wbldb
home
|
authors
|
theses
Linde, Frank
; Sørensen, Hans Christian Florian
The effect of different storage methods on the mechanical properties of trabecular bone
J Biomech
. 1993;26(10):1249-1252
Links
DOI:
10.1016/0021-9290(93)90072-M
PubMed:
8253829
WoS:
A1993LY88600011
Cited Works (10)
Year
Entry
1988
Linde F, Gøthgen CB, Hvid I, Pongsoipetch B, Bentzen S. Mechanical properties of trabecular bone by a non‐destructive compression testing approach.
Eng Med
. 1988;17(1):23-29.
1965
Sedlin ED. A rheologic model for cortical bone: a study of physical properties of human femoral samples.
Acta Orthop Scand
. 1965;(suppl 83):1-77.
1960
Nachemson A. Lumbar intradiscal pressure: experimental studies on post-mortem material.
Acta Orthop Scand
. 1960;31(suppl 43):1-104.
1984
Pelker RR, Friedlaender GE, Markham TC, Panjabi MM, Moen CJ. Effects of freezing and freeze‐drying on the biomechanical properties of rat bone.
J Orthop Res
. 1984;1(4):405-411.
1977
Carter DR, Hayes WC. The compressive behavior of bone as a two-phase porous structure.
J Bone Joint Surg
. 1977;59A(7):954-962.
1973
Pugh JW, Rose RM, Radin EL. Elastic and viscoelastic properties of trabecular bone: dependence on structure.
J Biomech
. 1973;6(5):475-485.
1985
Panjabi MM, Krag M, Summers D, Videman T. Biomechanical time-tolerance of fresh cadaveric human spine specimens.
J Orthop Res
. 1985;3(3):292-300.
1989
Linde F, Hvid I, Pongsoipetch B. Energy absorptive properties of human trabecular bone specimens during axial compression.
J Orthop Res
. May 1989;7(3):432-439.
1980
Carter DR, Schwab GH, Spengler DM. Tensile fracture of cancellous bone.
Acta Orthop Scand
. 1980;51(5):733-741.
1975
Townsend PR, Rose RM, Radin EL. Buckling studies of single human trabeculae.
J Biomech
. July 1975;8(3-4):199-200.
Cited By (110)
Year
Entry
1994
Linde F. Elastic and viscoelastic properties of trabecular bone by a compression testing approach.
Dan Med Bull
. April 1994;41(2):119-138.
2001
van Rietbergen B, Huiskes R. Elastic constants of cancellous bone. In: Cowin SC, ed.
Bone Mechanics Handbook
. 2nd ed. Boca Raton, FL: CRC Press; 2001:15-1–15-24.
2001
Martin RB, Sharkey NA. Mechanical effects of postmortem changes, preservation, and allograft bone treatments. In: Cowin SC, ed.
Bone Mechanics Handbook
. 2nd ed. Boca Raton, FL: CRC Press; 2001:20-1–20-24.
2007
Kemper A, McNally C, Kennedy E, Manoogian S, Duma S. The material properties of human tibia cortical bone in tension and compression: implacations for the tibia index. In:
Proceedings of the 20th International Technical Conference on the Enhanced Safety of Vehicles (ESV)
. June 18-21, 2007; Lyon, France.
2017
Albert DL, Kang Y, Agnew AM, Kemper AR. A comparison of rib structural and material properties from matched whole rib bending and tension coupon tests. In:
Proceedings of the 2017 International IRCOBI Conference on the Biomechanics of Injury
. September 13-15, 2017; Antwerp, Belgium.567-576.
2021
Harden AL, Kang Y-S, Hunter RL, Bendig A, Bolte JH IV, Eckstein NI, Smith AGF, Agnew AM. Preliminary sex-specific relationships between peak force and cortical bone morphometrics in human tibiae subjected to lateral loading. In:
Proceedings of the 2021 International IRCOBI Conference on the Biomechanics of Injury
. September 8-10, 2021; Online.232-248.
