The disclosure relates to a tissue adhesive for use in a treatment method in which an ophthalmological implant is implanted in a human or animal patient and the ophthalmological implant is connected, at least partially in an integrally bonded manner, to eye tissue of the patient via the tissue adhesive. The disclosure also relates to an ophthalmological implantation system including an ophthalmological implant for implantation in a human or animal eye and to a tissue adhesive via which the ophthalmological implant is connectable, at least partially in an integrally bonded manner, to eye tissue of the patient.

The invention provides a polymerizable composition and a hydrogel obtained or obtainable from the polymerizable composition. The polymerizable composition comprises cucurbituril and a first monomer having a guest for the cucurbituril, wherein the total monomer concentration, C.sub.mon, within the polymerizable composition is at least 0.5 M. The composition may be an aqueous composition.

This disclosure relates to pectin-based polymer compositions and methods of use thereof to cover, protect, and seal injuries, e.g., surgical wounds, in a mesothelial tissue. The methods include obtaining a bioadhesive pectin-based polymer composition including a complex of high-methoxyl pectin (HMP) and carboxymethylcellulose (CMC) in a ratio from about 10 to 1 to 1 to 10 by weight; applying the composition to an injured mesothelial tissue; and applying pressure for at least one minute to enable the composition to bind to the mesothelial tissue.

The invention features adhesive devices for holding objects (e.g., bone fragments) fixed with respect to each other.

The invention provides a polymerizable composition and a hydrogel obtained or obtainable from the polymerizable composition. The polymerizable composition comprises cucurbituril and a first monomer having a guest for the cucurbituril, wherein the total monomer concentration, C.sub.mon, within the polymerizable composition is at least 0.5 M. The composition may be an aqueous composition.

An adhesive composition comprising a cyanoacrylate and a solidifying polymer. The composition may further comprise a hydrophilic material, e.g. silica particles, and/or one or more polymerisation inhibitors. The adhesive composition may be disposed on a surgical mesh. The surgical mesh carrying the adhesive composition may be used for hernia repair.

This disclosure relates to pectin-based polymer compositions and methods of use thereof to cover, protect, and seal injuries, e.g., surgical wounds, in a mesothelial tissue. The methods include obtaining a bioadhesive pectin-based polymer composition including a complex of high-methoxyl pectin (HMP) and carboxymethylcellulose (CMC) in a ratio from about 10 to 1 to 1 to 10 by weight; applying the composition to an injured mesothelial tissue; and applying pressure for at least one minute to enable the composition to bind to the mesothelial tissue.

The present disclosure provides a method for manufacturing a porous film, including: preparing a polymer mixture solution, wherein the polymer mixture solution includes polycaprolactone and at least one hydrophobic polymer; adding solid particles as a dispersing agent to the polymer mixture solution and mixing the solid particles with the polymer mixture solution, wherein the amount of solid particles added is enough to convert the polymer mixture solution into a solid mixture; drying the solid mixture to form a film; and washing the film with a washing fluid to remove the solid particles from the film to form the porous film, wherein the weight ratio of the polycaprolactone to the at least one hydrophobic polymer is about 1:0.1-10, and wherein the weight ratio of the polycaprolactone and the at least one hydrophobic polymer to the solid particles is about 1:0.01-250.

A water soluble biocompatible adhesive is provided comprising one or more compounds of structure 1 wherein B is an oligomer derived from a polyether or polyalkylene glycol, with a MW<5,000 g/mol, Linker L is a urethane, urea bond, or amide bond; Linker L′ is a urethane or urea bond, A is a chain extender of Mw≤3000 g/mol comprising substituted or unsubstituted alkyl, cycloalkyl and/or aromatic groups, W is a terminal adhesive benzene-1,2-diol derivative or a terminal adhesive benzene-1,2,3-diol derivative, m is 0 or 1; and n is 0, 1, 2, 3 or 4. The compound(s) have a Tg lower than 25° C. The biocompatible adhesive is suitable for use without solvent.

Compositions and methods are directed to engineered extracellular matrix protein—mussel foot protein fusions for use as a bioadhesive for repairing tissues. The compositions have one or more of: (i) at least one hydrophobic region; (ii) at least one crosslinking region; (iii) at least one tyrosine residue accessible to be enzymatically modified to a DOPA or TOPA side chain; (iv) at least one mussel foot protein; (v) at least one mussel foot protein loop; (vi) at least one human extracellular protein loop; or (vii) at least one of the following sequences: SEQ ID NO: 1, SEQ ID NO: 2, SEQ ID NO: 3, SEQ ID NO: 4, SEQ ID NO: 5, or SEQ ID NO: 6. The elastin-like polypeptide includes at least one non-naturally occurring amino acid or sequence alteration.