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  • 1
    Hayes WC, Piazza SJ, Zysset PK 1991 Biomechanics of fracture risk prediction of the hip and spine by quantitative computed tomography. Radiol Clin North Am 29:118.
  • 2
    Hayes WC, Bouxsein ML 1997 Biomechanics of cortical and trabecular bone: Implications for assessment of fracture risk. In: MowVC, HayesWC (eds.) Basic Orthopaedic Biomechanics, 2nd ed. Lippincott-Raven, Philadelphia, PA, USA, pp. 69111.
  • 3
    van der Meulen MC, Jepsen KJ, Mikic B 2001 Understanding bone strength: Size isn't everything. Bone 29:101104.
  • 4
    Genant HK, Engelke K, Fuerst T, Glüer CC, Grampp S, Harris ST, Jergas M, Lang T, Lu Y, Majumdar S, Mathur A, Takada M 1996 Noninvasive assessment of bone mineral and structure: State of the art. J Bone Miner Res 11:707730.
  • 5
    Genant HK, Gordon C, Jiang Y, Link TM, Hans D, Majumdar S, Lang TF 2000 Advanced imaging of the macrostructure and microstructure of bone. Horm Res 54(Suppl 1):2430.
  • 6
    Cummings SR, Bates D, Black DM 2002 Clinical use of bone densitometry: Scientific review. JAMA 288:18891897.
  • 7
    Cody DD, Gross GJ, Hou FJ, Spencer HJ, Goldstein SA, Fyhrie DP 1999 Femoral strength is better predicted by finite element models than QCT and DXA. J Biomech 32:10131020.
  • 8
    Keyak JH, Rossi SA, Jones KA, Skinner HB 1998 Prediction of femoral fracture load using automated finite element modeling. J Biomech 31:125133.
  • 9
    Pistoia W, Van Rietbergen B, Lochmüller EM, Lill CA, Eckstein F, Rüegsegger P 2002 Estimation of distal radius failure load with micro-finite element analysis models based on three-dimensional peripheral quantitative computed tomography images. Bone 30:842848.
  • 10
    Dalen N, Hellstrom LG, Jacobson B 1976 Bone mineral content and mechanical strength of the femoral neck. Acta Orthop Scand 47:503508.
  • 11
    Leichter I, Margulies JY, Weinreb A, Mizrahi J, Robin GC, Conforty B, Makin M, Bloch B 1982 The relationship between bone density, mineral content, and mechanical strength in the femoral neck. Clin Orthop 163:272281.
  • 12
    Alho A, Husby T, Hoiseth A 1988 Bone mineral content and mechanical strength. An ex vivo study on human femora at autopsy. Clin Orthop 227:292297.
  • 13
    Esses SI, Lotz JC, Hayes WC 1989 Biomechanical properties of the proximal femur determined in vitro by single-energy quantitative computed tomography. J Bone Miner Res 4:715722.
  • 14
    Beck TJ, Ruff CB, Warden KE, Scott WW Jr, Rao GU 1990 Predicting femoral neck strength from bone mineral data. A structural approach. Invest Radiol 25:618.
  • 15
    Augat P, Reeb H, Claes LE 1996 Prediction of fracture load at different skeletal sites by geometric properties of the cortical shell. J Bone Miner Res 11:13561363.
  • 16
    Lochmüller EM, Zeller JB, Kaiser D, Eckstein F, Landgraf J, Putz R, Steldinger R 1998 Correlation of femoral and lumbar DXA and calcaneal ultrasound, measured in situ with intact soft tissues, with the in vitro failure loads of the proximal femur. Osteoporos Int 8:591598.
  • 17
    Lochmüller EM, Miller P, Bürklein D, Wehr U, Rambeck W, Eckstein F 2000 In situ femoral dual-energy X-ray absorptiometry related to ash weight, bone size and density, and its relationship with mechanical failure loads of the proximal femur. Osteoporos Int 11:361367.
  • 18
    Eckstein F, Lochmüller EM, Lill CA, Kuhn V, Schneider E, Delling G, Müller R 2002 Bone strength at clinically relevant sites displays substantial heterogeneity and is best predicted from site-specific bone densitometry. J Bone Miner Res 17:162171.
  • 19
    Lochmüller EM, Groll O, Kuhn V, Eckstein F 2002 Mechanical strength of the proximal femur as predicted from geometric and densitometric bone properties at the lower limb versus the distal radius. Bone 30:207216.
  • 20
    Lochmüller EM, Müller R, Kuhn V, Lill CA, Eckstein F 2003 Can novel clinical densitometric techniques replace or improve DXA in predicting bone strength in osteoporosis at the hip and other skeletal sites? J Bone Miner Res 18:906912.
