Pyruvate may be used to stabilize hyaluronic acid compositions. For example, these compositions may have improved heat and/or storage stability.

Liquid embolic preparations and medical treatment methods of using those preparations are described. In some embodiments, the preparations or solutions can transition from a liquid to a solid for use in the embolization. The preparations can include biocompatible polymers with covalently bound radioactive iodine isotopes.

Provided is a thermosensitive phosphazene-based polymer including an amino acid ester moiety, a polyethyleneglycol moiety, and a moiety including a sulfate group linked directly or by a linker in a predetermined ratio, a method of preparing the same, and a hydrogel-formable composition including the same. For example, a hydrogel formed from the composition may be used for tissue regeneration or drug delivery or used as a storage, a body tissue regeneration inducer, or a filler in a body.

A method for manufacturing a bioactive implant including the steps of (a) forming a mixture of an bioactive agent and a setting agent capable of transitioning from a flowable state to a rigid state; (b) converting the mixture into a flowable state; and (c) transitioning the mixture into a solid state in a shape of the implant.

A synthetic bead is for implantation within the body of an animal or human body. The bead includes a surface defining a shape having a bulk volume of the bead. The surface of the bead is coated with at least a first therapeutic agent to form an inner layer; and an outer layer includes a biodegradable polymer and a second therapeutic agent positioned above the inner layer.

A layered microneedle device can have successively stacked layers that each include microneedles and perforations positioned between the microneedles. The layers can be stacked to permit microneedles of a lower layer to extend through the perforations of an upper layer. Thus, microneedles of successively stacked layers can extend away from individual layers in a common direction.

The present invention is directed to a polymer comprising a first hyaluronic acid (HA) chain and a second HA chain crosslinked via a linker comprising an unsaturated moiety or a derivative thereof coupled to a tetrazine moiety or a derivative thereof. In some embodiments, the polymer of the invention is characterized by having a crosslinking degree of 0.2 to 4%.

Pyruvate may be used to stabilize hyaluronic acid compositions. For example, these compositions may have improved heat and/or storage stability.

Balloon catheters, methods for preparing balloon catheters, and uses of balloon catheters are disclosed. The balloon catheter includes an elongate member, an expandable balloon, and a coating layer overlying an exterior surface of the expandable balloon. The coating layer includes a total drug load of a hydrophobic therapeutic agent and a combination of additives including a first additive and a second additive. The hydrophobic therapeutic agent is paclitaxel, rapamycin, or paclitaxel and rapamycin. The first additive is a surfactant. The second additive is a chemical compound having one or more hydroxyl, amino, carbonyl, carboxyl, acid, amide, or ester groups.

Balloon catheters, methods for preparing balloon catheters, and uses of balloon catheters are disclosed. The balloon catheter includes an elongate member, an expandable balloon, and a coating layer overlying an exterior surface of the expandable balloon. The coating layer includes a total drug load of a hydrophobic therapeutic agent and a combination of additives including a first additive and a second additive. The hydrophobic therapeutic agent is paclitaxel, rapamycin, or paclitaxel and rapamycin. The first additive is a surfactant. The second additive is a chemical compound having one or more hydroxyl, amino, carbonyl, carboxyl, acid, amide, or ester groups.