Treatment of Traumatic Spinal Pathology Utilizing Silicated Calcium - Phosphate Graft in Posterolateral Fusion. A Preliminary Report.
Treatment of Degenerative Spinal Pathology Utilizing Siliicated Calcium Phosphate Graft in Posterolateral Fusion
Clinical and Radiographic Evaluation of Silicate-substituted Calcium Phosphate Ceramic in Posterolateral Lumbar Spinal Fusion
Use of silicated bone graft extenders to promote cervical interbody fusion: Clinical and radiographic
Experience with the Use of Silicated Calcium Phosphate in Lumbar Interbody Fusions Procedures 2 Years
ApaPore - An effective bone substitute in the management of benign cystic bone lesions
Variation in the rate of bone apposition within porous hydroxyapatite and tricalcium phosphate bone graft substitutes
Microporosity an important mediator of bioactivity in bone graft substitutes
Silicate substitution alters the progression of bone apposition within porous hydroxyapatite bone graft substitutes
Maximising Osseointegration. Unique Bone Grafting Solutions for Different Surgical Applications
Mechanical Testing of ApaPore-60 as a Bone Graft Extender
Biological Evaluation of a Morphologically Distinct Porous Hydroxyapatite Bone Graft Substitute
Enhanced In Vivo Response To Silicate-Substituted Hydroxyapatite
Microporosity affects Bioactivity of Macroporous HA Bone Graft Substitutes
Contemporary Options In Synthetic Bone Graft Alternatives
Advances in Bone Grafting in Spine Surgery
Clinical Experience with Actifuse™ Synthetic Bone Graft in Non-Instrumented Multi-Level Lumbar Spinal Fusion
Clinical Experience with Actifuse™ Synthetic Bone Graft in L5/S1 Transforaminal Lumbar Interbody Fusion with Posterolateral Fusion
Silicate Substituted Calcium Phosphate (Actifuse™ Synthetic Bone Graft) used with Trans-sacral Approach as a Novel Minimally Invasive Revision Strategy for Nonunion of L5-S1 Transforaminal Lumbar Interbody Fusion
Silicate Substituted Calcium Phosphate (Actifuse™ Synthetic Bone Graft) as a Bone Void Filler after Kyphoplasty in a 25 year-old with Multiple Compression Fractures Secondary to Osteogenesis Imperfecta Variant
Biopsy Assessment of Actifuse™ Synthetic Bone Graft at One Year Post Lumbosacral Fusion Surgery
Biological and Clinical Implications of the Use of Soluble Bone Grafts
Klinische Erfahrungen mit dem synthetischem Knochenersatz Actifuse™ bei stand-alone anteriorer lumbaler intercorporeller Fusion (ALIF)
German Case Studies
Klinische Erfahrungen mit dem synthetischen Knochenersatzstoff Actifuse™ bei posterolateralen Fusionen
German Case Studies
Anteriore zervikale Diskektomie und Fusion mit dem synthetischen Knochenersatzstoff Actifuse™
German Case Studies
Treatment of Degenerative Spinal Pathology Utilizing Siliicated Calcium Phosphate Graft in Posterolateral Fusion
Clinical and Radiographic Evaluation of Silicate-substituted Calcium Phosphate Ceramic in Posterolateral Lumbar Spinal Fusion
Use of silicated bone graft extenders to promote cervical interbody fusion: Clinical and radiographic
Experience with the Use of Silicated Calcium Phosphate in Lumbar Interbody Fusions Procedures 2 Years
ApaPore - An effective bone substitute in the management of benign cystic bone lesions
Variation in the rate of bone apposition within porous hydroxyapatite and tricalcium phosphate bone graft substitutes
Microporosity an important mediator of bioactivity in bone graft substitutes
Silicate substitution alters the progression of bone apposition within porous hydroxyapatite bone graft substitutes
Maximising Osseointegration. Unique Bone Grafting Solutions for Different Surgical Applications
Mechanical Testing of ApaPore-60 as a Bone Graft Extender
Biological Evaluation of a Morphologically Distinct Porous Hydroxyapatite Bone Graft Substitute
Enhanced In Vivo Response To Silicate-Substituted Hydroxyapatite
Microporosity affects Bioactivity of Macroporous HA Bone Graft Substitutes
Contemporary Options In Synthetic Bone Graft Alternatives
Advances in Bone Grafting in Spine Surgery
Clinical Experience with Actifuse™ Synthetic Bone Graft in Non-Instrumented Multi-Level Lumbar Spinal Fusion
Clinical Experience with Actifuse™ Synthetic Bone Graft in L5/S1 Transforaminal Lumbar Interbody Fusion with Posterolateral Fusion
Silicate Substituted Calcium Phosphate (Actifuse™ Synthetic Bone Graft) used with Trans-sacral Approach as a Novel Minimally Invasive Revision Strategy for Nonunion of L5-S1 Transforaminal Lumbar Interbody Fusion
Silicate Substituted Calcium Phosphate (Actifuse™ Synthetic Bone Graft) as a Bone Void Filler after Kyphoplasty in a 25 year-old with Multiple Compression Fractures Secondary to Osteogenesis Imperfecta Variant
Biopsy Assessment of Actifuse™ Synthetic Bone Graft at One Year Post Lumbosacral Fusion Surgery
Biological and Clinical Implications of the Use of Soluble Bone Grafts
Klinische Erfahrungen mit dem synthetischem Knochenersatz Actifuse™ bei stand-alone anteriorer lumbaler intercorporeller Fusion (ALIF)
German Case Studies
Klinische Erfahrungen mit dem synthetischen Knochenersatzstoff Actifuse™ bei posterolateralen Fusionen
German Case Studies
Anteriore zervikale Diskektomie und Fusion mit dem synthetischen Knochenersatzstoff Actifuse™
German Case Studies
Treatment of Traumatic Spinal Pathology Utilizing Silicated Calcium - Phosphate Graft in Posterolateral Fusion. A Preliminary Report.
