Name Card

Full name Familienname, Vorname
Dall'Ara, Enrico
 
Main Affiliation Organisations­zuordnung
 

Own Publications Eigene Publikationen

Results 1-20 of 55 (Search time: 0.003 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Dall’Ara, E. ; Eastell, R. ; Viceconti, M. ; Pahr, D. ; Yang, L. Experimental Validation of DXA-Based Finite Element Models for Prediction of Femoral StrengtArtikel Article 2016
2Panyasantisuk, Jarunan ; Dall´Ara, Enrico ; Pahr, Dieter H. ; Zysset, Philippe K. Mapping of Trabecular Anisotropy Improves QCT-Based Finite Element Estation of Hip Strength in Pooled Stance and Side-Fall Load ConfigurationsPräsentation Presentation2016
3Luisier, B. ; Dall'Ara, E. ; Pahr, D.H. Orthotropic HR-pQCT-Based FE Models Improve Strength Predictions for Stance but not for Side-Way Fall Loading Compared to Isotropic QCT-Based FE Models of Human FemursArtikel Article 2014
4Pahr, Dieter H. ; Schwiedrzik, Jakob ; Dall'Ara, Enrico ; Zysset, Philippe K. Clinical vs. Pre-Clinical FE Models for Vertebral Body Strength PredictionsArtikel Article 2014
5Larsson, David ; Luisier, Benoît ; Kersh, Mariana E. ; Dall’Ara, Enrico ; Zysset, Philippe K. ; Pandy, Marcus G. ; Pahr, Dieter H. Assessment of Transverse Isotropy in Clinical-Level CT Images of Trabecular Bone Using the Gradient Structure TensorArtikel Article 2014
6Kainz, Hans ; Dall’Ara, Enrico ; Antoni, Anna ; Redl, Heinz ; Zysset, Philippe ; Weninger, Patrick Calcium Phosphate Cement Augmentation after Volar Locking Plating of Distal Radius Fracture Significantly Increases StabilityArtikel Article2014
7Dall´Ara, Enrico ; Luisier, Benoît ; Schmidt, Reinhard ; Pretterklieber, M. ; Kainberger, F. ; Zysset, P. ; Pahr, Dieter DXA predictions of human femoral mechanical properties depend on the load configurationArtikel Article Nov-2013
8Dall´Ara, Enrico QCT Based Finite Element Models of the Human Vertebra and Femur: Validation with Experiments and Comparison with Bone DensitometryPräsentation Presentation2013
9Luisier, Benoît ; Dall´Ara, Enrico ; Pahr, Dieter H. A Non-Linear HR-pQCT-Based hFE Model Validation Study for the Human Femur Tested in Fall and Stance ConfigurationsPräsentation Presentation2013
10Pahr, Dieter H. ; Kinzl, Michael ; Dall´Ara, Enrico ; Museyko, Oleg ; Engelke, Klaus ; Panyasantisuk, Jarunan ; Zysset, Philippe K. Femoral strength Computed from QCT-Based Finite Element Analyses is not Influenced by Voxel or Smooth Mesh TypePräsentation Presentation2013
11Dall´Ara, Enrico ; Karl, Christoph ; Mazza, Giulia ; Franzoso, Giampaolo ; Vena, Pasquale ; Pretterklieber, Michael ; Pahr, Dieter H. ; Zysset, Philippe K. Anisotropy of the Human Vertical Body Sub-Structures Evaluated with Micro-IndentationPräsentation Presentation2013
12Dall´Ara, Enrico ; Zysset, Philippe K. ; Pahr, Dieter H. QCT-Based Homogenized Voxel FE Models Predict Vertebral and Femoral Fracture Load Better than Areal BMDPräsentation Presentation2013
13Larsson, David ; Luisier, Benoît ; Kersh, Mariana E. ; Dall´Ara, Enrico ; Zysset, Philippe K. ; Pandy, Marcus ; Pahr, Dieter H. Estimation of Femoral Trabecuar Bone Fabric from QCT Images Depends on the Size of the Region of InterestPräsentation Presentation2013
14Dall'Ara, E. ; Luisier, B. ; Schmidt, R. ; Kainberger, F. ; Zysset, P. ; Pahr, D. A Nonlinear QCT-Based Finite Element Model Validation Study for the Human Femur Tested in Two Configurations in VitroArtikel Article 2013
15Dall'Ara, E. ; Karl, C. ; Mazza, G. ; Franzoso, G. ; Vena, P. ; Pretterklieber, M. ; Pahr, D. ; Zysset, P. Tissue Properties of the Human Vertebral Body Sub-Structures Evaluated by Means of MicroindentationArtikel Article 2013
16Zysset, Philippe K ; Dall'Ara, Enrico ; Varga, Peter ; Pahr, Dieter H Finite Element Analysis for Prediction of Bone StrengthArtikel Article2013
17Baumbach, Sebastian F. ; Dall´Ara, Enrico ; Weninger, Patrick ; Antoni, Anna ; Traxler, Hannes ; Dörr, Martin ; Zysset, Philippe K. Assessment of a Novel Biomechanical Fracture Model for Distal Radius FracturesArtikel Article 18-Dec-2012
18Maquer, Ghislain ; Dall'Ara, Enrico ; Zysset, Philippe K. Removal of the Cortical Endplates has Little Effect on Ultimate Load and Damage Distribution in QCT-Based Voxel Models of Human Lumbar Vertebrae under Axial CompressionArtikel Article 2012
19Dall´Ara, Enrico ; Luisier, Benoît ; Pretterklieber, Michael ; Kainberger, Franz ; Zysset, Philippe K. ; Pahr, Dieter H. Non-Linear QCT-Based FE Models Predict in Vitro Femoral Strength Better than DXAPräsentation Presentation2012
20Dall’Ara, E. ; Pahr, D. ; Varga, P. ; Kainberger, F. ; Zysset, P. QCT-Based Finite Element Models Predict Human Vertebral Strength in Vitro Significantly Better than Simulated DEXAArtikel Article 2012