Described is a negative wound therapy (NPWT) dressing that includes a backing layer and an adhesive skin contact layer, the adhesive skin contact layer being configured to detachably adhere the dressing to a dermal surface, wherein the backing layer includes a coupling member. The coupling member includes a tubing configured to connect the dressing to a negative pressure source and to a remote fluid collector.

Described is a negative wound therapy (NPWT) dressing that includes a backing layer and an adhesive skin contact layer, the adhesive skin contact layer being configured to detachably adhere the dressing to a dermal surface, wherein the backing layer includes a coupling member. The coupling member includes a tubing configured to connect the dressing to a negative pressure source and to a remote fluid collector.

Systems and methods for nasal irrigation are provided in which a nasal irrigation device includes a source of saline solution, an effluent receptacle, a nasal interface, a vacuum source, a fluid passageway to communicate the source of saline solution with the effluent receptacle through the nasal interface and a nasal cavity of a user, and a switch and valve assembly for selectively controlling the vacuum source and flow of the saline solution through the fluid passageway. The source of saline solution is disposed relative to the device to provide gravitational inducement of the saline solution to the nasal interface in engagement to the device user's nostrils. A combination of the gravitational inducement and a relative vacuum from the effluent receptacle generates a fluid flow for irrigating, cleansing and massaging the nasal cavity and ostia of the user. The entire device is assembled as a hand-held device for convenient lifting and disposal against the user's nostrils.

A blood filter device having an iron-chelating molecule, a haem-binding molecule and a haemoglobin-binding molecule bound to a support. Use of the device in a vessel containing blood, for example a blood bag or a flow line, removes haemolysis-derived components from the blood.

A layered dressing includes: a permeable wound contact layer for placing in contact with a wound; a breathable barrier layer; a biosensor sensing array configured to detect one or more markers in wound fluid; and a fluid collection layer disposed between the wound contact layer and breathable barrier layer and configured to deliver wound fluid by capillary action from a wound in contact with the wound contact layer to the biosensor sensing array.

An apparatus for treating a tissue site includes a dressing, an oxygen source, a valve, and a negative-pressure source. The dressing is configured to be sealed around the tissue site. The oxygen source is fluidly coupled to the dressing and configured to provide a low flow of oxygen. A first port of the valve is fluidly coupled to the dressing and the valve moves between a closed position preventing flow through the valve and an open position permitting flow through the valve. The negative-pressure source is fluidly coupled to a second port of the valve and provides negative pressure to the second port of the valve at a non-therapeutic level. The valve separates the negative-pressure source from the dressing and selectively opens when a positive pressure is applied on an upstream side of the valve.

This disclosure includes wound dressings and systems with high-flow therapeutic gas sources for topical wound therapy and related methods. Some dressings, which are configured to be coupled to tissue to facilitate delivery of therapeutic gas to the tissue, comprise a manifold that defines a plurality of gas passageways, the manifold configured to allow communication of therapeutic gas to the tissue; and a gas-occlusive layer configured to be disposed over the manifold and coupled to the tissue such that an interior volume containing the manifold is defined between the gas-occlusive layer and the tissue and the gas-occlusive layer limits escape of therapeutic gas from the interior volume; wherein the gas-occlusive layer includes: a first opening configured to allow communication of therapeutic gas into the interior volume; and one or more second openings configured to allow communication of therapeutic gas out of the interior volume.

A flow controllable type suction and irrigation device includes: a handle having an installation space therein; a cannula provided with a conductive tube and an insulating protective tube, the conductive tube extending in a forward direction of the handle to be inserted into the abdominal cavity of a patient and being coupled to an electrode for surgery, the insulating protective tube being disposed to surround the conductive tube; and a suction supply unit provided to the handle and supplying an irrigation fluid to the cannula or suctioning blood or contaminants from the abdominal cavity of the patient through the cannula.

Disclosed cannula systems can detect the tissue type within which the cannula tip is located in real time using electrodes adjacent the cannula tip. The sensing cannula system can differentiate when the cannula tip is in adipose tissue or muscle based on electrical impedance. The system can be used in fat grafting and liposuction procedures, for example. An operator can detect if the cannula tip enters muscle by watching for an indicator light or audible alarm that is automatically activated by the device based on a change in sensed impedance. The device may also stop the flow of fat through a pump halting injection into the sub-muscular space.

A system includes an endoscope defining a proximal end, a distal end and an elongated shaft extending between the proximal end and the distal end of the endoscope. A fluid collecting sheath defines a proximal end and a distal end. The fluid collecting sheath is configured for insertion into a vaginal opening. The fluid collecting sheath includes fluid collecting apertures defined at the distal end of the fluid collecting sheath. A fluid line is in fluid communication with the fluid collecting apertures. A channel is formed in the fluid collecting sheath. The channel extends between the proximal end and the distal end of the fluid collecting sheath. The channel defines an opening therein. The channel of the fluid collecting sheath is configured to operably engage the elongated shaft of the endoscope by passing the elongated shaft of the endoscope through the opening of the channel.