An injection device is used for “tattooing” markers inside the heart of a patient at specific locations. Placement within the heart of markers, such as points marked with a radiopaque dye, may reduce the use of x-ray dye and echocardiography, may allow a quicker cardiac procedure, and thus may improve the procedure outcome for the patient. Alternatively or additionally to cardiac marking with a radiopaque dye, cardiac tissue fibrosis, cardiac tissue contraction, and/or cardiac tissue stiffening (or hardening) can be promoted at specific locations by delivering a suitable substance.

The present technology relates generally to a method and device for closing percutaneous punctures, and more particularly to a multi-lumen tamper for such a device. A closure device for sealing a percutaneous puncture in a wall of a body passageway is disclosed, the closure device including a plug configured to engage a surface of the puncture; a toggle configured to engage an internal surface of the body passageway; an elongate filament configured to associate the plug with the toggle; a locking member configured to engage the plug; and a tamper comprising at least two lumens, wherein a first lumen of the at least two lumens is configured to deliver a pharmaceutical agent to the plug.

A multi-lumen sensing system (10) includes medical tubing (20) having a plurality of lumens (22A, 22B) and at least one secondary passageway (24) extending in an axial direction of the medical tubing, wherein the secondary passageway is between the plurality of lumens. The multi-lumen sensing system may include a sensing receptacle (30) defining a channel (32) in which a lengthwise portion of the medical tubing is received. A plurality of ultrasonic transmitting elements (40T, 42T) may be arranged within the secondary passageway of the medical tubing or as part of the sensing receptacle for transmitting respective ultrasonic signals across the lumens to a corresponding plurality of ultrasonic receiving elements (40R, 42R) of the sensing receptacle. Alternatively, the sensing receptacle may include a plurality of ultrasonic transmitting and receiving elements (40, 42, 44) transmitting respective signals across the lumens for return reflection at an interface of the secondary passageway.

An injection device is used for “tattooing” markers inside the heart of a patient at specific locations. Placement within the heart of markers, such as points marked with a radiopaque dye, may reduce the use of x-ray dye and echocardiography, may allow a quicker cardiac procedure, and thus may improve the procedure outcome for the patient. Alternatively or additionally to cardiac marking with a radiopaque dye, cardiac tissue fibrosis, cardiac tissue contraction, and/or cardiac tissue stiffening (or hardening) can be promoted at specific locations by delivering a suitable substance.

A new system for negative pressure wound therapy is described. The system includes a patient tube set connecting the wound dressing to the suction container. The patient tube set provides separate channels for applying suction to the wound site and sensing the therapeutic pressure at the wound site. A restrictor valve may also be included in order to introduce a small air leak into the system to prevent occlusions in the patient tube set.

A system for purifying incoming fluid is provided that is modular and includes a heat exchanger module, an evaporator-condenser module and a compressor. The system is configured to facilitate passive drainage of the purified fluid for collection. The system components are arranged in a stacked configuration to facilitate gravitational flow of the purified fluid such that the purified fluid drains passively for collection. A system for preparation of ready-to-use treatment fluid is also provided including the modular fluid purification system, a preparation station and a coupling device. The components are configured to be retained in a portable carrier that is manually operable for improved access to and mobility of the components. A coupling device for use in connecting flow channels of a plurality of components and for use in preparing ready-to-use dialysate is also provided, A further system for preparation of a receptacle and a ready-to-use treatment fluid in the receptacle is also provided.

A delivery device is provided for introducing a fluid to a patient. The delivery device has a base with a bottom face for attaching to the skin of the patient, and a cannula extending from the bottom face for penetrating the skin of the patient. A fluid supply conduit has a first lumen connected to the cannula for supplying the fluid to the cannula, where the fluid contains an active agent and stabilizing agent. The conduit has a second lumen with an open end for capturing leakage of the fluid from the infusion site and carrying the fluid away from the infusion site. The second lumen has a leak detector containing a color changing in an amount to react with the stabilizing agent and produce a visual indication to the patient through the conduit. The leak detector is spaced from the infusion site and oriented in a location visible by the patient through the conduit.

This invention relates to a multi-lumen flushable catheter device and a kit including this device. The multi-lumen catheter is made of a single lumen catheter in fluid connection with a multi-lumen catheter. The multi-lumen catheter includes a fluid lumen and a backflow connection lumen; wherein the fluid lumen and a backflow connection lumen are in fluid communication; a pressure control lumen made of a proximal port to receive a fluid such as air or a liquid and a distal balloon, the distal balloon is configured to block the single lumen catheter to prevent fluid flow into the single lumen catheter, wherein the pressure control lumen is not in fluid connection with the central lumen of the multi-lumen catheter. This device allows cleaning of in dwelling catheter in situ.

Devices for transferring fluid to or from a subject include an extension tube assembly with an axially extending inner tube configured to couple to an elongate tubular cannula having opposing proximal and distal ends with an axially extending lumen and an axially extending inner tube. The inner tube extending through the tubular cannula defines an exposed needle tip and is in fluid communication with the inner tube of the extension tube assembly. The needle tip extends out of a distal end of the tubular cannula a suitable distance.

Disclosed herein are systems, devices, and methods for thrombolysis. For example, a medical device for thrombolysis can include a conduit, a supply reservoir, and a waste reservoir. The conduit can be configured to insert into a lumen of a venous access device having an intraluminal clot. The conduit can include a supply lumen configured to convey an aqueous thrombolytic composition from the supply reservoir through an opening in a distal-end portion of the conduit to the intraluminal clot. The waste reservoir can be configured to collect waste from the lumen of the venous access device including fibrin fragments, platelets, red blood cells, or spent solution of the thrombolytic composition used to break down the intraluminal clot. Administering a thrombolytic composition in accordance with the disclosed systems, devices, and methods can break down clots more quickly than at least the common 3-way stopcock method.