1998
Van Ee CA, Chasse AL, Myers BS. The effect of postmortem time and freezer storage on the mechanical properties of skeletal muscle. In:
Proceedings of the 42nd Stapp Car Crash Conference
. November 2-4, 1998; Tempa, AZ. Warrendale, PA: Society of Automotive Engineers:169-. SAE 983155.
2005
Kemper AR, McNally C, Kennedy EA, Manoogian SJ, Rath AL, Ng TP, Stitzel JD, Smith EP, Duma SM, Matsuoka F. Material properties of human rib cortical bone from dynamic tension coupon testing.
Stapp Car Crash J
. 2005;49:199-230. SAE 2005-22-0010.
2007
Kemper AR, McNally C, Pullins CA, Freeman LJ, Duma SM, Rouhana SW. The biomechanics of human ribs: material and structural properties from dynamic tension and bending tests.
Stapp Car Crash J
. 2007;51:235-273. SAE 2007-22-0011.
2007
Untaroiu C, Kerrigan J, Kam C, Crandall J, Yamazaki K, Fukuyama K, Kamiji K, Yasuki T, Funk J. Correlation of strain and loads measured in the long bones with observed kinematics of the lower limb during vehicle-pedestrian impacts.
Stapp Car Crash J
. 2007;51:433-466. SAE 2007-22-0018.
2009
Ivarsson BJ, Genovese D, Crandall JR, Bolton JR, Untaroiu CD, Bose D. The tolerance of the femoral shaft in combined axial compression and bending loading.
Stapp Car Crash J
. 2009;53:251-290. SAE 2009-22-0010.
2018
Agnew AM, Murach MM, Dominguez VM, Sreedhar A, Misicka E, Harden A, Bolte JH IV, Kang Y-S, Stammen J, Moorhouse K. Sources of variability in structural bending response of pediatric and adult human ribs in dynamic frontal impacts.
Proceedings of the Stapp Car Crash Conference
. November 2018;62:119-192.
2018
Mazurkiewicz A. The effect of trabecular bone storage method on its elastic properties.
Acta Bioeng Biomech
. 2018;20(1):21-27.
2000
Ding M. Age variations in the properties of human tibial trabecular bone and cartilage.
Acta Orthop Scand
. 2000;71(suppl 292):1-45.
2002
Banse X. When density fails to predict bone strength.
Acta Orthop Scand
. 2002;73(2)(suppl 303):2-57.
2011
Kemper AR, Kennedy EA, McNally C, Manoogian SJ, Stitzel JD, Duma SM. Reducing chest injuries in automobile collisions: rib fracture timing and implications for thoracic injury criteria.
Ann Biomed Eng
. August 2011;39(8):2141-51.
2001
Lucksanasombool P, Higgs WAJ, Higgs RJED, Awain MV. Fracture toughness of bovine bone: influence of orientation and storage media.
Biomaterials
. December 2001;22(23):3127-3132.
2008
Matsuura M, Eckstein F, Lochmüller E-M, Zysset PK. The role of fabric in the quasi-static compressive mechanical properties of human trabecular bone from various anatomical locations.
Biomech Model Mechanobiol
. February 2008;7(1):27-42.
2019
Bravo AE, Osnaya LC, Ramírez EI, Jacobo VH, Ortiz A. The effect of bone marrow on the mechanical behavior of porcine trabecular bone.
Biomed Phys Eng Express
. 2019;5(6):065023.
1997
Odgaard A. Three-dimensional methods for quantification of cancellous bone architecture.
Bone
. 1997;20(4):315-328.
1998
Majumdar S, Kothari M, Augat P, Newitt DC, Link TM, Lin JC, Lang T, Lu Y, Genant HK. High-resolution magnetic resonance imaging: three-dimensional trabecular bone architecture and biomechanical properties.
Bone
. May 1998;22(5):445-454.
