Toe fixation prostheses and methods of implementation for the same are discussed herein. A toe fixation prosthesis to compress a first bone to a second bone may include and anchor member and a coupling member. The anchor member may include a first end to couple the anchor member to the first bone and a second end which includes a ramp. The coupling member may include one or more threads to couple to the ramp. The coupling member may be positioned transversally to a length of the second bone.

A stent may include a radially expandable tubular framework includes a first end region, a second end region, a medial region positioned between the first end region and the second end region, and a lumen extending therethrough. The radially expandable tubular framework is configured to expand from a radially collapsed configuration to a radially expanded configuration. A plurality of covering strips are positioned along at least one of the first end region, the medial region, and the second end region. The plurality of covering strips fully covering the radially expandable tubular framework in the radially collapsed configuration, and the plurality of covering strips are configured to separate from one another in the radially expanded configuration to expose portions of the radially expandable tubular framework therebetween.

Aspects of the disclosure relate to synthetic tissue or organ scaffolds and methods and compositions for promoting or maintaining their structural integrity. Aspects of the disclosure are useful to prevent scaffold damage (e.g., delamination) during or after implantation into a host. Aspects of the disclosure are useful to stabilize tissue or organ scaffolds that include electrospun fibers.

A plasma-activated coating (PAC) process covalently binds enzymes in their bioactive state, has low thrombogenicity and can be robustly applied to medical devices, resisting delamination when deployed in vivo. Applying this process to attachment of proteins such as enzymes that inhibit thrombosis and anticoagulants such as heparin or heparin fragments, one can produce medical devices and other materials for use in vascular applications having a number of benefits including covalent attachment, not requiring intermediate linkers or chemistry; substrate independentworks on polymers, metals, ceramics, 3D shapes like stents, valves, etc.; bioactivity is retained; surface may retain greater bioactivity over time in vivo; Simultaneously supports endothelialization; can be stored for long periods, following freeze drying, and retains effectiveness when rehydrated and; surface is able to bind many fibrinolytic enzymes such as streptokinase, urokinase, tPA, plasmin).

A transcatheter valve prosthesis including a tubular stent includes an interior skirt or skirt portion is coupled to and covers an inner circumferential surface of the stent, and an exterior skirt or skirt portion is coupled to and covers an outer circumferential surface of the stent. A prosthetic valve component is disposed within and secured to the interior skirt or skirt portion. The interior and exterior skirts or skirt portions may overlap to form a double layer of skirt material on the stent, or may be portions of a skirt that do not overlap such that only a single layer of skirt material covers the stent. When the stent is in at least the compressed configuration, at least one endmost crown may be positioned radially inwards with respect to the remaining endmost crowns formed at the inflow end of the stent in order to accommodate the exterior skirt.

A scleral prosthesis includes an elongated body having a first free end and a second free end opposite the first free end. A maximum width of the body at each end is wider than a maximum width of the body between the ends. The body includes multiple first portions that form the first free end of the body and a part of the body between the ends. The first portions are separated lengthwise along a substantial portion of a total length of the body. The first portions of the body are biased so that they maintain separation from one another without external interference but are configured to be pushed towards each other. The body is configured to receive and retain, between the first portions of the body, an insert that is configured to maintain the separation of the first portions.

Aspects of the disclosure relate to synthetic tissue or organ scaffolds and methods and compositions for promoting or maintaining their structural integrity. Aspects of the disclosure are useful to prevent scaffold damage (e.g., delamination) during or after implantation into a host. Aspects of the disclosure are useful to stabilize tissue or organ scaffolds that include electrospun fibers.

A holder for a hybrid heart valve prosthesis that can be quickly and easily implanted during a surgical procedure is provided. The hybrid heart valve includes a non-expandable, non-compressible prosthetic valve and a self-expandable anchoring stent, thereby enabling attachment to the annulus without sutures. A first suture connects the holder to the valve and constricts an inflow end of the anchoring stent. A second suture connects the holder to the valve and extends down three holder legs to loop through fabric on the valve. Both sutures may loop over a single cutting well on the holder so that severing the first and second sutures at the single cutting well simultaneously releases the tension in the first suture, permitting the inflow end of the anchoring stent to expand, and disconnects the valve holder from the prosthetic heart valve.

Disclosed are methods, devices and materials for the in situ formation of a nerve cap and/or a nerve wrap to inhibit neuroma formation following planned or traumatic nerve injury. The method includes the steps of identifying a severed end of a nerve, and positioning the severed end into a cavity defined by a form. A transformable media is introduced into the form cavity to surround the severed end. The media is permitted to undergo a transformation from a first, relatively flowable state to a second, relatively non flowable state to form a protective barrier surrounding the severed end. The media may be a hydrogel, and the transformation may produce a synthetic crosslinked hydrogel protective barrier. The media may include at least one anti-regeneration agent to inhibit nerve regrowth.

The invention relates to methods of preparing a bone matrix solution, a bone matrix implant, and variants thereof. The invention also relates to methods of cell culture using the same. The invention further relates to bone matrix scaffolds comprising one or more bone matrix nanofibers, methods of preparing, and methods of use thereof. The invention also relates to methods of culturing cells and promoting differentiation of stem cells using the same.