An apparatus and method for a sleeve for use with a phacoemulsification handpiece, the sleeve having a body portion suitable for engaging a handpiece is disclosed. The tip portion of the sleeve may comprise at least one aspiration port and at least one rounded portion which may be suitable for use for surgery of the eye, and, more particularly, for use around the edge of a capsular bag.

Provided is a method of cleaning a body cavity using a device by coupling a distal end portion of a first cannula to the housing such that a lumen is in fluid communication with the first portion of the inner volume, the first cannula coupled to a vacuum source, then coupling a distal end portion of a second cannula to the housing such that a lumen is in fluid communication with the second portion of the inner volume, the second cannula being coupled to a fluid source, inserting a portion of the housing into a body cavity, conveying a fluid from the fluid source to the body cavity via the lumen of the second cannula, and withdrawing the fluid from the body cavity into the vacuum source concurrently with the conveying the fluid, via the lumen of at least the first cannula.

An apparatus for cleansing wounds in which irrigant fluid from a reservoir connected to a conformable wound dressing and wound exudate from the dressing are recirculated by a device for moving fluid through a flow path which passes through the dressing and a means for fluid cleansing and back to the dressing. The cleansing means (which may be a single-phase, e.g. microfiltration, system or a two-phase, e.g. dialytic system) removes materials deleterious to wound healing, and the cleansed fluid, still containing materials that are beneficial in promoting wound healing, is returned to the wound bed. The dressing and a method of treatment using the apparatus.

A surgical irrigation and suction apparatus includes a housing forming a handle and a barrel. The housing contains a suction tube for disposing of waste slurry and am irrigation tube for provision of irrigation fluid. The apparatus further includes a removable tube divided into an irrigation chamber and a suction chamber. The two chambers are collinearly arranged with respect to each other. The removable tube is coupled with the housing via a tube fitting. The apparatus further includes an inlet/outlet tip coupled with the other end of the removable tube, the tip including an outlet port and a plurality of inlet ports, respectively. The irrigation chamber terminates distal to the barrel with the tip arranged to spray the irrigation fluid through the outlet port. The suction chamber terminates distal to the barrel with the tip for recovery of the waste slurry through the plurality of inlet ports.

A processing system includes a processor including a separator, a set configured to cooperate with the separator to separate whole blood into plasma and other components, the set including an inlet line attachable to a patient to receive whole blood and an return line attachable to a patient to return processed fluid, and a source of replacement fluid connected to the disposable set, the processor configured to combine the other components with replacement fluid to define the processed fluid. The processor includes a controller and an input device coupled to the controller, the controller configured to receive an input via the input device, the input representing a volume of replacement fluid, and to control the processor to separate whole blood passing through the set and to combine the other components with the replacement fluid according to the input until the source of replacement fluid is empty.

A rectal drainage appliance is disclosed comprising a tubular element having an inflatable balloon at a distal end for anchoring the appliance in the rectum. The appliance includes one or more of: (i) first and second auxiliary lumens communicating with the inflatable balloon to provide independent inflation and pressure monitoring paths coupled to the balloon; (ii) a pressure state indicator defined by a mechanical element configured to flip between first and second states or shapes responsive to sensed pressure; and (iii) a collapsible auxiliary lumen larger than the inflation lumen, and configured to permit admission of irrigation fluid. The pressure state indicator may also be used in intestinal drains.

The wound treatment apparatus combines an internal negative pressure (vacuum) pump and an internal positive pressure (compressor) pump connectable to an external oxygen supply for providing both negative pressure wound therapy and hyperbaric oxygen wound therapy to a wound site. The apparatus also includes a user interface operatively connected to an electronic controller that monitors and actuates the vacuum and compressor pumps. The user interface and controller enables the apparatus to provide multiple modes of operation and the ability to selectively change between negative pressure therapy operational modes and hyperbaric oxygen operational modes.

The disclosure describes a smart bandage assembly. The bandage assembly includes a bandage member; a movement sensor, a pressure sensor, a methane sensor, or a humidity sensor; a microcontroller; a memory; and a radio transceiver for communication with a mobile communications device. The electronic components of the bandage assembly may be embedded within the bandage member. In some implementations, the radio transceiver harvests RF energy to power the memory within the bandage assembly so that sensor data stored in the memory can be accessed by a mobile communications device when other remaining electronic devices in the bandage assembly remain in a sleep state or power off mode.

Drug delivery devices and methods are disclosed herein. In some embodiments, a drug can be delivered into a brain ventricle of a subject, where it can diffuse, flow, or otherwise travel across the ependyma and into the hippocampus. The drug can be delivered through a delivery device configured to selectively or transiently obstruct a portion of the ventricle, e.g., the temporal horn or a posterior portion of the temporal horn. The obstruction can define a partitioned volume of the ventricle, limiting or preventing flow of cerebrospinal fluid (CSF) into or out of the partitioned volume. Accordingly, a drug can be delivered into the partitioned volume without being diluted or carried away by CSF, allowing the drug to saturate the ependyma adjacent the hippocampus. The delivery device can allow a high concentration of drug to be achieved and/or maintained within the partitioned volume to enable maximal transependymal penetration to the hippocampus, while reducing the volume of drug needed to achieve a desired therapeutic effect and limiting delivery of the drug to non-targeted areas.

An ultrasound catheter with fluid delivery lumens, fluid evacuation lumens and a light source is used for the treatment of intracerebral hemorrhages. After the catheter is inserted into a blood clot in the brain, a lytic drug can be delivered to the blood clot via the fluid delivery lumens while applying ultrasonic energy to the treatment site. As the blood clot is dissolved, the liquefied blood clot can be removed by evacuation through the fluid evacuation lumens.