2002
Homminga J, McCreadie BR, Ciarelli TE, Weinans H, Goldstein SA, Huiskes R. Cancellous bone mechanical properties from normals and patients with hip fractures differ on the structure level, not on the bone hard tissue level.
Bone
. May 2002;30(5):759-764.
2004
Follet H, Boivin G, Rumelhart C, Meunier PJ. The degree of mineralization is a determinant of bone strength: a study on human calcanei.
Bone
. May 2004;34(5):783-789.
2007
Nagaraja S, Lin ASP, Guldberg RE. Age-related changes in trabecular bone microdamage initiation.
Bone
. April 2007;40(4):973-980.
2007
Perilli E, Baleani M, Öhman C, Baruffaldi F, Viceconti M. Structural parameters and mechanical strength of cancellous bone in the femoral head in osteoarthritis do not depend on age.
Bone
. November 2007;41(5):760-768.
2010
Unger S, Blauth M, Schmoelz W. Effects of three different preservation methods on the mechanical properties of human and bovine cortical bone.
Bone
. December 2010;47(6):1048-1053.
2011
Öhman C, Baleani M, Pani C, Taddei F, Alberghini M, Viceconti M, Manfrini M. Compressive behaviour of child and adult cortical bone.
Bone
. October 2011;49(4):769-776.
2018
Zhao S, Arnold M, Ma S, Abel RL, Cobb JP, Hansen U, Boughton O. Standardizing compression testing for measuring the stiffness of human bone.
Bone Joint Res
. August 2018;7(8):524-538.
2013
Li Z, Kindig MW, Kerrigan JR, Kent RW, Crandall JR. Development and validation of a subject-specific finite element model of a human clavicle.
Comput Methods Biomech Biomed Eng
. 2013;16(8):819-829.
2020
Silva-Henao JD, Rueda Esteban RJ, Marañon-Leon A, Casas-Rodríguez JP. Post-yield mechanical properties of bovine trabecular bone: relationships with bone volume fraction and strain rate.
Eng Fract Mech
. June 15, 2020;232:107053.
2005
Wang X, Guyette J, Liu X, Roeder RK, Niebur GL. Axial-shear interaction effects on microdamage in bovine tibial trabecular bone.
Euro J Morphol
. February–April 2005;42(1-2):61-70.
2020
Hogue M, Fairgrieve SI, Lievers WB. Stabbing angle alters peak force and work during sharp force trauma of porcine ribs.
Forensic Sci Int
. September 2020;314:110373.
2020
Belda R, Palomar M, Peris-Serra JL, Vercher-Martínez A, Giner E. Compression failure characterization of cancellous bone combining experimental testing, digital image correlation and finite element modeling.
Int J Mech Sci
. January 2020;165:105213.
1996
Gustafson MB, Martin RB, Gibson V, Storms DH, Stover SM, Gibeling J, Griffin L. Calcium buffering is required to maintain bone stiffness in saline solution.
J Biomech
. September 1996;29(9):1191-1194.
1996
Courtney AC, Hayes WC, Gibson LJ. Age-related differences in post-yield damage in human cortical bone: experiment and model.
J Biomech
. November 1996;29(11):1463-1471.
1997
Les CM, Stover SM, Keyak JH, Taylor KT, Willits NH. The distribution of material properties in the equine third metacarpal bone serves to enhance sagittal bending.
J Biomech
. April 1997;30(4):355-361.
2000
Wirtz DC, Schiffers N, Pandorf T, Radermacher K, Weichert D, Forst R. Critical evaluation of known bone material properties to realize anisotropic fe-simulation of the proximal femur.
J Biomech
. October 2000;33(10):1325-1330.
2005
Schriefer JL, Robling AG, Warden SJ, Fournier AJ, Mason JJ, Turner CH. A comparison of mechanical properties derived from multiple skeletal sites in mice.
J Biomech
. March 2005;38(3):467-475.
2005
Nagaraja S, Couse TL, Guldberg RE. Trabecular bone microdamage and microstructural stresses under uniaxial compression.
