Biblio
Found 48 results
A Large Segmental Mid-diaphyseal Femoral Defect Sheep Model: Surgical Technique." Journal of Investigative Surgery. 2022.
"Osseosurface electronics – Thin, wireless, battery-free and multimodal musculoskeletal biointerfaces." Nature Communications. 2021;12-1.
"Repair and remodeling of partial-weightbearing, uninstrumented long bone fracture model in mice treated with low intensity vibration therapy." Clin Biomech (Bristol, Avon). 2021;81:105244.
"Mesenchymal stem cell seeded, biomimetic 3D printed scaffolds induce complete bridging of femoral critical sized defects." J. Biomed. Mater. Res. Part B Appl. Biomater.. 2018.
" "Determination of joint loads using new sensate scaffolds for regenerating large cartilage defects in the knee." J. Biomed. Mater. Res. Part B Appl. Biomater.. 2017;105(6):1409-1421.
"Adipose-derived human stem/stromal cells: comparative organ specific mitochondrial bioenergy profiles." Springerplus. 2016;5(1):2057.
"Environmental Stress Increases Stem Cell Concentration In Extracted Stromal Cell Batches.". In: TERMIS. San Diego, California; 2016.
"Ultrasound elasticity imaging for determining the mechanical properties of human posterior tibial tendon: a cadaveric study." IEEE Trans Biomed Eng. 2015;62(4):1179-84.
"In vivo telemetric determination of shear and axial loads on a regenerative cartilage scaffold following ligament disruption." J. Biomed. Mater. Res. Part B Appl. Biomater.. 2014;102(7):1415-25.
"Co-culture of adipose derived stem cells and chondrocytes with surface modifying proteins induces enhanced cartilage tissue formation." J Invest Surg. 2013;26(3):118-26.
"Implantable sensor technology: from research to clinical practice." J Am Acad Orthop Surg. 2012;20(6):383-92.
"Mechanical loading of adipose derived stromal cells causes cell alignment." Journal of Biomedical Science and Engineering. 2011;4.
"TU-A-220-03: Ultrasound Elasticity Imaging of Human Posterior Tibial Tendon." Medical Physics. 2011;38(6).
"Evaluation of the osteogenic performance of calcium phosphate-chitosan bone fillers." J Invest Surg. 2010;23(3):134-41.
"Load bearing at the menisco-femoral joint: an in vitro study in the canine knee." The Duke Orthopaedic Journal. 2010;1(1).
"Load measurement accuracy from sensate scaffolds with and without a cartilage surface." J Invest Surg. 2010;23(3):156-62.
"A novel biomimetic polymer scaffold design enhances bone ingrowth." J Biomed Mater Res A. 2009;91(3):795-805.
"Trabecular scaffolds created using micro CT guided fused deposition modeling." Mater Sci Eng C Mater Biol Appl. 2009;28(1):171-178.
"A handheld computer as part of a portable in vivo knee joint load monitoring system." ASME, Journal of Medical Devices. 2008;2-3(September).
"Phenotypic characteristics of bone in carbonic anhydrase II-deficient mice." Calcif. Tissue Int.. 2008;82(1):66-76.
"Sensate scaffolds coupled to telemetry can monitor in vivo loading from within a joint over extended periods of time." J. Biomed. Mater. Res. Part B Appl. Biomater.. 2008;84(1):263-70.
"Selective cell proliferation can be controlled with CPC particle coatings." J Biomed Mater Res A. 2007;81(4):939-47.
"Sensate scaffolds can reliably detect joint loading." J. Biomed. Mater. Res. Part B Appl. Biomater.. 2007;81(1):30-9.
"An instrumented scaffold can monitor loading in the knee joint." J. Biomed. Mater. Res. Part B Appl. Biomater.. 2006;79(2):218-28.
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