  • 21
    Delaere O, Dhem A, Bourgois R 1989 Cancellous bone and mechanical strength of the femoral neck. Arch Orthop Trauma Surg 108:7275.
  • 22
    Shah KM, Goh J, Bose K 1993 The relationship between femoral neck strength, bone mineral content and fracture fixation strength: An in vitro study. Osteoporos Int 3(Suppl 1):5153.
  • 23
    Lang TF, Keyak JH, Heitz MW, Augat P, Lu Y, Mathur A, Genant HK 1997 Volumetric quantitative computed tomography of the proximal femur: Precision and relation to bone strength. Bone 21:101108.
  • 24
    Werner C, Iversen BF, Therkildsen MH 1988 Contribution of the trabecular component to mechanical strength and bone mineral content of the femoral neck. An experimental study on cadaver bones. Scand J Clin Lab Invest 48:457460.
  • 25
    Lotz JC, Hayes WC 1990 The use of quantitative computed tomography to estimate risk of fracture of the hip from falls. J Bone Joint Surg Am 72:689700.
  • 26
    Courtney AC, Wachtel EF, Myers ER, Hayes WC 1994 Effects of loading rate on strength of the proximal femur. Calcif Tissue Int 55:5358.
  • 27
    Courtney AC, Wachtel EF, Myers ER, Hayes WC 1995 Age-related reductions in the strength of the femur tested in a fall-loading configuration. J Bone Joint Surg Am 77:387395.
  • 28
    Bouxsein ML, Courtney AC, Hayes WC 1995 Ultrasound and densitometry of the calcaneus correlate with the failure loads of cadaveric femurs. Calcif Tissue Int 56:99103.
  • 29
    Pinilla TP, Boardman KC, Bouxsein ML, Myers ER, Hayes WC 1996 Impact direction from a fall influences the failure load of the proximal femur as much as age-related bone loss. Calcif Tissue Int 58:231235.
  • 30
    Cheng XG, Lowet G, Boonen S, Nicholson PH, Brys P, Nijs J, Dequeker J 1997 Assessment of the strength of proximal femur in vitro: Relationship to femoral bone mineral density and femoral geometry. Bone 20:213218.
  • 31
    Beck TJ, Mourtada FA, Ruff CB, Scott WW Jr, Kao G 1998 Experimental testing of a DEXA-derived curved beam model of the proximal femur. J Orthop Res 16:394398.
  • 32
    Bouxsein ML, Coan BS, Lee SC 1999 Prediction of the strength of the elderly proximal femur by bone mineral density and quantitative ultrasound measurements of the heel and tibia. Bone 25:4954.
  • 33
    Cooper C, Campion G, Melton LJ III 1992 Hip fractures in the elderly: A world-wide projection. Osteoporos Int 2:285289.
  • 34
    Gullberg B, Johnell O, Kanis JA 1997 World-wide projections for hip fracture. Osteoporos Int 7:407413.
  • 35
    Ismail AA, Pye SR, Cockerill WC, Lunt M, Silman AJ, Reeve J, Banzer D, Benevolenskaya LI, Bhalla A, Bruges AJ, Cannata JB, Cooper C, Delmas PD, Dequeker J, Dilsen G, Falch JA, Felsch B, Felsenberg D, Finn JD, Gennari C, Hoszowski K, Jajic I, Janott J, Johnell O, Kanis JA, Kragl G, Lopez VA, Lorenc R, Lyritis G, Marchand F, Masaryk P, Matthis C, Miazgowski T, Naves-Diaz M, Pols HA, Poor G, Rapado A, Raspe HH, Reid DM, Reisinger W, Scheidt-Nave C, Stepan J, Todd C, Weber K, Woolf AD, O'Neill TW 2002 Incidence of limb fracture across Europe: Results from the European Prospective Osteoporosis Study (EPOS). Osteoporos Int 13:565571.
  • 36
    Johnell O 1997 The socioeconomic burden of fractures: Today and in the 21st century. Am J Med 103:20S25S.
  • 37
    Melton LJ III, O'Fallon WM, Riggs BL 1987 Secular trends in the incidence of hip fractures. Calcif Tissue Int 41:5764.
  • 38
    Riggs BL, Melton LJ III 1995 The worldwide problem of osteoporosis: Insights afforded by epidemiology. Bone 17:505S511S.
  • 39
    Schürch MA, Rizzoli R, Mermillod B, Vasey H, Michel JP, Bonjour JP 1996 A prospective study on socioeconomic aspects of fracture of the proximal femur. J Bone Miner Res 11:19351942.