J Biomech
. 2005;38(4):707-716.
2007
Öhman C, Baleani M, Perilli E, Dall’Ara E, Tassani S, Baruffaldi F, Viceconti M. Mechanical testing of cancellous bone from the femoral head: experimental errors due to off-axis measurements.
J Biomech
. 2007;40(11):2426-2433.
2008
Perilli E, Baleani M, Öhman C, Fognani R, Baruffaldi F, Viceconti M. Dependence of mechanical compressive strength on local variations in microarchitecture in cancellous bone of proximal human femur.
J Biomech
. 2008;41(2):438-446.
2008
Harrison NM, McDonnell PF, O’Mahoney DC, Kennedy OD, O’Brien FJ, McHugh PE. Heterogeneous linear elastic trabecular bone modelling using micro-CT attenuation data and experimentally measured heterogeneous tissue properties.
J Biomech
. August 7, 2008;41(11):2589-2596.
2010
Sztefek P, Vanleene M, Olsson R, Collinson R, Pitsillides AA, Shefelbine S. Using digital image correlation to determine bone surface strains during loading and after adaptation of the mouse tibia.
J Biomech
. March 3, 2010;43(4):599-605.
2010
Tassani S, Öhman C, Baleani M, Baruffaldi F, Viceconti M. Anisotropy and inhomogeneity of the trabecular structure can describe the mechanical strength of osteoarthritic cancellous bone.
J Biomech
. April 19, 2010;43(6):1160-1166.
2011
Dall'Ara E, Öhman C, Baleani M, Viceconti M. Reduced tissue hardness of trabecular bone is associated with severe osteoarthritis.
J Biomech
. May 17, 2011;44(8):1593-1598.
2011
Green JO, Nagaraja S, Diab T, Vidakovic B, Guldberg RE. Age-related changes in human trabecular bone: relationship between microstructural stress and strain and damage morphology.
J Biomech
. 2011;44(12):2279-2285.
2015
Prot M, Saletti D, Pattofatto S, Bousson V, Laporte S. Links between mechanical behavior of cancellous bone and its microstructural properties under dynamic loading.
J Biomech
. February 5, 2015;48(3):498-503.
2016
Prot M, Cloete TJ, Saletti D, Laporte S. The behavior of cancellous bone from quasi-static to dynamic strain rates with emphasis on the intermediate regime.
J Biomech
. May 3, 2016;49(7):1050-1057.
2020
Blondel M, Abidine Y, Assemat P, Palierne S, Swider P. Identification of effective elastic modulus using modal analysis: application to canine cancellous bone.
J Biomech
. September 18, 2020;110:109972.
2023
Haupt S, Cornaz F, Falkowski AL, Farshad M, Widmer J. The biomechanical consequence of posterior interventions at the thoracolumbar spine on the passively stabilized flexed posture.
J Biomech
. May 2023;153:111599.
2023
Albert DL, Katzenberger MJ, Hunter RL, Agnew AM, Kemper AR. Effects of loading rate, age, and morphology on the material properties of human rib trabecular bone.
J Biomech
. July 2023;156:111670.
2000
Van Ee CA, Chasse AL, Myers BS. Quantifying skeletal muscle properties in cadaveric test specimens: effects of mechanical loading, postmortem time, and freezer storage.
J Biomech Eng
. February 2000;122(1):9-14.
2004
Wang X, Liu X, Niebur GL. Preparation of on-axis cylindrical trabecular bone specimens using micro-CT imaging.
J Biomech Eng
. February 2004;126(1):122-125.
1997
Ding M, Dalstra M, Danielsen CC, Kabel J, Hvid I, Linde F. Age variations in the properties of human tibial trabecular bone.
J Bone Joint Surg
. November 1997;79B(6):995-1002.
1999
Ota T, Yamamoto I, Morita R. Fracture simulation of the femoral bone using the finite-element method: how a fracture initiates and proceeds.
