The present invention relates to inhibiting or preventing infection and protecting against patency complications after a blood catheter has been in a patient comprising administering to the device a pharmaceutically effective amount of a composition comprising:

(A) at least one taurinamide derivative,

(B) at least one compound selected from the group consisting of biologically acceptable acids and biologically acceptable salts thereof; and

(C) heparin at a low concentration.

In some aspects, provided herein are antimicrobial compositions comprising partially esterified polygalacturonic acid and certain fatty acids (e.g., caprylic acid). In some embodiments, the antimicrobial composition may be administered (e.g., topically or orally) to a subject, such as a human patient to treat an infection (e.g., an infection comprising a biofilm). In some aspects, improved catheters are provided.

In some aspects, provided herein are antimicrobial compositions comprising partially esterified polygalacturonic acid and certain fatty acids (e.g., caprylic acid). In some embodiments, the antimicrobial composition may be administered (e.g., topically or orally) to a subject, such as a human patient to treat an infection (e.g., an infection comprising a biofilm). In some aspects, improved catheters are provided.

Methods have been discovered that make it possible to continuously extrude tubes of P4HB and copolymers thereof. These methods allow tubes of P4HB and copolymers thereof to be produced without radial deformation of the tubes despite the slow crystallization of the polymer and copolymers. The methods can produce tubes of P4HB and copolymers thereof with tightly defined outside and inside diameters which are required for medical application. These tubes are produced by radial expansion at temperatures above the melting temperature of P4HB and copolymers thereof, and using low tube cooling temperatures and prolonged cooling times. The tubes made from P4HB and copolymers thereof are flexible, and can be prepared with high elongation to break values.

The invention provides compositions featuring chitosan and methods for using such compositions for the local delivery of biologically active agents to an open fracture, complex wound or other site of infection. Advantageously, the degradation and drug elution profiles of the chitosan compositions can be tailored to the needs of particular patients at the point of care (e.g., in a surgical suite, clinic, physician's office, or other clinical setting).

A balloon implantation kit includes an inflatable biodegradable balloon configured to be implanted in a human body and a hydrogel composition. In some cases, the hydrogel composition is provided in a container configured to be introduced into the biodegradable balloon. For some applications, the biodegradable balloon includes a joint spacer for treatment of a joint of a human subject, such as a subacromial spacer, a glenohumeral spacer, or a spacer for another joint, such as a knee, hip, ankle, or hand (e.g., CMC1) joint. In these applications, the biodegradable balloon is configured to be inserted into a space of a joint of the human body, and is shaped to provide mechanical support to the joint until the biodegradable balloon resorbs into the human body. For other applications, the biodegradable balloon includes a soft tissue spacer.

A balloon implantation kit includes an inflatable biodegradable balloon configured to be implanted in a human body and a hydrogel composition. In some cases, the hydrogel composition is provided in a container configured to be introduced into the biodegradable balloon. For some applications, the biodegradable balloon includes a joint spacer for treatment of a joint of a human subject, such as a subacromial spacer, a glenohumeral spacer, or a spacer for another joint, such as a knee, hip, ankle, or hand (e.g., CMC1) joint. In these applications, the biodegradable balloon is configured to be inserted into a space of a joint of the human body, and is shaped to provide mechanical support to the joint until the biodegradable balloon resorbs into the human body. For other applications, the biodegradable balloon includes a soft tissue spacer.

The present invention provides polymer brush constructs, for example, surfaces decorated with hyaluronan polymers, and methods of making the same. The constructs are useful as functional materials for numerous applications, e.g., as lubricants, implant coatings, bandages and other uses.

The present invention provides polymer brush constructs, for example, surfaces decorated with hyaluronan polymers, and methods of making the same. The constructs are useful as functional materials for numerous applications, e.g., as lubricants, implant coatings, bandages and other uses.

The disclosure concerns various medical devices implemented to provide a nitric oxide rich environment for anti-microbial or anti-thrombogenic benefits. The medical device generally includes a nitric oxide donor material that is contained within a sealed cavity, and a transport medium that defines and captivates the entirety of the cavity, wherein the transport medium is permeable to both water and nitric oxide. As the nitric oxide donor material becomes saturated with water from the surrounding tissue or fluids, nitric oxide is chemically released, and the resulting nitric oxide is communicated through the transport medium to a treatment site for anti-microbial and anti-thrombogenic benefits.