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Instrumented Lumbar Corpectomy And Spinal Reconstruction Comparing Rhbmp-2/Compression-Resistant Matrix, Rhbmp-2/Absorbable Collagen Sponge/Ceramic Granules Mixture, And Autograft In Two Different Devices: A Study In Sheep, Jeffrey M. Toth, David G. Schwartz, Jean-Piere Mobasser, Joseph Williams
Instrumented Lumbar Corpectomy And Spinal Reconstruction Comparing Rhbmp-2/Compression-Resistant Matrix, Rhbmp-2/Absorbable Collagen Sponge/Ceramic Granules Mixture, And Autograft In Two Different Devices: A Study In Sheep, Jeffrey M. Toth, David G. Schwartz, Jean-Piere Mobasser, Joseph Williams
Biomedical Engineering Faculty Research and Publications
Study Design. Fusion success with rhBMP-2 and autograft in titanium or PEEK corpectomy devices was evaluated in a sheep lumbar corpectomy model. The 6 treatment groups included titanium mesh or PEEK corpectomy devices filled with rhBMP-2 on a compression-resistant matrix (CRM) carrier; rhBMP-2 in a morselized absorbable collagen sponge (ACS) carrier combined with resorbable ceramic granules; and autograft.
Objective. The aim of this study was to determine fusion rates associated with 2 different preparations of rhBMP-2 as well as autograft in an instrumented ovine lumbar corpectomy model 6 months postoperatively.
Summary of Background Data. Vertebral reconstruction with corpectomy devices requires …
Polyetheretherketone As A Biomaterial For Spinal Applications, Jeffrey M. Toth, Mei Wang, Bradley T. Estes, Jeffrey L. Scifert, Howard B. Seim, A. Simon Turner
Polyetheretherketone As A Biomaterial For Spinal Applications, Jeffrey M. Toth, Mei Wang, Bradley T. Estes, Jeffrey L. Scifert, Howard B. Seim, A. Simon Turner
Biomedical Engineering Faculty Research and Publications
Threaded lumbar interbody spinal fusion devices (TIBFD) made from titanium have been reported to be 90% effective for single-level lumbar interbody fusion, although radiographic determination of fusion has been intensely debated in the literature. Using blinded radiographic, biomechanic, histologic, and statistical measures, we evaluated a radiolucent polyetheretherketone (PEEK)-threaded interbody fusion device packed with autograft or rhBMP-2 on an absorbable collagen sponge in 13 sheep at 6 months. Radiographic fusion, increased spinal level biomechanical stiffness, and histologic fusion were demonstrated for the PEEK cages filled with autograft or rhBMP-2 on a collagen sponge. No device degradation or wear debris was observed. …