Abstract: The present invention relates to a medical device, particularly a vascular graft or an arteriovenous (AV) graft for haemodialysis. The medical device comprises a layer of porous silk fibroin matrix and a layer of knitted silk fibers. The invention further relates to processes of manufacture of such medical devices and methods of use of such devices.

Abstract: A cartilaginous tissue repair device with a biocompatible, bioresorbable three-dimensional silk or other fibre lay and a biocompatible, bioresorbable substantially porous silk-based or other hydrogel partially or substantially filling the interstices of the fibre lay; with or without an integral means of firmly anchoring the device to a patient's hone.

Abstract: A cartilaginous tissue repair device with a biocompatible, bioresorbable three-dimensional silk or other fiber lay and a biocompatible, bioresorbable substantially porous silk-based or other hydrogel partially or substantially filling the interstices of the fiber lay; with or without an integral means of firmly anchoring the device to a patient's bone.

Abstract: This application discloses a composite material comprising one or more silk elements in an acrylic or cross-linked protein matrix. The silk elements are made from the group of silk elements consisting of domestic silkworm silk, wild silkworm silk, spider dragline silk, and filaments spun from recombinant silk protein or protein analogs. The composite material is particularly useful for use in-surgical-implants.

Abstract: The present invention relates to a medical device, particularly a vascular graft or an arteriovenous (AV) graft for haemodialysis. The medical device comprises a layer of porous silk fibroin matrix and a layer of knitted silk fibres. The invention further relates to processes of manufacture of such medical devices and methods of use of such devices.

Abstract: A method for the preparation of a regenerated silk fibroin solution comprises the steps of: treating silk or silk cocoons with an ionic reagent comprising an aqueous solution of monovalent cations and monovalent anions, the cations and anions having ionic radii of at least 1.05 Angstroms and a Jones-Dole B coefficient of between ?0.001 and ?0.05 at 25° C.; and subsequently degumming the treated silk or silk cocoons; or alternatively, degumming silk or silk cocoons; and subsequently treating the degummed silk or silk cocoons with an ionic reagent comprising an aqueous solution of monovalent cations and monovalent anions, the cations and anions having ionic radii of at least 1.05 Angstroms and a Jones-Dole B coefficient of between ?0.001 and ?0.05 at 25° C. The invention also extends to fibroin solution, a fibroin material and an implant useful for cartilage repair.

Abstract: A method for the preparation of a regenerated silk fibroin solution comprises the steps of: treating silk or silk cocoons with an ionic reagent comprising an aqueous solution of monovalent cations and monovalent anions, the cations and anions having ionic radii of at least 1.05 Angstroms and a Jones-Dole B coefficient of between ?0.001 and ?0.05 at 25° C.; and subsequently degumming the treated silk or silk cocoons; or alternatively, degumming silk or silk cocoons; and subsequently treating the degummed silk or silk cocoons with an ionic reagent comprising an aqueous solution of monovalent cations and monovalent anions, the cations and anions having ionic radii of at least 1.05 Angstroms and a Jones-Dole B coefficient of between ?0.001 and ?0.05 at 25° C. The invention also extends to fibroin solution, a fibroin material and an implant useful for cartilage repair.

Abstract: A method for the preparation of a regenerated silk fibroin solution comprises the steps of: treating silk or silk cocoons with an ionic reagent comprising an aqueous solution of monovalent cations and monovalent anions, the cations and anions having ionic radii of at least 1.05 Angstroms and a Jones-Dole B coefficient of between ?0.001 and ?0.05 at 25° C.; and subsequently degumming the treated silk or silk cocoons; or alternatively, degumming silk or silk cocoons; and subsequently treating the degummed silk or silk cocoons with an ionic reagent comprising an aqueous solution of monovalent cations and monovalent anions, the cations and anions having ionic radii of at least 1.05 Angstroms and a Jones-Dole B coefficient of between ?0.001 and ?0.05 at 25° C. The invention also extends to fibroin solution, a fibroin material and an implant useful for cartilage repair.

Abstract: A medical device comprises a tubular body having a lumen and a long axis; and a plurality of silk elements laid substantially parallel along the long axis of the lumen of the tubular body. A method of manufacturing the medical device comprises forming the tubular body and introducing the silk elements into the lumen of the tubular body so as to lie substantially parallel along the long axis of the lumen of the tubular body. The device can be used in a method for the regeneration of nerve cells comprising the implantation of a medical device at a site for regeneration of nerves.

Abstract: A method for the preparation of a regenerated silk fibroin solution comprises the steps of: treating silk or silk cocoons with an ionic reagent comprising an aqueous solution of monovalent cations and monovalent anions, the cations and anions having ionic radii of at least 1.05 Angstroms and a Jones-Dole B coefficient of between ?0.001 and ?0.05 at 25° C.; and subsequently degumming the treated silk or silk cocoons; or alternatively, degumming silk or silk cocoons; and subsequently treating the degummed silk or silk cocoons with an ionic reagent comprising an aqueous solution of monovalent cations and monovalent anions, the cations and anions having ionic radii of at least 1.05 Angstroms and a Jones-Dole B coefficient of between ?0.001 and ?0.05 at 25° C. The invention also extends to fibroin solution, a fibroin material and an implant useful for cartilage repair.

Abstract: A cartilaginous tissue repair device with a biocompatible, bioresorbable three-dimensional silk or other fibre lay and a biocompatible, bioresorbable substantially porous silk-based or other hydrogel partially or substantially filling the interstices of the fibre lay; with or without an integral means of firmly anchoring the device to a patient's bone.

Abstract: A medical device comprises a tubular body having a lumen and a long axis; and a plurality of silk elements laid substantially parallel along the long axis of the lumen of the tubular body. A method of manufacturing the medical device comprises forming the tubular body and introducing the silk elements into the lumen of the tubular body so as to lie substantially parallel along the long axis of the lumen of the tubular body. The device can be used in a method for the regeneration of nerve cells comprising the implantation of a medical device at a site for regeneration of nerves.

Abstract: A resorbable implantable device, such as a suture or prosthesis, comprising one or more silk elements made at least partially (poly)alanine Wild silk proteins of a saturnid moth or analogues thereof.

Abstract: An apparatus and method for forming liquid spinning solution into a solid formed product whereby the solution is passed through at least one tubular passage (17) having walls formed at least partly of semipermeable and/or porous material. The semipermeable and/or porous material allows parameters, such as the concentration of hydrogen ions, water, salts and low molecular weight, of the liquid spinning solution to be altered as the spinning solution passes through the tubular passage(s).

Abstract: An apparatus and method for forming liquid spinning solution into a solid formed product. The liquid spinning solution is passed through a die assembly having a tubular passage having walls formed partly of semipermeable and/or porous material. In operation, draw down of the liquid spinning solution is performed partly within the die assembly. The semipermeable and/or porous material allows parameters, such as the concentration of hydrogen ions, water, salts and low molecular weight constituents, of the spinning solution to be altered as the spinning solution passes through the tubular passage.