A fluid flow control valve includes a valve body with a fluid flow lumen therethrough and a valve member located within the fluid flow lumen. At least one of the valve body and the valve member is resilient and respectively sized for movement between a normally closed position in which the valve member and a fluid lumen surface are in sufficient annular contact to block fluid flow through the fluid flow lumen and an open position in which at least one of the valve body and the valve member flexes to a spaced apart position that allows the fluid flow between the valve body and the valve member. Downstream fluid pressure may contact the valve body to enhance sealing. A fluid absorbent member may also be employed with the valve body. Flow control devices, such as medical fluid injection devices, and methods may employ the valve.

A device and a method for delivering a flowable ingestible medicament into the gastrointestinal tract of a user. The device includes a vibrating ingestible capsule attached to a medicament delivery compartment. The medicament delivery compartment includes a housing including a portal, a medicament reservoir, a reservoir biasing mechanism applying pressure to the reservoir, a resilient conduit extending from the reservoir to the portal, and a valve including a weight and a spring adapted, when closed, to bias the weight against the conduit so as to block flow therethrough, and, when open, to remove the weight from the conduit to allow fluid to flow through the conduit. When the vibrating agitator is in the vibration mode of operation, vibrations exerted thereby are applied to the valve biasing mechanism and periodically transition the valve between the closed operative orientation and the open operative orientation.

A fluid flow control valve includes a valve body with a fluid flow lumen therethrough and a valve member located within the fluid flow lumen. At least one of the valve body and valve member is resilient and respectively sized for movement between a normally closed position in which the valve member and a fluid lumen surface are in sufficient annular contact to block fluid flow through the fluid flow lumen and an open position in which at least one of the valve body and valve member flexes to a spaced apart position that allows fluid flow between them. Downstream fluid pressure may contact the valve body to enhance sealing. A fluid absorbent member may also be employed with the valve body. Flow control devices, such as medical fluid injection devices, and methods may employ this valve.

A medical fluid connection device connects to a complementary connector unit in a fluid-conducting manner. The medical fluid connection device has a housing member having an inlet opening and at least one outlet opening. The inlet opening and at least one outlet opening are interconnected in a fluid-conducting manner by a fluid duct that extends substantially along an axial direction, and a soft elastic sealing member which in a circumferential direction at least in portions encompasses a wall of the fluid duct and along the axial direction is guided so as to be movable in relation to the wall of the fluid duct. A Luer external taper connects to a Luer internal taper of the complementary connector unit in a fluid-tight manner. The Luer external taper is configured by a wall portion of the soft elastic sealing member. The medical fluid connection device can be used in infusion therapy.

A valve assembly embodiment includes first and second valve devices and a coupling mechanism. Each of the first and second valve devices can include first and second fluid pathways and first and second valve members respectively positioned at the first and second fluid pathways. Both the first and second valve members can have an open position that permits fluid flow and a closed position that prevents fluid flow along the first and second fluid pathways past the first and second valve members. The coupling mechanism can couple to each of the first and second valve members. When the valve assembly is actuated, the coupling mechanism can be configured to transition one or both of the first and second valve members between the open and closed positions.

A flow control device includes a housing having a primary valve body defining a primary inlet and an outlet, a secondary valve body defining a secondary inlet and a chamber defined by an inner circumferential surface of the housing and fluidly connecting the primary and secondary inlets with the outlet. The primary and secondary inlets share a common central axis perpendicularly disposed to a central axis of the outlet. A valve member is reciprocally mounted in the chamber to block fluid communication between the secondary inlet and the outlet when fluid pressure into the primary inlet is higher than fluid pressure into the secondary inlet, and block fluid communication between the primary inlet and the outlet when fluid pressure into the secondary inlet is higher than fluid pressure into the primary inlet.

A fluid flow control valve includes a valve body with a fluid flow lumen therethrough and a valve member located within the fluid flow lumen. At least one of the valve body and valve member is resilient and respectively sized for movement between a normally closed position in which the valve member and a fluid lumen surface are in sufficient annular contact to block fluid flow through the fluid flow lumen and an open position in which at least one of the valve body and valve member flexes to a spaced apart position that allows fluid flow between them. Downstream fluid pressure may contact the valve body to enhance sealing. A fluid absorbent member may also be employed with the valve body. Flow control devices, such as medical fluid injection devices, and methods may employ this valve.

A needle-free connector including a guiding base, a connecting base, a valve member, and a seal member is provided. The guiding base has a conduit, and the conduit extends downward along an axial direction. The connecting base is disposed on the guiding base and has a screw portion and a passage running through the screw portion. A chamber is formed between the guiding base and the connecting base, and the conduit and the passage respectively communicate with the chamber along the axial direction. The valve member is disposed between the guiding base and the connecting base, and is movably located in the chamber. The seal member is disposed at an end of the valve member far away from the conduit, and the seal member and the valve member are adapted to be connected into a whole in a manufacturing process.

The present invention provides a wound dressing tubing connector, comprising a first unit and a second unit which are releasably connectable and which when connected form a fluid path through the connector, wherein the first unit comprises an inlet and an outlet and wherein the second unit comprises an inlet and an outlet, in which the outlet of the first unit and the inlet of the second unit when connected together define the fluid path, and wherein the first unit and the second unit are connectable to form an air and fluid tight seal and wherein the first unit and/or the second unit comprises a pressure regulator valve in fluid communication with the fluid path. Also provided are systems, kits and methods of treatment.

A device for delivering an agent may comprise a source of agent; a mixing chamber for receiving fluid and the agent; an outlet in fluid communication with the mixing chamber to deliver the fluid and the agent; and an actuator configured to (1) deliver a first flow of the fluid substantially free from the agent through the outlet; (2) after delivering the first flow, deliver a second flow of the fluid and the agent through the outlet; and (3) after delivering the second flow, deliver a third flow of the fluid substantially free from the agent through the outlet.