inside of a vacuum plugging equipment in which a dissolving solution-filled cartridge is disposed to a cooling temperature that does not freeze the dissolving solution, a first decompression processing (S23) of decreasing a pressure inside the vacuum plugging equipment while the vacuum plugging equipment maintains the cooling temperature after the first cooling processing (S21), and a middle stopper pushing processing (S24) of pushing the middle stopper downward and bringing the middle stopper into contact with the dissolving solution after the first decompression processing (S23). The dissolving solution can be easily filled in a bubble-free state in the two-chamber type combined container-syringe.