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.

Medical grade yarns, medical devices constructed of such yarns, and methods for making such yarns and devices are described. Polyester drawn fibers, and more particularly high strength and high tenacity micro polyester fibers for use in medical devices, and methods of preparing the same are provided.

This is a water disintegrable, flushable catheter that will dissolve or biodegrade in water. It is coated with a hydrophilic coating and will achieve lubricity values typical of a hydrophilic catheter. The catheter may be formed of a bi-layer tube that has a biodegradable outer layer such as polylactic acid and a purely water disintegrable inner layer, e.g., polyvinyl alcohol (PVOH). The outer layer will support the hydrophilic coating even when it's wetted and thus acts as a stable primer layer for hydrophilic style coatings. The outer layer bonds well to the water disintegrable inner layer but also allows a hydrophilic coating to be applied on top. The outer layer acts as a temporary water barrier. This water barrier allows the hydrophilic coating to be hydrated prior to use but prevents water molecules from attacking the PVOH inner layer. Alternatively, a hydrophilic coating that bonds to either the tubing directly or a via a primer layer but unlike typical hydrophilic coatings the coating is pre-activated by organic activation agents other than water and thus the catheter does not break down in the packaging or sterilization

Medical devices that are flushable in a standard toilet are disclosed. The medical devices are made at least in part of material that when introduced into water (of a toilet) disintegrate and/or fragment or are fragmentable before or after introduction into water such that they can be easily carried by the water through the disposal system. At least a portion of the device is intended for insertion into a patient or subject wherein the body-insertable portion retains its structural integrity while in use but is fragmentable once outside the body and exposed to a selected condition.

A medical device such as a cannula, catheter, needle or biosensing probe includes an elongated body for penetrating, inserting and/or positioning in or through the skin of a patient. The elongated body has an outer surface that when positioned in the patient with a coefficient of friction sufficient to inhibit movement between the elongated body on the skin at the insertion site to inhibit irritation at the infusion site. A lubricious coating is provided on the elongated body to assist in penetration and/or insertion of the elongated body into the patient. The lubricious coating can be removed by a shearing action by the insertion of the elongated body into the patient and/or by absorption of the lubricious coating to expose the outer surface of the elongated member.

The invention relates to self-assembled organosilane- and small molecule drug-containing coatings for resorbable medical implant devices. The coatings can be prepared from precursor compositions containing an organosilane and a small molecule drug, and can be applied to substrates. Prior to applying the coatings, the surfaces of the substrates can be pretreated. The coatings can be functionalized with a binding compound that is coupled with an active component. The coatings can be applied using various techniques and apparatus, more particularly, by a deep-coating process conducted at ambient conditions.

The present invention relates to a triblock copolymer having a polyethylene glycol-poly(D,L-lactide)-polyethylene glycol skeleton.

Medical grade yarns, medical devices constructed of such yarns, and methods for making such yarns and devices are described. Polyester drawn fibers, and more particularly high strength and high tenacity micro polyester fibers for use in medical devices, and methods of preparing the same are provided.

A medical device such as a cannula, catheter, needle or biosensing probe includes an elongated body for penetrating, inserting and/or positioning in or through the skin of a patient. The elongated body has an outer surface that when positioned in the patient with a coefficient of friction sufficient to inhibit movement between the elongated body on the skin at the insertion site to inhibit irritation at the infusion site. A lubricious coating is provided on the elongated body to assist in penetration and/or insertion of the elongated body into the patient. The lubricious coating can be removed by a shearing action by the insertion of the elongated body into the patient and/or by absorption of the lubricious coating to expose the outer surface of the elongated member.

A biocompatible soft tissue implant for introduction into a human body includes at least one layer comprising an elastomeric material, and at least one textile fabric arranged on the at least one layer comprising the elastomeric material. The at least one textile fabric forms a surface of the biocompatible soft tissue implant. The at least one textile fabric includes bioresorbable fibers which are embedded at least partially in the at least one layer comprising the elastomeric material.