A canister connection system for a negative pressure wound therapy system. The canister connection system includes an attachment fixture removably connected to a pump unit. The attachment fixture includes a first engaging mechanism disposed adjacent its first end configured to engage a corresponding first engaging mechanism of the canister and a second engaging mechanism disposed adjacent its second end for engaging a corresponding second engaging mechanism of the canister for removably connecting the canister to the pump unit.

Embodiments of negative pressure wound therapy systems, apparatuses, and methods for operating the systems and apparatuses are disclosed. In some embodiments, the apparatus includes a negative pressure source, a connector port, at least one switch, and a controller. The negative pressure source is connected through the connector port to either (i) a wound dressing having a canister configured to store fluid aspirated from the wound or (ii) a wound dressing without a canister between the connector port and the wound dressing. The controller determines, based on a signal received from the at least one switch, whether the canister is positioned in the fluid flow path and adjusts one or more operational parameters of negative pressure wound therapy based on the determination. The switch is activated by the connection of either the canister or canisterless wound dressing to the apparatus.

A waste collection unit for collecting medical waste through a suction line. The waste collection unit includes a manifold receiver having an opening in fluid communication with a canister. A suction pump is configured to draw a vacuum, and a vacuum regulator is configured to regulate the vacuum draw. A light assembly positioned near the opening of the manifold receiver may include a first light and a second light. The light assembly may be arranged to direct the first light towards a manifold configured to be removably received in the manifold receiver. The light assembly may be arranged to direct the second light arcuately around at least a portion of the opening of the manifold receiver. The first light may emit light of different colors based on a commanded or measured level of the vacuum draw.

A system suitable for treating a tissue site may include an interface manifold, an interface sealing member, an absorbent layer, and a storage sealing member. The interface manifold may be positioned in fluid communication at the tissue site. The interface sealing member may be adapted to provide a sealed treatment space relative to the tissue site, and the interface manifold may be positioned in the sealed treatment space. The absorbent layer may be for positioning on an exterior facing side of the interface sealing member. The storage sealing member may be adapted to provide a sealed storage space between the storage sealing member and the exterior facing side of the interface sealing member. The absorbent layer may be positioned in the sealed storage space. Other systems, apparatuses, and methods are disclosed.

In one example embodiment, an apparatus may include a panel with integrated fluid channels, wherein the panel and the fluid channel consist only of surfaces that can be manufactured with a straight-pull mold. A port may also be integrated into the panel to facilitate coupling the fluid channel to pneumatic components in an assembly. A seal may be secured to the panel over the fluid channel to form an integrated fluid conductor. The seal is preferably an adhesive label that can also be used for product labeling. Such an apparatus may be used in a control unit of a therapy system, employing several integrated fluid conductors. A method of manufacturing may include molding a panel, wherein the mold forms a channel integral to the panel. The panel and the channel preferably consist of surfaces that can be molded with a straight-pull mold.

A urine collection system includes a first fluid collection device with (i) a first internal cavity, (ii) a first inlet in fluid communication with the first internal cavity, and (iii) a first outlet in fluid communication with the first internal cavity. The urine collection system further includes a tube in fluid communication with the first outlet. The urine collection system further includes a second fluid collection device with (i) a second internal cavity, (ii) a permeable membrane positioned within the second internal cavity, thereby separating the second internal cavity into a first chamber and a second chamber, (iii) a second inlet in fluid communication with the first internal cavity, and (iv) a second outlet in fluid communication with the second inlet of the second fluid collection device.

An irrigation and aspiration device includes a drive assembly, an evacuation chamber, and a delivery apparatus. The delivery apparatus includes an evacuation tube configured to hold an irrigation solution and a vacuum tube that is in fluid communication with the evacuation chamber. The drive assembly is configured to store a restoration energy within the evacuation chamber and force the irrigation solution out of the evacuation tube in response to an applied force. The device is configured to use the restoration energy to draw an aspiration fluid into the vacuum tube.

A fluid drainage system is provided which is configured to engage with a drainage tube engaged with a drainage site with a patient. The container has an internal cavity with negative pressure to impart suction to the drainage tube and can be engaged to the drainage tube without loss of negative pressure during the process. Secondary containers may be engaged to restore negative pressure to the first container and remove fluid therefrom. Walls of the first container may be shaped to resist deflection due to high internal negative pressure.

A waste collection unit (40) with a primary display (106) on which information about the operation of the unit is presented. In addition to the primary display there is a light assembly (662) adjacent the fitting (614) to which a suction line is attached. The light assembly emits light of selectively colors or in a selected pattern based on an operation state of the waste collection unit.