2021 |
Palanca M, Barbanti-Bròdano G, Marras D, Marciante M, Serra M, Gasbarrini A, Dall'Ara E, Cristofolini L. Type, size, and position of metastatic lesions explain the deformation of the vertebrae under complex loading conditions. Bone. October 2021;151:116028. |
1 |
0 |
2020 |
Pepe V, Oliviero S, Cristofolini L, Dall’Ara E. Regional nanoindentation properties in different locations on the mouse tibia from C57BL/6 and Balb/C female mice. Front Bioeng Biotechnol. May 15, 2020;8:478. |
0 |
0 |
2017 |
Dall’Ara E, Peña-Fernández M, Palanca M, Giorgi M, Cristofolini L, Tozzi G. Precision of digital volume correlation approaches for strain analysis in bone imaged with micro-computed tomography at different dimensional levels. Front Mater. November 8, 2017;4:31. |
24 |
10 |
2016 |
Palanca M, Tozzi G, Cristofolini L. The use of digital image correlation in the biomechanical area: a review. Int Biomech. 2016;3(1):1-21. |
18 |
15 |
1996 |
Cristofolini L, Viceconti M, Cappello A, Toni A. Mechanical validation of whole bone composite femur models. J Biomech. April 1996;29(4):525-535. |
33 |
28 |
2002 |
Wu G, Siegler S, Allard P, Kirtley C, Leardini A, Rosenbaum D, Whittle M, D'Lima DD, Cristofolini L, Witte H, Schmid O, Stokes I. ISB recommendation on definitions of joint coordinate system of various joints for the reporting of human joint motion, I: ankle, hip, and spine. J Biomech. 2002;35(4):543-548. |
139 |
135 |
2006 |
Taddei F, Cristofolini L, Martelli S, Gill HS, Viceconti M. Subject-specific finite element models of long bones: an in vitro evaluation of the overall accuracy. J Biomech. 2006;39(13):2457-2467. |
57 |
43 |
2007 |
Cristofolini L, Juszczyk M, Martelli S, Taddei F, Viceconti M. In vitro replication of spontaneous fractures of the proximal human femur. J Biomech. 2007;40(13):2837-2845. |
32 |
22 |
2007 |
Schileo E, Taddei F, Malandrino A, Cristofolini L, Viceconti M. Subject-specific finite element models can accurately predict strain levels in long bones. J Biomech. 2007;40(13):2982-2989. |
68 |
58 |
2008 |
Schileo E, Taddei F, Cristofolini L, Viceconti M. Subject-specific finite element models implementing a maximum principal strain criterion are able to estimate failure risk and fracture location on human femurs tested in vitro. J Biomech. 2008;41(2):356-367. |
61 |
50 |
2010 |
Cristofolini L, Conti G, Juszczyk M, Cremonini S, Sint Jan SV, Viceconti M. Structural behaviour and strain distribution of the long bones of the human lower limbs. J Biomech. March 22, 2010;43(5):826-835. |
12 |
8 |
2011 |
Juszczyk MM, Cristofolini L, Viceconti M. The human proximal femur behaves linearly elastic up to failure under physiological loading conditions. J Biomech. August 11, 2011;44(12):2259-2266. |
13 |
7 |
2012 |
Grassi L, Schileo E, Taddei F, Zani L, Juszczyk M, Cristofolini L, Viceconti M. Accuracy of finite element predictions in sideways load configurations for the proximal human femur. J Biomech. January 10, 2012;45(2):394-399. |
28 |
22 |
2014 |
Ali AA, Cristofolini L, Schileo E, Hu H, Taddei F, Kim RH, Rullkoetter PJ, Laz PJ. Specimen-specific modeling of hip fracture pattern and repair. J Biomech. January 22, 2014;47(2):536-543. |
14 |
13 |
2014 |
Schileo E, Balistreri L, Grassi L, Cristofolini L, Taddei F. To what extent can linear finite element models of human femora predict failure under stance and fall loading configurations? J Biomech. November 7, 2014;47(14):3531-3538. |
28 |
21 |
2015 |
