The University of Florida Research Foundation, Inc.
대리인 / 주소
Saliwanchik, Lloyd & Saliwanchik
인용정보
피인용 횟수 :
11인용 특허 :
19
초록▼
The subject invention concerns a composite comprising an organic fluid-swellable, fibrous matrix, such as collagen, and a mineral phase, such as calcium carbonate or phosphate mineral phase, for use as a biomimetic of bone. In another aspect, the subject invention concerns a process for making a com
The subject invention concerns a composite comprising an organic fluid-swellable, fibrous matrix, such as collagen, and a mineral phase, such as calcium carbonate or phosphate mineral phase, for use as a biomimetic of bone. In another aspect, the subject invention concerns a process for making a composite involving the inclusion of acidic polymers to a supersaturated mineralizing solution, in order to induce an amorphous liquid-phase precursor to the inorganic mineral, which is then absorbed (pulled by capillary action) into the organic matrix. Advantageously, once solidified, a high mineral content can be achieved, with the inorganic mineral crystals embedded within the collagen fibers (intrafibrillarly) and oriented such that they are aligned along the long axes of the fibers of the organic matrix, thereby closely mimicking the natural structure of bone. The present invention further concerns a method of treating a patient suffering from a bone defect by applying a biomimetic composite to the bone defect site.
대표청구항▼
We claim: 1. A biomimetic organic/inorganic composite comprising: a fluid-swellable, fibrous organic matrix comprising fibers and interstitial spaces; and an inorganic mineral phase of amorphous or crystalline structure that coats and infiltrates each of said fibers, and is embedded in said interst
We claim: 1. A biomimetic organic/inorganic composite comprising: a fluid-swellable, fibrous organic matrix comprising fibers and interstitial spaces; and an inorganic mineral phase of amorphous or crystalline structure that coats and infiltrates each of said fibers, and is embedded in said interstitial spaces. 2. The organic/inorganic composite of claim 1, wherein the fibers of said fluid-swellable, fibrous organic matrix are substantially parallel to one another. 3. The organic/inorganic composite of claim 1, wherein each of said fibers comprises fibrils, wherein said interstitial spaces comprise gaps and grooves in and between said fibrils, and wherein said inorganic mineral phase is embedded in said gaps and grooves. 4. The organic/inorganic composite of claim 1, wherein said inorganic mineral phase comprises crystals that are non-faceted. 5. The organic/inorganic composite of claim 1, wherein said fluid-swellable, fibrous organic matrix comprises at least one material selected from the group consisting of collagen, elastin, chitin, cellulose, and chitosan. 6. The organic/inorganic composite of claim 1, wherein said fluid-swellable, fibrous organic matrix comprises collagen. 7. The organic/inorganic composite of claim 6, wherein said collagen comprises collagen fibers, wherein each of said fibers comprises abutting fibrils with gaps and/or grooves arranged within and between said abutting fibrils, and wherein said inorganic mineral phase is embedded within said gaps and/or grooves. 8. The organic/inorganic composite of claim 1, wherein said inorganic mineral phase comprises calcium phosphate. 9. The organic/inorganic composite of claim 1, wherein said composite further comprises one or more biologically active agents on or within said composite. 10. The organic/inorganic composite of claim 9, wherein said one or more biologically active agents are selected from the group consisting of medicaments, vitamins; mineral supplements, substances used for the treatment, diagnosis, or mitigation of disease or illness, substances affecting the structure or function of the body, drugs, antimicrobial agents, antifungal agents, antibacterial agents, antiviral agents, antiparasitic agents, growth factors, angiogenic factors, anaesthetics, mucopolysaccharides, metals, cells, acid mucopolysaccharides, proteins, enzymes, peptides, and wound healing agents. 11. The organic/inorganic composite of claim 10, wherein said one or more biologically active agents are seeded on said composite or embedded within said composite. 12. The organic/inorganic composite of claim 10, wherein said one or more biologically active agents are pendantly attached to said fluid-swellable, fibrous organic matrix or said inorganic mineral phase. 13. The organic/inorganic composite of claim 10, wherein said one or more biologically active agents are embedded within said organic fluid-swellable, fibrous organic matrix, or said inorganic mineral phase, or both. 14. The organic/inorganic composite of claim 1, wherein said organic/inorganic composite is in a form selected from the group consisting of an injectable liquid, a malleable paste, a malleable putty, a particulate, a film, a coating, a molded solid, and a preformed solid. 15. The organic/inorganic composite of claim 1, wherein said fluid-swellable, fibrous organic matrix is biocompatible and bioresorbable. 16. The organic/inorganic composite of claim 1, further comprising cells seeded on said composite. 17. The organic/inorganic composite of claim 1, wherein said fluid-swellable, fibrous organic matrix comprises a film or coating. 18. The biomimetic organic/inorganic composite of claim 1, wherein said fibers of said fluid-swellable, fibrous organic matrix are fibrils.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (19)
Fairchild George Henry ; Thatcher Richard Louis, Acicular calcite and aragonite calcium carbonate.
Smestad Thomas L. (Palo Alto CA) Prows Daniel (Santa Clara CA) Chu George H. (Sunnyvale CA) Hendricks Diana M. (Brea CA), Gamma irradiation of collagen/mineral mixtures.
Lemons J. E. (c/o University of Alabama in Birmingham ; School of Dentistry ; Box 49 Birmingham AL 35294), Inorganic and organic composition for treatment of bone lesions.
Constantz Brent R. (Scott Valley CA) Barr Bryan (Mountain View CA) McVicker Kevin (Fremont CA), Intimate mixture of calcium and phosphate sources as precursor to hydroxyapatite.
Koukoulas, Alexander A.; Altman, Thomas E.; Matthew, M. C.; Amidon, Thomas E.; Mora, Fernand, Method to manufacture paper using fiber filler complexes.
Song Suk-Zu (Moorpark CA) Morawiecki Andrew (Camarillo CA) Pierce Glenn F. (Thousand Oaks CA) Pitt Colin G. (Westlake Village CA), Multi-layered collagen film compositions for delivery of proteins and methods of using same.
Silver Frederick H. (103 Springbrook Dr. Bangor PA 18013) Christiansen David (270 Altamont Pl. Somerville NJ 08876), Process for the mineralization of collagen fibers, product produced thereby and use thereof to repair bone.
Piez Karl A. (Menlo Park CA) Pharriss Bruce B. (Palo Alto CA) Chu George H. (Sunnyvale CA) Smestad Thomas L. (Palo Alto CA) Hendricks Diana (Palo Alto CA), Xenogeneic collagen/mineral preparations in bone repair.
Dowling, Matthew; Hess, John; Bochicchio, Grant; Raghavan, Srinivasa, Advanced functional biocompatible polymeric matrix used as a hemostatic agent and system for damaged tissues and cells.
Garigapati, Venkat R.; Hess, Brian J.; Kimsey, Cassandra L.; Murphy, Matthew E., Organophosphorous, multivalent metal compounds, and polymer adhesive interpenetrating network compositions and methods.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.