Authors: Eskander MS, Hays P, Eskander JP, Brooks DD, Franklin P, Connolly PJ
Treatment of Degenerative Spinal Pathology Utilizing Siliicated Calcium Phosphate Graft in Posterolateral Fusion
Authors: Eskander MS, Hays P, Eskander JP, Brooks DD, Franklin P, Connolly P
Institution: Division of Spine Surgery, University of Massachusetts
Memorial Medical Center
Worcester, MA, USA
Institution: Division of Spine Surgery, University of Massachusetts
Memorial Medical Center
Worcester, MA, USA
Clinical and Radiographic Evaluation of Silicate-substituted Calcium Phosphate Ceramic in Posterolateral Lumbar Spinal Fusion
Authors: Louis G. Jenis, MD & Robert J. Banco, MD
Institution: Boston Spine Group
New England Baptist Hospital
125 Parker Hill Avenue
Boston, MA, US
Institution: Boston Spine Group
New England Baptist Hospital
125 Parker Hill Avenue
Boston, MA, US
Use of silicated bone graft extenders to promote cervical interbody fusion: Clinical and radiographic
Authors: Michael Y. Wang MD; Azadeh Farin MD; Paul Khoueir MD; James Bradley Elder MD
Institution: The University of Miami Department of Neurological Surgery & The University of Southern California Department of Neurological Surgery
Institution: The University of Miami Department of Neurological Surgery & The University of Southern California Department of Neurological Surgery
Experience with the Use of Silicated Calcium Phosphate in Lumbar Interbody Fusions Procedures 2 Years
Authors: Luiz Pimenta MD PhD; Lhamby Juliano; Ihab Gharzeddine; Carlos Fernando Arias Pesántez MD; Etevaldo Coutinho
Institution: Santa Rita Hospital Sao Paulo, SP Brazil
Institution: Santa Rita Hospital Sao Paulo, SP Brazil
Authors: T.Kochhar, R.Williams, S.R.Cannon, T.W.R.Briggs
Institution: Bone Tumour Unit, Royal National Orthopaedic Hospital, U.K.
Institution: Bone Tumour Unit, Royal National Orthopaedic Hospital, U.K.
Variation in the rate of bone apposition within porous hydroxyapatite and tricalcium phosphate bone graft substitutes
Authors: K. A. Hing1, S.Saeed2, B.Annaz1, T.Buckland3, P.A.Revell2
1 IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS.
2 Osteoarticular Research Group, IRC, University College London, Dept. of Histopathology, Royal Free Campus, NW3 2PF, U.K.
3 ApaTech Ltd., IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS
ORS Poster, San Francisco, 2004
1 IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS.
2 Osteoarticular Research Group, IRC, University College London, Dept. of Histopathology, Royal Free Campus, NW3 2PF, U.K.
3 ApaTech Ltd., IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS
ORS Poster, San Francisco, 2004
Authors: K. A. Hing1, S.Saeed2, B.Annaz1, T.Buckland3, P.A.Revell2
1 IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS.
2 Osteoarticular Research Group, IRC, University College London, Dept. of Histopathology, Royal Free Campus, NW3 2PF, U.K.
3 ApaTech Ltd., IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS
ORS Poster, San Francisco, 2004
1 IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS.
2 Osteoarticular Research Group, IRC, University College London, Dept. of Histopathology, Royal Free Campus, NW3 2PF, U.K.
