Name Card

Full name Familienname, Vorname
Kinzl, Michael
 
Main Affiliation Organisations­zuordnung
 

Own Publications Eigene Publikationen

Results 1-20 of 21 (Search time: 0.003 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Zysset, Philippe ; Pahr, Dieter ; Engelke, Klaus ; Genant, Harry K. ; McClung, Michael R. ; Kendler, David L. ; Recknor, Christopher ; Kinzl, Michael ; Schwiedrzik, Jakob ; Museyko, Oleg ; Wang, Andrea ; Libanati, Cesar Comparison of Proximal Femur and Vertebral Body Strength Improvements in the FREEDOM Trial Using an Alternative Finite Element MethodologyArtikel Article 2015
2Pahr, Dieter H. ; Wolfram, Uwe ; Kinzl, Michael A Crushable Foam Material Model for Strength Predictions of Human BoneKonferenzbeitrag Inproceedings2014
3Pahr, Dieter H. ; Kinzl, Michael An Experimentally Validated Finite Element Method for Augmented Vertebral BodiesPräsentation Presentation2014
4Muschitz, Christian ; Pahr, Dieter H. ; Kinzl, Michael ; Luisier, Benoît ; Zendeli, Afrodite ; Kocijan, Roland ; Haschka, Judith ; Schima, Wolfgang ; Resch, Heinrich Intravenous Ibandronate Increases Femoral and Vertebral Strength Measured by Finite Element Analysis in Male Patients with Idiopathic Osteoporosis and Fragility FracturesPräsentation Presentation2013
5Kinzl, Michael ; Wolfram, Uwe ; Pahr, Dieter H. Identification of a Crushable Foam Material Model and Application to Strength and Damage Prediction of Human Femur and Vertebral BodyPräsentation Presentation2013
6Kinzl, M. ; Wolfram, U. ; Pahr, D.H. Identification of a Crushable Foam Material Model and Application to Strength and Damage Prediction of Human Femur and Vertebral BodyArtikel Article2013
7Pahr, 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
8Kinzl, Michael ; Schwiedrzik, Jakob ; Zysset, Philippe K. ; Pahr, Dieter H. An Experimentally Validated Finite Element Method for Augmented Vertebral BodiesArtikel Article 2013
9Kinzl, Michael Development of a patient-specific finite element model for augmented vertebral bodiesThesis Hochschulschrift2012
10Kinzl, M. ; Boger, A. ; Zysset, P.K. ; Pahr, D.H. The Mechanical Behavior of PMMA/Bone Specimens Extracted from Augmented Vertebrae: A Numerical Study of Interface Properties, PMMA Shrinkage and Trabecular Bone DamageArtikel Article 2012
11Kinzl, Michael ; Benneker, Lorin M. ; Boger, Andreas ; Zysset, Philippe K. ; Pahr, Dieter H. The Effect of Standard and Low-Modulus Cement Augmentation on the Stiffness, Strength, and Endplate Pressure Distribution in VertebroplastyArtikel Article 2012
12Kinzl, Michael ; Boger, Andreas ; Zysset, Philippe K. ; Pahr, Dieter H. Influences of Pore and Bone Volume Fraction on the Mechanical Properties of Standard and Low-Modulus PMMA/Bone Biopsies Extracted from Augmented Vertebral BodiesPräsentation Presentation2011
13Kinzl, M. ; Boger, A. ; Zysset, P.K. ; Pahr, D.H. The Effects of bone and Pore Volume Fraction on the Mechanical Properties of PMMA/Bone Biopsies Extracted from Augmented VertebraeArtikel Article 2011
14Kinzl, Michael ; Pahr, Dieter H. The Effect of Cement Material Properties and Filling Patterns on the Stiffness, Strength and Endplate Load Transfer in VertebroplastyPräsentation Presentation2010
15Kinzl, Michael ; Boger, Andreas ; Benneker, Lorin ; Pahr, Dieter H. Patientenspezifische homogenisierte kontinuumsmechanische und mikromechanische Finite Elemente Methoden zur Prädiktion der Steifigkeit und Festigkeit von mit PMMA Knochenzement augmentierten WirbelkörpernPräsentation Presentation2010
16Pahr, Dieter H. ; Kinzl, Michael Vertebroplasty: Standard or Low Modulus Cement?Präsentation Presentation2010
17Kinzl, Michael ; Benneker, Lorin ; Boger, Andreas ; Pahr, Dieter H. The Effect of Material Behavior and Placement of Bone Cement on the Stiffness, Strength and Endplate Load Transfer in VertebroplastyKonferenzbeitrag Inproceedings2010
18Kinzl, Michael ; Benneker, Lorin ; Pahr, Dieter H. The Effect of Material Behavior and Placement of Bone Cement on the Mechanical Behavior and Load Transfer of Augmented Vertebral BodiesKonferenzbeitrag Inproceedings2010
19Kinzl, Michael ; Daxner, Thomas Continuum Mechanical Model of Muscle TissuePräsentation Presentation2009
20Kinzl, Michael ; Pahr, Dieter H. The Effect of Cement Material Properties and Filling Patterns on the Stiffness, Strength and Endplate Load Transfer in Vertebroplasty.Präsentation Presentation2009