2021 |
Orwig DL, Kopperdahl D, Keaveny T, Magaziner J, Hochberg M. Change in vertebral strength and bone mineral density in men and women over the year post-hip fracture: a subgroup analysis. Arch Osteoporos. December 2021;16(1):37. |
0 |
0 |
2017 |
Johannesdottir F, Thrall E, Muller J, Keaveny TM, Kopperdahl DL, Bouxsein ML. Comparison of non-invasive assessments of strength of the proximal femur. Bone. December 1, 2017;105:93-102. |
18 |
14 |
1998 |
Kopperdahl DL, Keaveny TM. Yield strain behavior of trabecular bone. J Biomech. July 1998;31(7):601-608. |
213 |
178 |
1999 |
Kopperdahl DL, Roberts AD, Keaveny TM. Localized damage in vertebral bone is most detrimental in regions of high strain energy density. J Biomech Eng. December 1999;121(6):622-628. |
12 |
12 |
2009 |
Orwoll ES, Marshall LM, Nielson CM, Cummings SR, Lapidus J, Cauley JA, Ensrud K, Lane N, Hoffmann PR, Kopperdahl DL, Keaveny TM; Osteoporotic Fractures in Men (MrOS) Study Group. Finite element analysis of the proximal femur and hip fracture risk in older men. J Bone Miner Res. March 2009;24(3):475-483. |
48 |
40 |
2010 |
Keaveny TM, Kopperdahl DL, Melton LJ III, Hoffmann PF, Amin S, Riggs BL, Khosla S. Age‐dependence of femoral strength in white women and men. J Bone Miner Res. May 2010;25(5):994-1001. |
30 |
20 |
2011 |
Christiansen BA, Kopperdahl DL, Kiel DP, Keaveny TM, Bouxsein ML. Mechanical contributions of the cortical and trabecular compartments contribute to differences in age-related changes in vertebral body strength in men and women assessed by QCT-based finite element analysis. J Bone Miner Res. May 2011;26(5):974-983. |
24 |
14 |
2011 |
Amin S, Kopperdhal DL, Melton LJ, Achenbach SJ, Therneau TM, Riggs BL, Keaveny TM, Khosla S. Association of hip strength estimates by finite‐element analysis with fractures in women and men. J Bone Miner Res. July 2011;26(7):1593-1600. |
19 |
14 |
2014 |
Kopperdahl DL, Aspelund T, Hoffmann PF, Sigurdsson S, Siggeirsdottir K, Harris TB, Gudnason V, Keaveny TM. Assessment of incident spine and hip fractures in women and men using finite element analysis of CT scans. J Bone Miner Res. March 2014;29(3):570-580. |
42 |
31 |
1997 |
Keaveny TM, Pinilla TP, Crawford RP, Kopperdahl DL, Lou A. Systematic and random errors in compression testing of trabecular bone [published correction appears in J Orthop Res. 1995;17(1):151]. J Orthop Res. 1997;15(1):101-110. |
219 |
187 |
1999 |
Keaveny TM, Wachtel EF, Kopperdahl DL. Mechanical behavior of human trabecular bone after overloading. J Orthop Res. May 1999;17(3):346-353. |
88 |
78 |
2000 |
Kopperdahl DL, Pearlman JL, Keaveny TM. Biomechanical consequences of an isolated overload on the human vertebral body. J Orthop Res. September 2000;18(5):685-690. |
48 |
31 |
2002 |
Kopperdahl DL, Morgan EF, Keaveny TM. Quantitative computed tomography estimates of the mechanical properties of human vertebral trabecular bone. J Orthop Res. July 2002;20(4):801-805. |
71 |
47 |
2021 |
Johannesdottir F, Allaire B, Kopperdahl DL, Keaveny TM, Sigurdsson S, Bredella MA, Anderson DE, Samelson EJ, Kiel DP, Gudnason VG, Bouxsein ML. Bone density and strength from thoracic and lumbar CT scans both predict incident vertebral fractures independently of fracture location. Osteoporos Int. February 2021;32(2):261-269. |
1 |
1 |
2003 |
Liebschner MAK, Kopperdahl DL, Rosenberg WS, Keaveny TM. Finite element modeling of the human thoracolumbar spine. Spine. March 15, 2003;28(6):559-565. |
40 |
34 |