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Cited by in CrossRef
For: Imai K. Computed tomography-based finite element analysis to assess fracture risk and osteoporosis treatment. World J Exp Med 2015; 5(3): 182-187 [PMID: 26309819 DOI: 10.5493/wjem.v5.i3.182]
URL: https://www.wjgnet.com/2220-315x/full/v5/i3/182.htm
Number Citing Articles
1
D. Anitha, Karupppasamy Subburaj, Kai Mei, Felix K. Kopp, Peter Foehr, Peter B. Noel, Jan S. Kirschke, Thomas Baum. Effects of dose reduction on bone strength prediction using finite element analysisScientific Reports 2016; 6(1) doi: 10.1038/srep38441
2
Andreas Geier, Maeruan Kebbach, Ehsan Soodmand, Christoph Woernle, Daniel Kluess, Rainer Bader. Neuro-musculoskeletal flexible multibody simulation yields a framework for efficient bone failure risk assessmentScientific Reports 2019; 9(1) doi: 10.1038/s41598-019-43028-6
3
Giulia Molino, Giorgia Montalbano, Carlotta Pontremoli, Sonia Fiorilli, Chiara Vitale-Brovarone. Imaging Techniques for the Assessment of the Bone Osteoporosis-Induced Variations with Particular Focus on Micro-CT PotentialApplied Sciences 2020; 10(24): 8939 doi: 10.3390/app10248939
4
Vittoria Russo, Georgia Colleluori, Rui Chen, Sanjay Mediwala, Clifford Qualls, Michael Liebschner, Dennis T. Villareal, Reina Armamento-Villareal. Testosterone therapy and bone quality in men with diabetes and hypogonadism: Study design and protocolContemporary Clinical Trials Communications 2021; 21: 100723 doi: 10.1016/j.conctc.2021.100723
5
Connor Recknell, Reza Saatchi. Advances in Asset Management and Condition MonitoringSmart Innovation, Systems and Technologies 2020; 166: 1143 doi: 10.1007/978-3-030-57745-2_94
6
de Souza Anderson Fernando, De Zoppa André Luis do Valle. Finite element method in equine orthopedicsArchives of Clinical and Experimental Orthopaedics 2021; 5(1): 001 doi: 10.29328/journal.aceo.1001009
7
Symeon Naoum, Angelo V. Vasiliadis, Christos Koutserimpas, Nikolaos Mylonakis, Michail Kotsapas, Konstantinos Katakalos. Finite Element Method for the Evaluation of the Human Spine: A Literature OverviewJournal of Functional Biomaterials 2021; 12(3): 43 doi: 10.3390/jfb12030043
8
Insha Majeed Wani, Sakshi Arora. Computer-aided diagnosis systems for osteoporosis detection: a comprehensive surveyMedical & Biological Engineering & Computing 2020; 58(9): 1873 doi: 10.1007/s11517-020-02171-3
9
Mircea Sopon, Valentin Oleksik, Mihai Roman, Nicolae Cofaru, Mihaela Oleksik, Cosmin Mohor, Adrian Boicean, Radu Fleaca. Biomechanical Study of the Osteoporotic Spine Fracture: Optical ApproachJournal of Personalized Medicine 2021; 11(9): 907 doi: 10.3390/jpm11090907
10
Mary Kate Manhard, Jeffry S. Nyman, Mark D. Does. Advances in imaging approaches to fracture risk evaluationTranslational Research 2017; 181: 1 doi: 10.1016/j.trsl.2016.09.006
11
Elena Alacreu, Estanislao Arana, David Moratal. The use of subject-specific Finite Element analysis of L1-L4 vertebra to screening osteoporosis in postmenopausal women2017 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC) 2017; : 1832 doi: 10.1109/EMBC.2017.8037202
12
Oleg V. Gerasimov, Nikita V. Kharin, Artur O. Fedyanin, Pavel V. Bolshakov, Maxim E. Baltin, Evgeny O. Statsenko, Filip O. Fadeev, Rustem R. Islamov, Tatyana V. Baltina, Oskar A. Sachenkov. Bone Stress-Strain State Evaluation Using CT Based FEMFrontiers in Mechanical Engineering 2021; 7 doi: 10.3389/fmech.2021.688474
13
Hong-gang Xia, Bing-zhi Chen. Experimental and Numerical Investigation on the Bio-Mechanical Performance of Femoral Trochanteric Fracture FixationProceedings of the Fourth International Conference on Biological Information and Biomedical Engineering 2020; : 1 doi: 10.1145/3403782.3403815