J Bone Min Metab
. May 1999;17(2):108-112.
2006
Bembey AK, Bushby AJ, Boyde A, Ferguson VL, Oyen ML. Hydration effects on the micro-mechanical properties of bone.
J Mater Res
. August 2006;21(8):1962-1968.
2011
Pathak S, Swadener JG, Kalidindi SR, Courtland H-W, Jepsen KJ, Goldman HM. Measuring the dynamic mechanical response of hydrated mouse bone by nanoindentation.
J Mech Behav Biomed Mater
. January 2011;4(1):34-43.
2012
Kefalas V, Eftaxiopoulos DA. Experimental study of cancellous bone under large strains and a constitutive probabilistic model.
J Mech Behav Biomed Mater
. February 2012;6:41-52.
2020
Katzenberger MJ, Albert DL, Agnew AM, Kemper AR. Effects of sex, age, and two loading rates on the tensile material properties of human rib cortical bone.
J Mech Behav Biomed Mater
. February 2020;102:103410.
2011
Cartner JL, Hartsell ZM, Ricci WM, Tornetta P III. Can we trust ex vivo mechanical testing of fresh‒frozen cadaveric specimens? the effect of postfreezing delays.
J Orthop Trauma
. 2011;25(8):459-461.
2020
Ryan MK, Oliviero S, Costa MC, Wilkinson JM, Dall’Ara E. Heterogeneous strain distribution in the subchondral bone of human osteoarthritic femoral heads, measured with digital volume correlation.
Materials
. 2020;13(20):4619.
1997
Mitton D, Rumelhart C, Hans D, Meunier PJ. The effects of density and test conditions on measured compression and shear strength of cancellous bone from the lumbar vertebrae of ewes.
Med Eng Phys
. 1997;19(5):464-474.
1998
Augat P, Link T, Lang TF, Lin JC, Majumdar S, Genant HK. Anisotropy of the elastic modulus of trabecular bone specimens from different anatomical locations.
Med Eng Phys
. March 1998;20(2):124-131.
1999
Bruyère Garnier K, Dumas R, Rumelhart C, Arlot ME. Mechanical characterization in shear of human femoral cancellous bone: torsion and shear tests.
Med Eng Phys
. November 1999;21(9):641-649.
1999
Cendre E, Mitton D, Roux J-P, Arlot ME, Duboeuf F, Burt-Pichat B, Rumelhart C, Peix G, Meunier PJ. High-resolution computed tomography for architectural characterization of human lumbar cancellous bone: relationships with histomorphometry and biomechanics.
Osteoporos Int
. 1999;10(5):353-360.
2006
Bembey AK, Oyen ML, Bushby AJ, Boyde A. Viscoelastic properties of bone as a function of hydration state determined by nanoindentation.
Philos Mag
. November 21–December 11, 2006;86(33-35):5691-5703.
2010
Cristofolini L, Schileo E, Juszczyk M, Taddei F, Martelli S, Viceconti M. Mechanical testing of bones: the positive synergy of finite–element models and in vitro experiments.
Philos Trans R Soc A-Math Phys Eng Sci
. June 13, 2010;368(1920):2725-2763.
2006
Sierpowska J, Hakulinen MA, Töyräs J, Day JS, Weinans H, Kiviranta I, Jurvelin JS, Lappalainen R. Interrelationships between electrical properties and microstructure of human trabecular bone.
Phys Med Biol
. 2006;51(20):5289-5303.
2003
Bredbenner TL.
Damage Modeling of Vertebral Trabecular Bone
[PhD thesis]. Cleveland, OH: Case Western Reserve University; January 2003.
2000
Van Ee CA.
Tensile Properties of the Human Muscular and Ligamentous Cervical Spine
[PhD thesis]. Duke University; 2000.
2018
Xie S.
Characterisation of Time-Dependent Mechanical Behaviour of Trabecular Bone and Its Constituents
[PhD thesis]. Edinburgh, Scotland: University of Edinburgh; 2018.
