Marco Palanca

Publications

• Global and local characterization explains the different mechanisms of failure of the human ribs
• Assessing the Mechanical Weakness of Vertebrae Affected by Primary Tumors: A Feasibility Study
• Full-field in vitro investigation of hard and soft tissue strain in the spine by means of digital image correlation
• Full-field strain distribution in multi-vertebra spine segments: An in vitro application of digital image correlation
• Digital image correlation (DIC) assessment of the non-linear response of the anterior longitudinal ligament of the spine during flexion and extension
• Uncertainties of synchrotron microCT-based digital volume correlation bone strain measurements under simulated deformation
• Precision of digital volume correlation approaches for strain analysis in bone imaged with micro-computed tomography at different dimensional levels
• The Size of Simulated Lytic Metastases Affects the Strain Distribution on the Anterior Surface of the Vertebra
• Hierarchical chitinous matrices byssus-inspired with mechanical properties tunable by Fe(III) and oxidation
• Local displacement and strain uncertainties in different bone types by digital volume correlation of synchrotron microtomograms
• Testing the impact of discoplasty on the biomechanics of the intervertebral disc with simulated degeneration: An in vitro study
• Experimental validation of a subject-specific finite element model of lumbar spine segment using digital image correlation
• Three-Dimensional Local Measurements of Bone Strain and Displacement: Comparison of Three Digital Volume Correlation Approaches
• USE OF DIGITAL IMAGE CORRELATION TO INVESTIGATE THE BIOMECHANICS OF THE VERTEBRA
• The use of digital image correlation in the biomechanical area: a review
• Digital volume correlation can be used to estimate local strains in natural and augmented vertebrae: An organ-level study
• Strain uncertainties from two digital volume correlation approaches in prophylactically augmented vertebrae: Local analysis on bone and cement-bone microstructures
• Elastic Full-Field Strain Analysis and Microdamage Progression in the Vertebral Body from Digital Volume Correlation
• The strain distribution in the lumbar anterior longitudinal ligament is affected by the loading condition and bony features: An in vitro full-field analysis
• Body Anthropometry and Bone Strength Conjointly Determine the Risk of Hip Fracture in a Sideways Fall
• A novel approach to evaluate the effects of artificial bone focal lesion on the three-dimensional strain distributions within the vertebral body
• MicroFE models of porcine vertebrae with induced bone focal lesions: Validation of predicted displacements with digital volume correlation