3 ApaTech Ltd., IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS
ORS Poster, San Francisco, 2004
Silicate substitution alters the progression of bone apposition within porous hydroxyapatite bone graft substitutes
Authors: K. A. Hing1, S.Saeed2, B.Annaz1, T.Buckland3, P.A.Revell2
1 IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS.
2 Osteoarticular Research Group, IRC, University College London, Dept. of Histopathology, Royal Free Campus, NW3 2PF, U.K.
3 ApaTech Ltd., IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS
ORS Poster, San Francisco, 2004
1 IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS.
2 Osteoarticular Research Group, IRC, University College London, Dept. of Histopathology, Royal Free Campus, NW3 2PF, U.K.
3 ApaTech Ltd., IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS
ORS Poster, San Francisco, 2004
Authors: K. A. Hing, IRC in Biomedical Materials, Queen Mary, University of London, T. Buckland and P. Moseley, ApaTech Ltd, U.K.
Orthopaedic Product News, August 2003.
Orthopaedic Product News, August 2003.
Authors: KL Phipps, J Pegrum, N Smith1, G Blunn
The Centre for Biomedical Engineering, Institute of Orthopaedics, UCL, Royal
National Orthopaedic Hospital, Stanmore, Middlesex, HA7 4LP
1 ApaTech Ltd, Queen Mary, University of London, Mile End Road, London E1 4NS
BORS Poster, 2003.
The Centre for Biomedical Engineering, Institute of Orthopaedics, UCL, Royal
National Orthopaedic Hospital, Stanmore, Middlesex, HA7 4LP
1 ApaTech Ltd, Queen Mary, University of London, Mile End Road, London E1 4NS
BORS Poster, 2003.
Authors: K.A. Hing1, E. Damien2, T. McInness2, P.A. Revell2
1 IRC in Biomedical Materials, Queen Mary University of London, London E1 4NS.
2 IRC in Biomedical Materials, Department of Histopathology, Royal Free Campus, University College London, London, NW3 2PF
ESB 2002, Barcelona, Spain.
Proceedings of the 17th European Conference on Biomaterials, pp P150 (2002).
1 IRC in Biomedical Materials, Queen Mary University of London, London E1 4NS.
2 IRC in Biomedical Materials, Department of Histopathology, Royal Free Campus, University College London, London, NW3 2PF
ESB 2002, Barcelona, Spain.
Proceedings of the 17th European Conference on Biomaterials, pp P150 (2002).
Authors: I.R. Gibson1, K.A. Hing1, P.A. Revell2, J.D. Santos3, S.M. Best4, W. Bonfield4
1 IRC Biomedical Materials, Queen Mary, University of London, U.K.
2 IRC in Biomedical Materials, Royal Free and University College Medical School, London, U.K.
3 Instituto de Engenharia Biomedica, Laboratorio de Biomaterials, Porto, Portugal.
4 Now at: Dept. of Materials & Metallurgy, University of Cambridge, U.K.
Key Engineering Materials Vols. 218-220 (2002) pp. 203-206.
1 IRC Biomedical Materials, Queen Mary, University of London, U.K.
2 IRC in Biomedical Materials, Royal Free and University College Medical School, London, U.K.
3 Instituto de Engenharia Biomedica, Laboratorio de Biomaterials, Porto, Portugal.
4 Now at: Dept. of Materials & Metallurgy, University of Cambridge, U.K.
Key Engineering Materials Vols. 218-220 (2002) pp. 203-206.
Authors: K. A. Hing1, S. Saeed2, B. Annaz1, T. Buckland3, P. A. Revell2
1 IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS.
2 Osteoarticular Research Group, IRC, University College London, Dept. of Histopathology, Royal Free Campus, NW3 2PF, U.K.
3 ApaTech Ltd., IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS
Bioceramics 2003, Porto, Portugal.
Key Engineering Materials Vols. 254-256 (2004) pp. 273-276.
1 IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS.
2 Osteoarticular Research Group, IRC, University College London, Dept. of Histopathology, Royal Free Campus, NW3 2PF, U.K.
3 ApaTech Ltd., IRC in Biomedical Materials, Mile End Road, Queen Mary Univerisity of London, London E1 4NS
Bioceramics 2003, Porto, Portugal.
Key Engineering Materials Vols. 254-256 (2004) pp. 273-276.
Jared F. Brandoff, M.D.
Department of Orthopaedic Surgery
Long Island Jewish Medical Center, New Hyde Park, NY
Jeff S. Silber, M.D.
Assistant Professor, Albert Einstein School of Medicine
Department of Orthopaedic Surgery
North Shore/Long Island Jewish Health System, New Hyde Park, NY
Alexander R. Vaccaro, M.D.*
Professor, Department of Neurosurgery and Orthopaedic Surgery
Thomas Jefferson University, The Rothman Institute, Philadelphia, PA
Department of Orthopaedic Surgery
Long Island Jewish Medical Center, New Hyde Park, NY
Jeff S. Silber, M.D.