  • 40
    Wildner M, Clark DE 2001 Hip fracture incidence in East and West Germany: Reassessement ten years after unification. Osteoporos Int 12:136139.
  • 41
    Kramer AM, Steiner JF, Schlenker RE, Eilertsen TB, Hrincevich CA, Tropea DA, Ahmad LA, Eckhoff DG 1997 Outcomes and costs after hip fracture and stroke. A comparison of rehabilitation settings. JAMA 277:396404.
  • 42
    Ray NF, Chan JK, Thamer M, Melton LJ III 1997 Medical expenditures for the treatment of osteoporotic fractures in the United States in 1995: Report from the National Osteoporosis Foundation. J Bone Miner Res 12:2435.
  • 43
    Hall ML, Heavens J, Ell PJ 1991 Variation between femurs as measured by dual energy X-ray absorptiometry (DEXA). Eur J Nucl Med Mol Imaging 18:3840.
  • 44
    Faulkner KG, Genant HK, McClung M 1995 Bilateral comparison of femoral bone density and hip axis length from single and fan beam DXA scans. Calcif Tissue Int 56:2631.
  • 45
    Mazess RB, Nord R, Hanson JA, Barden HS 2000 Bilateral measurement of femoral bone mineral density. J Clin Densitom 3:133140.
  • 46
    Petley GW, Taylor PA, Murrills AJ, Dennison E, Pearson G, Cooper C 2000 An investigation of the diagnostic value of bilateral femoral neck bone mineral density measurements. Osteoporos Int 11:675679.
  • 47
    Lilley J, Walters BG, Heath DA, Drolc Z 1992 Comparison and investigation of bone mineral density in opposing femora by dual-energy X-ray absorptiometry. Osteoporos Int 2:274278.
  • 48
    Franck H, Munz M, Scherrer M 1997 Bone mineral density of opposing hips using dual energy X-Ray absorptiometry in single-beam and fan-beam design. Calcif Tissue Int 61:445447.
  • 49
    Rao AD, Reddy S, Rao DS 2000 Is there a difference between right and left femoral bone density? J Clin Densitom 3:5761.
  • 50
    Lochmüller EM, Krefting N, Bürklein D, Eckstein F 2001 Effect of fixation, soft-tissues, and scan projection on bone mineral measurements with dual energy X-ray absorptiometry (DXA). Calcif Tissue Int 68:140145.
  • 51
    Hahn M, Vogel M, Delling G 1991 Undecalcified preparation of bone tissue: Report of technical experience and development of new methods. Virchows Arch A Pathol Anat Histopathol 418:17.
  • 52
    Robinovitch SN, Hayes WC, McMahon TA 1991 Prediction of femoral impact forces in falls on the hip. J Biomech Eng 113:366374.
  • 53
    van den Kroonenberg AJ, Hayes WC, McMahon TA 1996 Hip impact velocities and body configurations for voluntary falls from standing height. J Biomech 29:807811.
  • 54
    Ebbesen EN, Thomsen JS, Beck-Nielsen H, Nepper-Rasmussen HJ, Mosekilde L 1999 Lumbar vertebral body compressive strength evaluated by dual-energy X-ray absorptiometry, quantitative computed tomography, and ashing. Bone 25:713724.
  • 55
    Glüer CC, Blake G, Lu Y, Blunt BA, Jergas M, Genant HK 1995 Accurate assessment of precision errors: How to measure the reproducibility of bone densitometry techniques. Osteoporos Int 5:262270.
  • 56
    Keaveny TM, Morgan EF, Niebur GL, Yeh OC 2001 Biomechanics of trabecular bone. Annu Rev Biomed Eng 3:307333.
  • 57
    Corballis MC 1997 The genetics and evolution of handedness. Psychol Rev 104:714727.
  • 58
    Corballis MC 1989 Laterality and human evolution. Psychol Rev 96:492505.
  • 59
    Hiramoto Y 1993 Right-left differences in the lengths of human arm and leg bones. Kaibogaku Zasshi 68:536543.
  • 60
    Chhibber SR, Singh I 1970 Asymmetry in muscle weight and one-sided dominance in the human lower limbs. J Anat 106:553556.
  • 61
    Singh I 1970 Functional asymmetry in the lower limbs. Acta Anat (Basel) 77:131138.
  • 62
    Eckstein F, Muller S, Faber SC, Englmeier KH, Reiser M, Putz R 2002 Side differences of knee joint cartilage volume, thickness, and surface area, and correlation with lower limb dominance—an MRI-based study. Osteoarthritis Cartilage 10:914921.