Patent application number | Description | Published |
20110111028 | Composition and Methods For Repair of Connective Tissue - Compositions and methods for repairing a ruptured connective tissue are disclosed. The composition may include a first biocompatible material to provide a scaffold for connective tissue cell growth and tissue repair. This first biocompatible material may withstand a tensile load of up to 250 N. The composition may also include a second biocompatible material including at least one bioactive agent that can stimulate connective tissue cell growth and tissue repair. The method may include positioning a first end of the first biocompatible material adjacent a first end of a ruptured connective tissue, positioning a second end of the first biocompatible material adjacent a second end of the ruptured connective tissue, and anchoring the first biocompatible material to the first and second tendon ends. The method may alternatively comprise or further include positioning a second biocompatible material between the first and second ends of the ruptured connective tissue. | 05-12-2011 |
20120003176 | HYDROGEL-FORMING COMPOSITION COMPRISING NATURAL AND SYNTHETIC SEGMENTS - A hydrogel composition is formed from a natural polymer derivative having a plurality of cross-linkable units depending therefrom, and a synthetic polymer derivative having a plurality of cross-linkable units depending therefrom, said natural and synthetic polymer derivatives having hydrolysable units disposed between the polymer backbone of said derivative and at least some of said cross-linkable units. The use of a combination of natural and synthetic polymers provides for biodegradability of the hydrogel, along with mechanical properties such as strength and elasticity. | 01-05-2012 |
20120003192 | HYDROGEL-FORMING COMPOSITION COMPRISING PROTEIN AND NON-PROTEIN SEGMENTS - A hydrogel-forming composition is formed from a protein polymer derivative having a plurality of cross-linkable units depending therefrom, and a non-protein polymer derivative having a plurality of cross-linkable units depending therefrom, said non-protein polymer derivatives having hydrolysable units disposed between the polymer backbone of said derivative and at least some of said cross-linkable units. The use of a combination of protein and non-protein polymers provides for biodegradability of the hydrogel by hydrolysis of the hydrolysable units and/or enzymatic degradation of the proteins, along with mechanical properties such as strength and elasticity. | 01-05-2012 |
20120020932 | THERMOSENSITIVE HYDROGEL COMPOSITION AND METHOD - A hydrogel-forming composition is provided that comprises an extracellular matrix protein, hyaluronic acid, and a thermosensitive biocompatible polymer such as methylcellulose. The hydrogels can provide a therapeutic effect; further, the hydrogels may comprise an optional therapeutic agent such as cells or a pharmaceutical composition. The composition may be injected to an area in need of treatment by the therapeutic agent. The composition may form a gel at about 37° C., such that the gel maintains the therapeutic agent in the area of the body in need of such treatment. | 01-26-2012 |
20120179173 | MEDICAL DEVICES AND METHODS FOR CUTTING AND SUTURING BIOLOGICAL TISSUE - Medical devices for cutting and suturing biological tissue generally include a shaft and first and second guide members each including a first portion coupled to the shaft at a first location and a second portion coupled to the shaft at a second location. The first portions are movable along the shaft relative to the second portions, and the first and second guide members define an arcuate profile and are configured to flex in response to such movement. When used to cut tissue, the medical device may further include a blade positioned between the first and second guide members. When used to suture tissue, one or more suture guides may be provided on the first guide member for directing a suture needle through tissue proximate the first guide member. Methods of repairing and replacing a meniscus using the medical devices are also provided. | 07-12-2012 |
20120183586 | METHOD OF OBTAINING VIABLE SMALL TISSUE PARTICLES AND USE FOR TISSUE REPAIR - The invention provides a composition including isolated small living tissue particles, a method of making the tissue particles, and a method of using the composition to ameliorate a tissue defect. The tissue particles are composed of cells and their associated extracellular molecules and are sized, in certain embodiments, to be smaller than about 1 mm. Another aspect of the inventive tissue particles is the large percentage of viable cells. In certain embodiments, the tissue particles are made from cartilage and the composition may also contain additives such as adhesives, solutions, and bioactive agents. | 07-19-2012 |
20130131699 | POROUS METAL DEVICE FOR REGENERATING SOFT TISSUE-TO-BONE INTERFACE - The present disclosure relates, in some aspects, to orthopaedic implants for securing soft tissue to bone and methods for using the same. One particular implant comprises a first exposed porous surface region, having pores for promoting bone ingrowth, and a second exposed porous surface, having pores for promoting soft tissue ingrowth. At least some of the pores of the first exposed porous surface region may be seeded with osteocytic factors and at least some of the pores of the second exposed porous surface region may be seeded with fibrocytic factors. Such orthopaedic implants can advantageously facilitate regeneration of the soft tissue to bone interface. | 05-23-2013 |
20130330415 | METHOD OF OBTAINING VIABLE SMALL TISSUE PARTICLES AND USE FOR TISSUE REPAIR - The invention provides a composition including isolated small living tissue particles, a method of making the tissue particles, and a method of using the composition to ameliorate a tissue defect. The tissue particles are composed of cells and their associated extracellular molecules and are sized, in certain embodiments, to be smaller than about 1 mm. Another aspect of the inventive tissue particles is the large percentage of viable cells. In certain embodiments, the tissue particles are made from cartilage and the composition may also contain additives such as adhesives, solutions, and bioactive agents. | 12-12-2013 |
20140178343 | SUPPORTS AND METHODS FOR PROMOTING INTEGRATION OF CARTILAGE TISSUE EXPLANTS - The present disclosure provides tissue supports and methods for preparing a cartilage composition for repairing cartilage defects, which is prepared by expanding and integrating small cartilage tissue pieces derived from donor or engineered tissue. The methods and supports described herein promote cell migration and integration of neighboring tissue pieces in culture to form the cartilage composition. Methods of cartilage repair using the cartilage composition are also described. | 06-26-2014 |
20140335612 | SUPPORTS AND METHODS FOR PROMOTING INTEGRATION OF CARTILAGE TISSUE EXPLANTS - The present disclosure provides tissue supports and methods for preparing a cartilage composition for repairing cartilage defects, which is prepared by expanding and integrating small cartilage tissue pieces derived from donor or engineered tissue. The methods and supports described herein promote cell migration and integration of neighboring tissue pieces in culture to form the cartilage composition. Methods of cartilage repair using the cartilage composition are also described. | 11-13-2014 |