Assistant Professor, Albert Einstein School of Medicine
Department of Orthopaedic Surgery
North Shore/Long Island Jewish Health System, New Hyde Park, NY
Alexander R. Vaccaro, M.D.*
Professor, Department of Neurosurgery and Orthopaedic Surgery
Thomas Jefferson University, The Rothman Institute, Philadelphia, PA
SYNOPSIS
Internet Clinical Symposium
March 2, 2006
Symposium Faculty
LOUIS JENIS, MD (moderator)
Boston Spine Group
New England Baptist /Medical Center
Boston, Massachusetts
JONATHAN GRAUER, MD
Assistant Professor, Department of Orthopedics and Rehabilitation
Yale University School of Medicine
New Haven, Connecticut
PROFESSOR GORDON BLUNN, PHD
Head, Centre for Bio-Medical Engineering
University College London
London, England
Internet Clinical Symposium
March 2, 2006
Symposium Faculty
LOUIS JENIS, MD (moderator)
Boston Spine Group
New England Baptist /Medical Center
Boston, Massachusetts
JONATHAN GRAUER, MD
Assistant Professor, Department of Orthopedics and Rehabilitation
Yale University School of Medicine
New Haven, Connecticut
PROFESSOR GORDON BLUNN, PHD
Head, Centre for Bio-Medical Engineering
University College London
London, England
Clinical Experience with Actifuse™ Synthetic Bone Graft in Non-Instrumented Multi-Level Lumbar Spinal Fusion
Author: Brad G. Prybis, M.D.
Institution: Carrollton Orthopaedic Clinic, Carrollton, GA
Institution: Carrollton Orthopaedic Clinic, Carrollton, GA
Clinical Experience with Actifuse™ Synthetic Bone Graft in L5/S1 Transforaminal Lumbar Interbody Fusion with Posterolateral Fusion
Author: Brad G. Prybis, M.D.
Institution: Carrollton Orthopaedic Clinic, Carrollton, GA
Institution: Carrollton Orthopaedic Clinic, Carrollton, GA
Silicate Substituted Calcium Phosphate (Actifuse™ Synthetic Bone Graft) used with Trans-sacral Approach as a Novel Minimally Invasive Revision Strategy for Nonunion of L5-S1 Transforaminal Lumbar Interbody Fusion
Author: Mitchell A. Hardenbrook, MD
Director Spine Surgery, Department of Orthopaedic Surgery
Institution: Naval Medical Center, Portsmouth, VA
Director Spine Surgery, Department of Orthopaedic Surgery
Institution: Naval Medical Center, Portsmouth, VA
Silicate Substituted Calcium Phosphate (Actifuse™ Synthetic Bone Graft) as a Bone Void Filler after Kyphoplasty in a 25 year-old with Multiple Compression Fractures Secondary to Osteogenesis Imperfecta Variant
Author: Mitchell A. Hardenbrook, MD
Director Spine Surgery, Department of Orthopaedic Surgery
Institution: Naval Medical Center, Portsmouth, VA
Director Spine Surgery, Department of Orthopaedic Surgery
Institution: Naval Medical Center, Portsmouth, VA
Dr. Ian Woodgate, MBBS(Hons), FRACS(Orth), F.A.Orth.A
St. VincentÂ’s Clinic
Sydney, Australia
Gordon Blunn, PhD
Centre for Biomedical Engineering
University College, London
St. VincentÂ’s Clinic
Sydney, Australia
Gordon Blunn, PhD
Centre for Biomedical Engineering
University College, London
Paul Rhys Davies, MBBS, FRCS, FRCS(Orth)
Consultant, Spinal Orthopaedic Surgeon
University Hospital of Wales, UK
Gordon Blunn, PhD
Centre for Biomedical Engineering
University College, London
Consultant, Spinal Orthopaedic Surgeon
University Hospital of Wales, UK
Gordon Blunn, PhD
Centre for Biomedical Engineering
University College, London
Klinische Erfahrungen mit dem synthetischem Knochenersatz Actifuse™ bei stand-alone anteriorer lumbaler intercorporeller Fusion (ALIF)
German Case Studies
German Case Studies
Authors: Louis G. Jenis, MD, Boston Spine Group, New England Baptist Hospital, Boston, MA, USA
Klinische Erfahrungen mit dem synthetischen Knochenersatzstoff Actifuse™ bei posterolateralen Fusionen
German Case Studies
German Case Studies
Authors: Louis G. Jenis, MD Boston Spine Group New England Baptist Hospital,
Boston, MA, USA
Boston, MA, USA
Anteriore zervikale Diskektomie und Fusion mit dem synthetischen Knochenersatzstoff Actifuse™
German Case Studies
German Case Studies
Authors: Alwyn Jones, MD Consultant Spinal Surgeon, University Hospital of Wales, UK