2006
Nagaraja S.
Microstructural Stresses and Strains Associated With Trabecular Bone Microdamage
[PhD thesis]. Atlanta, GA: Georgia Institute of Technology; December 2006.
2010
Wang JL.
Effects of Aging and Remodeling on Bone Microdamage Formation
[Master's thesis]. Atlanta, GA: Georgia Institute of Technology; December 2010.
2011
O'Neal JM.
The Effects of Aging and Remodeling on Bone Quality and Microdamage
[PhD thesis]. Atlanta, GA: Georgia Institute of Technology; August 2011.
1994
Courtney AC.
Mechanical Properties of the Proximal Femur: Changes With Age
[PhD thesis]. Cambridge, MA: Harvard University; May 1994.
2023
Moshage SG.
Non-Invasive Determinants of Juvenile Equine Bone Strength for Assessing Exercise Interventions
[PhD thesis]. University of Illinois at Urbana-Champaign; 2023.
2002
Follet H.
Caractérisation Biomécanique Et Modélisation 3D Par Imagerie X Et IRM Haute Résolution De L’os Spongieux Humain: Evaluation Du Risque Fracturaire
[PhD thesis]. Institut national des sciences appliquées de Lyon (INSA Lyon); 2002.
2013
Li S.
Cutting of Cortical Bone Tissue: Analysis of Deformation and Fracture Process
[PhD thesis]. Loughborough University; June 2013.
2002
Egerer AK.
The Relationship Between the Osteonal Cement Line and Bone Strength
[PhD thesis]. Loma Linda University; June 2002.
2023
Koser JM.
Effect of Storage Condition on Penetration Threshold of Porcine Skin Tissue
[Master's thesis]. Marquette University; May 2023.
2010
Johnson TPM.
On the Rate-Dependent Constitutive Response of Cortical and Trabecular Bone
[PhD thesis]. Cambridge, MA: Massachusetts Institute of Technology; September 2010.
2004
Wang X.
Measurement and Analysis of Microdamage in Bone
[PhD thesis]. University of Notre Dame; December 2004.
2021
Harden AL.
A Multidisciplinary Approach to Skeletal Trauma Research: Interdisciplinary Methods and Applications
[PhD thesis]. The Ohio State University; 2021.
2022
Gupta SD.
Mineralized Tissues At the Osteochondral Junction in Healthy and Osteoarthritic Joints: Advanced Microimaging and Mechanical Studies
[PhD thesis]. University of Oulu; 2022.
2010
Garo A.
Modélisation du corps vertébral en chargement dynamique: Intégration de l'effet de l'âge
[Vertebral Body Modeling in Dynamic Loading: Integration of Age Effects] [PhD thesis]. École polytechnique de Montréal; December 2010.
2011
Wagnac É.
Expérimentation et modélisation détaillée de la colonne vertébrale pour étudier le rôle de facteurs anatomiques et biomécaniques sur les traumatismes rachidiens
[PhD thesis]. École polytechnique de Montréal; November 2011.
2023
Ning B.
In Vivo Experimental Platform Evaluating Synchronously 3D Bone Growth, (re)modeling, Microdamage and Mechanical Properties
[PhD thesis]. École polytechnique de Montréal; August 2023.
2012
Tozzi G.
In Vitro Studies of Bone-Cement Interface and Related Work on Cemented Acetabular Replacement
[PhD thesis]. Portsmouth, England: University of Portsmouth; May 29, 2012.
2018
Peña Fernández M.
X-Ray Biomechanical Imaging and Digital Volume Correlation of Bone: From Regeneration to Structure
[PhD thesis]. Portsmouth, England: University of Portsmouth; December 2018.
2005
Buie HR.
Use of Finite Element Method Modelling and Rapid Prototyping to Study the Effect of Trabecular Bone Architecture on Apparent Mechanical Properties
[Master's thesis]. Queen's University; November 2005.
2013
Schumacher Y.
