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Bioactive composite matrix as a bone graft substitute
Treena Arinzeh (Inventor), Tamunotonye Briggs (Inventor)
New Jersey Institute of Technology
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Dive into the research topics of 'Bioactive composite matrix as a bone graft substitute'. Together they form a unique fingerprint.
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Keyphrases
Bioactive Composites
100%
Composite Matrix
100%
Bone Substitutes
100%
Bone Marrow
42%
Biomedical Engineering
28%
Biomaterials
28%
Mechanical Flexibility
28%
Japan
28%
US Patents
28%
Bone Formation
28%
Autograft
28%
Bone Graft
28%
Bone Ingrowth
28%
National Science Foundation
14%
New Jersey
14%
Stem Cells
14%
Institutes of Technology
14%
Bone Tissue
14%
Stem Cell Engineering
14%
Spinal Cord
14%
Surgical Procedures
14%
Synthetic Materials
14%
Healing
14%
Cell Attachment
14%
Infectious Diseases
14%
Point-of-care
14%
Germany
14%
Early Career Development
14%
Biological Activity
14%
Young Scientists
14%
Further Development
14%
Europe
14%
Functional Biomaterials
14%
Intellectual Property
14%
Intellectual Development
14%
Repair Method
14%
Early Career Award
14%
Nerve Regeneration
14%
Operative
14%
FDA-approved Drugs
14%
Implant Materials
14%
Osteoinductive
14%
Osteoconductivity
14%
Extender
14%
Forming Techniques
14%
Electrospinning Technique
14%
Treatment Costs
14%
Cellular Technology
14%
Development Status
14%
Improved Patient Outcomes
14%
Fiber Formation
14%
Allograft
14%
Femoral Defect
14%
Bone Fracture
14%
Bone Healing
14%
Current Treatment
14%
President Bush
14%
Adult Stem Cells
14%
Bone Cartilage
14%
High Failure Rate
14%
Long-term Pain
14%
Timing of Surgery
14%
Property Status
14%
Property Development
14%
Stem Cell Research
14%
Adult Stem Cell Therapy
14%
Musculoskeletal Tissue
14%
Most Cited
14%
Future Reality
14%
National Recognition
14%
Career Development Awards
14%
Insufficient Bone
14%
Large Animal Model Sheep
14%
Medicine and Dentistry
Bone Graft
100%
Biocompatible Material
75%
Stem Cell
75%
Ossification
50%
Autograft
50%
Adult Stem Cell
50%
Health Care Cost
25%
Biological Activity
25%
Cell Adhesion
25%
Surgical Technique
25%
Infection
25%
Nerve Regeneration
25%
Bone Tissue
25%
Stem Cell Therapy
25%
Side Effect
25%
Allograft
25%
Fracture
25%
Breast Implant
25%
Engineering
Stem Cell
100%
Bone Graft Substitute
100%
Biomedical Engineering
40%
Tissue Engineering
40%
Grafts
40%
Japan
40%
Defects
20%
Synthetic Material
20%
Implant
20%
Longer Term
20%
Final Product
20%
Germany
20%
Extender
20%
Electrospinning Process
20%
Failure Rate
20%
Bone Ingrowth
20%
Larger Animal
20%
Bone Application
20%
Nursing and Health Professions
Bone Graft
100%
Biomaterial
75%
Autograft
50%
Treatment Outcome
25%
Infection
25%
Implant
25%
Side Effect
25%
Fracture
25%
Allograft
25%
Breast Implant
25%
Surgical Technique
25%
Stem Cell Therapy
25%
Food and Drug Administration
25%
Electrospinning
25%
Pharmacology, Toxicology and Pharmaceutical Science
Biomaterial
100%
Biological Activity
33%
Infection
33%
Implant
33%
Side Effect
33%
Fracture
33%
Ovine Model
33%