Abstract: Embodiments of negative pressure wound therapy systems and methods are disclosed. In some embodiments, an apparatus includes a housing enclosing a source of negative pressure and a controller configured to operate the source of negative pressure to provide negative pressure wound therapy to a wound. The housing can also include a communications controller configured to wirelessly transmit and receive data using a communications antenna positioned on an antenna board. The antenna board can be mounted to a communications board that include the communications controller. The antenna board can be electrically connected to the communications board via a single connector on the communications board. The antenna's ground plane can be positioned on the communications board.

Abstract: A drainage catheter system comprising a catheter having an elongate body \configured for insertion into an organ or cavity of a patient and a hub configured for coupling with a longitudinal shearing device and the first end of the catheter and movable over the elongate body of the catheter. A locking stay suture extends through the elongate body of the catheter. The length of the elongate body of the catheter can be adjusted by sliding the hub coupled to the longitudinal shearing device along the longitudinal axis of the catheter, and then creating a longitudinal cut in the catheter through which the proximal end of the locking stay suture can be removed and secured, thereby enabling the excess catheter tubing to be removed by cutting and allowing the base to rest flush against the patient's body.

Abstract: The invention provides for novel glaucoma surgical devices comprising a microfluidic meshwork. The meshwork comprises interconnected, cellular-dimensioned microfluidic channels. Excess fluid in the eye can be drained and diffused through the microfluidic channels. The meshwork is porous and highly flexible, affording mechanical compliance similar to that of eye tissue. The meshwork minimizes foreign body reactions to the implant, decreasing fibrosis and capsule formation.

Abstract: The present invention relates to an implant device for an eye disease for adjusting intraocular pressure. An implant device for an eye disease for adjusting the intraocular pressure according to an embodiment of the present invention comprises: a first tube into which the aqueous humor flows so as to adjust the intraocular pressure; and a second tube formed inside the first tube. The second tube is made of a biodegradable material configured to be degraded inside the eye over a predetermined period of time after being inserted into the eye. The first tube and the second tube may be divided into a first area and a second area according to the distance from the anterior chamber of the eyeball. The second area of the first tube and the second tube may have such a structure that the diameter thereof is larger than that of the first area of the first tube and the second tube, and the same can expand as the aqueous humor flows in.

Abstract: The present invention relates to an implant device for an eye disease for adjusting intraocular pressure. An implant device for an eye disease for adjusting the intraocular pressure according to an embodiment of the present invention comprises: a first tube into which the aqueous humor flows so as to adjust the intraocular pressure; and a second tube formed inside the first tube. The second tube is made of a biodegradable material configured to be degraded inside the eye over a predetermined period of time after being inserted into the eye. The first tube and the second tube may be divided into a first area and a second area according to the distance from the anterior chamber of the eyeball. The second area of the first tube and the second tube may have such a structure that the diameter thereof is larger than that of the first area of the first tube and the second tube, and the same can expand as the aqueous humor flows in.

Abstract: A bidirectional vascular cannula device includes a tube and a moving mechanism having a through hole. The tube includes a tubular wall which defines therein a passage having opposite proximal and distal opened ends. The tubular wall has a secondary opening formed therethrough. Oxygenated blood infused into the passage from the proximal opened end is delivered to one end of the blood vessel from the distal opened end, and a part of the blood is delivered to the other end of the blood vessel through the secondary opening and the through hole so as to obviate ischemic caused by cannula occlusion. The moving mechanism is operable to be moved to permit a part of the moving mechanism to project outwardly and to be attached to the inner wall of the blood vessel for positioning the cannula device.

Abstract: A method for removing bodily fluid includes drawing bodily fluid that has accumulated in excess, converting the drawn fluid from bulk liquid form to aerosol form, and disposing of the aerosol via evaporation of liquid droplets and absorption and/or diffusion of vapor. Conversion from bulk liquid to aerosol may include collecting the bulk liquid fluid in a reservoir, conveying the bulk liquid bodily fluid to an atomizer, converting the bulk liquid fluid into an aerosol having ultrafine droplets, and ejecting the aerosol into a subcutaneous space for disposal via evaporation of liquid droplets and absorption and/or diffusion of vapors. The method may be performed with a subcutaneous atomizer that may be controlled locally or by an external transmitter for effecting a conversion and mist rate to keep pace with the accumulation of excess bodily fluid.