Apparatus and methods for delivering medicament to a patient. The apparatus may include elements with different capacities to attenuate or absorb sterilizing radiation. The apparatus may include a medicament delivery assembly with interactive elements for dose-setting, priming and medicament ejection. The assembly may include a chamber housing a radiation-sensitive medicament present in the apparatus during sterilization by electron beam. The assembly may include an actuator chassis, a drive mechanism, a needle-priming mechanism and a fluid-displacement mechanism including a fluid-displacement member. The chassis may be fixed, relative to an outlet, to the chamber. The member may be slidingly and/or threadingly engaged with the chassis, and may be configured to move relative to the outlet to deliver the medicament through the outlet. Assembly elements may be nested coaxially and/or stacked axially. The assembly may include at least one hollow region. The hollow region may reduce beam attenuation or reduce radiation absorption.

The present disclosure provides compositions, methods, and kits that enable the in situ growth of polymers on or within a subject. In some aspects, the tissue-active monomers, including monomers comprising macromolecules, provide abroad set of material choices for synthetic tissue barriers. In additional aspects, the compositions, methods, and kits are useful for treating or preventing a disease or disorder.

The present disclosure provides compositions, methods, and kits that enable the in situ growth of polymers on or within a subject. In some aspects, the tissue-active monomers, including monomers comprising macromolecules, provide abroad set of material choices for synthetic tissue barriers. In additional aspects, the compositions, methods, and kits are useful for treating or preventing a disease or disorder.

The present disclosure provides technology that can ensure excellent visibility when introducing an embolization agent and that reduces the visibility of said agent after introduction. Provided is an embolization agent having a hydrogel which contains a visualizing agent, and a reaction product of an ethylenically unsaturated monomer, a crosslinking agent, and, as necessary, a bifunctional monomer, where the swelling ratio of the embolization agent is 5-300 times, and the post-swelling CT number of the embolization agent is 50-300 HU and falls below the pre-swelling CT number of the embolization agent.

The present disclosure provides technology that can ensure excellent visibility when introducing an embolization agent and that reduces the visibility of said agent after introduction. Provided is an embolization agent having a hydrogel which contains a visualizing agent, and a reaction product of an ethylenically unsaturated monomer, a crosslinking agent, and, as necessary, a bifunctional monomer, where the swelling ratio of the embolization agent is 5-300 times, and the post-swelling CT number of the embolization agent is 50-300 HU and falls below the pre-swelling CT number of the embolization agent.

In an embodiment, a method of producing a radiopaque stent graft is provided. The method may include functionalizing a surface of a coating layer of a stent graft to produce a functionalized surface; disposing a tie layer over the functionalized exterior surface of the stent graft; disposing an adherent layer over the tie layer; etching a slot into the adherent layer; functionalizing the slot; and positioning a radiopaque marker in the slot to produce a filled slot and thereby produce the radiopaque stent graft.

In an embodiment, a method of producing a radiopaque stent graft is provided. The method may include functionalizing a surface of a coating layer of a stent graft to produce a functionalized surface; disposing a tie layer over the functionalized exterior surface of the stent graft; disposing an adherent layer over the tie layer; etching a slot into the adherent layer; functionalizing the slot; and positioning a radiopaque marker in the slot to produce a filled slot and thereby produce the radiopaque stent graft.

Disclosed is a surgical staple for a combination energy stapler surgical instrument. The staple includes a crown defining a base, first and second deformable legs extending from the each end of the base and an electrically insulative material disposed on at least a portion of the base.

A polymeric material includes a polyisobutylene-polyurethane block copolymer. The polyisobutylene-polyurethane block copolymer includes soft segments, hard segments, and end groups. The soft segments include a polyisobutylene diol residue. The hard segments include a diisocyanate residue. The end groups are bonded by urea bonds to a portion of the diisocyanate residue. The end groups include a residue of a mono-functional amine.

A polymeric material includes a polyisobutylene-polyurethane block copolymer. The polyisobutylene-polyurethane block copolymer includes soft segments, hard segments, and end groups. The soft segments include a polyisobutylene diol residue. The hard segments include a diisocyanate residue. The end groups are bonded by urea bonds to a portion of the diisocyanate residue. The end groups include a residue of a mono-functional amine.