Zani L, Erani P, Grassi L, Taddei F, Cristofolini L. Strain distribution in the proximal human femur during in vitro simulated sideways fall. J Biomech. July 16, 2015;48(10):2130-2143. |
22 |
15 |
2016 |
Palanca M, Cristofolini L, Dall’Ara E, Curto M, Innocente F, Danesi V, Tozzi G. Digital volume correlation can be used to estimate local strains in natural and augmented vertebrae: an organ-level study. J Biomech. December 8, 2016;49(16):3882-3890. |
12 |
1 |
2017 |
Palanca M, Bodey AJ, Giorgi M, Viceconti M, Lacroix D, Cristofolini L, Dall'Ara E. Local displacement and strain uncertainties in different bone types by digital volume correlation of synchrotron microtomograms. J Biomech. June 14, 2017;58:27-36. |
20 |
11 |
2019 |
Comini F, Palanca M, Cristofolini L, Dall’Ara E. Uncertainties of synchrotron microCT-based digital volume correlation bone strain measurements under simulated deformation. J Biomech. March 27, 2019;86:232-237. |
9 |
5 |
2021 |
Cristofolini L, Ruspi ML, Marras D, Cavallo M, Guerra E. Reconstruction of proximal humeral fractures without screws using a reinforced bone substitute. J Biomech. January 22, 2021;115:110138. |
0 |
0 |
2008 |
Gray HA, Taddei F, Zavatsky AB, Cristofolini L, Gill HS. Experimental validation of a finite element model of a human cadaveric tibia. J Biomech Eng. June 2008;130(3):031016. |
23 |
22 |
2015 |
Palanca M, Tozzi G, Cristofolini L, Viceconti M, Dall'Ara E. Three-dimensional local measurements of bone strain and displacement: comparison of three digital volume correlation approaches. J Biomech Eng. July 2015;137(7):071006. |
29 |
13 |
2017 |
Tozzi G, Dall’Ara E, Palanca M, Curto M, Innocente F, Cristofolini L. Strain uncertainties from two digital volume correlation approaches in prophylactically augmented vertebrae: local analysis on bone and cement-bone microstructures. J Mech Behav Biomed Mater. March 2017;67:117-126. |
15 |
4 |
1998 |
Viceconti M, Bellingeri L, Cristofolini L, Toni A. A comparative study on different methods of automatic mesh generation of human femurs. Med Eng Phys. January 1998;20(1):1-10. |
42 |
37 |
2007 |
Taddei F, Schileo E, Helgason B, Cristofolini L, Viceconti M. The material mapping strategy influences the accuracy of ct-based finite element models of bones: an evaluation against experimental measurements. Med Eng Phys. 2007;29(9):973-979. |
57 |
45 |
2008 |
Helgason B, Taddei F, Pálsson H, Schileo E, Cristofolini L, Viceconti M, Brynjolfsson S. A modified method for assigning material properties to FE models of bones. Med Eng Phys. May 2008;30(4):444-453. |
33 |
26 |
2020 |
Cristofolini L, Morellato K, Cavallo M, Guerra E. Reconstruction of proximal humeral fractures with a reduced number of screws and a reinforced bone substitute. Med Eng Phys. August 2020;82:97-103. |
1 |
0 |
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. |
24 |
17 |
2017 |
Costa MC, Tozzi G, Cristofolini L, Danesi V, Viceconti M, Dall’Ara E. Micro finite element models of the vertebral body: validation of local displacement predictions. PLoS One. July 11, 2017;12(7):e0180151. |
25 |
15 |
2009 |
Cristofolini L, Juszczyk M, Taddei F, Viceconti M. Strain distribution in the proximal human femoral metaphysis. Proc Inst Mech Eng Part H-J Eng Med. April 2009;2223(3):273-288. |
17 |
9 |
2021 |
Liebsch C, Hübner S, Palanca M, Cristofolini L, Wilke H-J. Experimental study exploring the factors that promote rib fragility in the elderly. Sci Rep. April 29, 2021;11(1):9307. |
0 |
0 |