Comparison of Two Loading Surface Preparation Methods on Rat Vertebral Bodies for Compression Testing
[Master's thesis]. Queen's University; September 2013.
2022
Kunath BA.
Design and Validation of an Open-Source 3D Printable Bioreactor System for Ex Vivo Bone Culture
[Master's thesis]. Queen's University; June 2022.
2013
Toal VR.
The Mechanics of Microdamage and Microfracture in Trabecular Bone
[PhD thesis]. Brisbane, Australia: Queensland University of Technology; September 2013.
2004
McNamara LM.
Biomechanical Origins of Osteoporosis
[PhD thesis]. Trinity College Dublin; March 2004.
2022
Davis RA.
Investigating the Effects of Aging and Prolonged Opioid Use on Bone Histomorphometry, Quality, and Biomechanics
[PhD thesis]. University of Akron; August 2022.
2005
Ashe MC.
Upper Limb Bone Health: Cadaveric, Imaging and Clinical Studies With Special Emphasis on Peripheral Quantitative Computed Tomography
[PhD thesis]. Vancouver, BC: University of British Columbia; April 2005.
2021
Cunningham HC.
Bone Adaptation to Disuse in Aging Rodents: Age-Related Differences in Response to Mechanical Unloading and Subsequent Reloading
[PhD thesis]. Davis, University of California; 2021.
2020
Amromanoh OA.
An Experimental Study of the Effect of Bone Inorganic-Organic Composition on the Mechanical Properties
[Master's thesis]. Winnipeg, MB: University of Manitoba; April 2020.
1995
Guldberg RE.
Mechanical Adaptation of Trabecular Bone Formation in Vivo
[PhD thesis]. University of Michigan; 1995.
1998
Ciarelli TE.
Architectural and Material Contributions to Fracture of the Spine and Proximal Femur
[PhD thesis]. University of Michigan; 1998.
2019
Martig S.
Compressive Fatigue Life and Micromorphology of Equine Metacarpal Subchondral Bone
[PhD thesis]. University of Melbourne; June 2019.
2020
Belda González R.
Mechanical and Morphometric Characterization of Cancellous Bone
[PhD thesis]. Universität Politècnica de València; March 2020.
2020
Bunyamin ATO.
Predicting Off-Axis Bone Strength of the Distal Radius Using High-Resolution Peripheral Quantitative Computed Tomography Based Finite Element Modeling
[Master's thesis]. University of Saskatchewan; March 2020.
2008
Parkinson RJ.
Refining the Relationship Between the Mechanical Demands on the Spine and Injury Mechanisms Through Improved Estimates of Load Exposure and Tissue Tolerance
[PhD thesis]. University of Waterloo; 2008.
2010
Kemper AR.
The Biomechanics of Thoracic Skeletal Response
[PhD thesis]. Virginia Polytechnic Institute and State University; March 30, 2010.
2018
Albert DL.
Biomechanical Responses of Human Surrogates Under Various Frontal Loading Conditions With an Emphasis on Thoracic Response and Injury Tolerance
[PhD thesis]. Virginia Polytechnic Institute and State University; April 19, 2018.
2002
Carter JW.
Compressive Cervical Spine Injury: The Effect of Injury Mechanism on Structural Injury Pattern and Neurologic Injury Potential
[PhD thesis]. University of Washington; 2002.
1997
Dunning CE.
The Effects of Fixation Technique and Simulated Motion on the Stability of Colles' (wrist) Fractures
[Master's thesis]. University of Western Ontario; September 1997.
2017
Kunde AN.
The Effect of
Staphylococcus Aureus
on Stiffness of Cortical Bone
[Master's thesis]. Rock Hill, SC: Winthrop University; May 2017.
2020
Long EB.
The Effect of
Staphylococcus Aureus
Exposure on White-Tailed Deer Trabecular Bone Stiffness and Yield
[Master's thesis]. Rock Hill, SC: Winthrop University; May 2020.