Bone Void Filler Orthopedic

RegenOsteo- β TCP

1. Nonallograft Osteoconductive Bone Graft Substitutes. Bucholz, Robert W. Clinical Orthopaedics and Related Research 395 (2002)44–52.
2. A new resorbable bone void filler in trauma: Early clinical experience and histological evaluation. Hinz, Peter et al. Orthopedics; (2002) 25.5 S597-600.
3. Ultraporous β-Tricalcium Phosphate Is Well Incorporated in Small Cavitary Defects Anker, Christopher et al. Clinical Orthopaedics and Related Research 434 (2005) 251–257.
4. Wise, Donald L. Encyclopedic Handbook Of Biomaterials And Bioengineering – Part A: Materials – Volume 2. 1st ed. Marcel Dekker, 1995.
5. Bone repair in the twenty-first century: biology, chemistry or engineering? Hing KA et al. Philos Transact A Math Phys Eng Sci.(2004).
6. Limitations of Autograft and Allograft New Synthetic Solutions. Betz, Randal R. Orthopedics 25.5 (2002): S561-570.
7. Use of an Advanced Formulation of B Tricalcium Phosphate as a Bone Extender in Interbody Lumbar Fusion. Peppers, Timothy A.,and Raymond J. Linovitz. Orthopedics 25.5 (2002): S585-589.
8. Applications of Calcium Phosphate Based Cancellous Bone Void Fillers in Trauma Surgery. Gunzburg, Robert, and Marek Szpalski.Orthopedics 25.5 (2002): S601-609.
9. The Role of the Osteoconductive Scaffold in Synthetic Bone Graf. Vaccaro, Alexander R. Orthopedics 25.5 (2002): S571-578.

Bone Void Filler Orthopedic

Bone Void Filler Orthopedic

Bone Void Filler Orthopedic