Silk processed, coated, repaired, and/or infused leather or leather articles, and methods of preparing the same are disclosed herein.

A biodegradable resin composition containing a resin and a protein, the resin being contained in an amount of 40 to 99.9% by mass in the resin composition, the resin containing a polyester-based resin, the polyester-based resin having three or more structural units, at least one of the structural units being a succinic acid unit, an azelaic acid unit, a sebacic acid unit, or a brassylic acid unit. The biodegradable resin composition can increase the speed of biodegradation and the percentage of degradation of a polyester-based resin in the sea and has good moldability. A molded article of the biodegradable resin composition. A method of biodegrading a polyester-based resin, by biodegrading the polyester-based resin in sea water in the presence of a protein.

A biodegradable resin composition containing a resin and a protein, the resin being contained in an amount of 40 to 99.9% by mass in the resin composition, the resin containing a polyester-based resin, the polyester-based resin having three or more structural units, at least one of the structural units being a succinic acid unit, an azelaic acid unit, a sebacic acid unit, or a brassylic acid unit. The biodegradable resin composition can increase the speed of biodegradation and the percentage of degradation of a polyester-based resin in the sea and has good moldability. A molded article of the biodegradable resin composition. A method of biodegrading a polyester-based resin, by biodegrading the polyester-based resin in sea water in the presence of a protein.

A biodegradable resin composition containing a resin and a protein, the resin being contained in an amount of 40 to 99.9% by mass in the resin composition, the resin containing a polyester-based resin, the polyester-based resin having three or more structural units, at least one of the structural units being a succinic acid unit, an azelaic acid unit, a sebacic acid unit, or a brassylic acid unit. The biodegradable resin composition can increase the speed of biodegradation and the percentage of degradation of a polyester-based resin in the sea and has good moldability. A molded article of the biodegradable resin composition. A method of biodegrading a polyester-based resin, by biodegrading the polyester-based resin in sea water in the presence of a protein.

An example medical device includes a vascular device, such as a catheter, and an anti-thrombogenic coating on a surface of the vascular device, such as a surface likely to contact blood. The anti-thrombogenic coating includes one or more peptides configured to interact with fibrinogen in the blood, such as a first type of peptides configured to bind to fibrinogen a second type of peptides configured to inhibit conversion of fibrinogen to fibrin. The anti-thrombogenic coating also includes a polymer, such as a hydrocolloid polymer, a tunable polyethylene glycol (PEG), or other controlled release polymer configured to control release of the one or more peptides and maintain a concentration of the peptides at the surface of the anti-thrombogenic coating above a minimum inhibitory concentration, thereby inhibiting thrombin formation on the intravascular medical device.

An example medical device includes a vascular device, such as a catheter, and an anti-thrombogenic coating on a surface of the vascular device, such as a surface likely to contact blood. The anti-thrombogenic coating includes one or more peptides configured to interact with fibrinogen in the blood, such as a first type of peptides configured to bind to fibrinogen a second type of peptides configured to inhibit conversion of fibrinogen to fibrin. The anti-thrombogenic coating also includes a polymer, such as a hydrocolloid polymer, a tunable polyethylene glycol (PEG), or other controlled release polymer configured to control release of the one or more peptides and maintain a concentration of the peptides at the surface of the anti-thrombogenic coating above a minimum inhibitory concentration, thereby inhibiting thrombin formation on the intravascular medical device.

A method for modifying the properties of balsa wood comprises infiltrating a protein ionic liquid comprising polymerized dopamine into delignified balsa wood. A method of making an optically active protective coating comprises mixing protein ionic liquid comprising polymerized dopamine with ethyl acetate-based or water-based nail polish. A method of making a thermoplastic having biological activity comprises melting a thermoplastic; and blending a protein ionic liquid with the thermoplastic; and cooling the thermoplastic protein ionic liquid blend to a solid state. The thermoplastic is a hot glue stick. The protein ionic liquid comprises antibodies, enzymes, or fluorescent proteins. A method of making a chymotrypsin protein ionic liquid/thermoplastic material comprises mixing cationized chymotrypsin and anions of poly(ethylene glycol) 4-nonylphenyl 3-sulfopropyl ether to form a chymotrypsin and anion complex; lyophilizing and melting the cationized chymotrypsin and anion complex to form a water-free ionic liquid; blending the chymotrypsin ionic liquid with molten hot glue/thermoplastic.

Various aspects described herein relate to compositions comprising silk fibroin particles and methods of using the same, as well as devices and methods of delivering such compositions. The compositions described herein are suitable for injection into a site of defect in a soft tissue to provide bulking and/or augmentation effect to the soft tissue.

Various aspects described herein relate to compositions comprising silk fibroin particles and methods of using the same, as well as devices and methods of delivering such compositions. The compositions described herein are suitable for injection into a site of defect in a soft tissue to provide bulking and/or augmentation effect to the soft tissue.

Various aspects described herein relate to compositions comprising silk fibroin particles and methods of using the same, as well as devices and methods of delivering such compositions. The compositions described herein are suitable for injection into a site of defect in a soft tissue to provide bulking and/or augmentation effect to the soft tissue.