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315 results on '"Villa, Tomaso"'

1. Hardware Density Reduction To Avoid Proximal Junction Failure In Adult Spine Surgery: In Silico Case Studies and Virtual Cohort

Author

Rasouligandomani, Morteza, del Arco, Alex, Villa, Tomaso, La Barbera, Luigi, Pellise, Ferran, Ballester, Miguel Angel Gonzalez, Galbusera, Fabio, and Noailly, Jerome

Subjects
Physics - Medical Physics, Physics - Biological Physics
Abstract

Background: Proximal Junctional Failure (PJF) is a post-operative complication in adult spine surgery, often requiring reoperation. Osteotomy is often used in revision surgeries, leading to 34.8% complications. Hence, suboptimal decisions might be extending hardware without osteotomy, which yields to severe Global Alignment and Proportion (GAP) scores. High GAPs increase PJF risk, but Hardware Density Reduction (HDR) might limit it. Methods: Two clinical cases were evaluated: 1) Initially operated with hardware extended to T10, GAP 10; 2) PJF at T11 and hardware extended to T3, GAP 11. Two patient-personalized spine FE models were constructed through Statistical Shape Modelling (SSM) and mesh morphing. Intervertebral Disk (IVD) fiber strain, screw pull-out force, and rod stress were evaluated for the cases 1) and 2), also for 91 virtual HDR scenarios with different GAP scores, using Finite Element (FE) simulations. Different rod and bone material properties were also assessed. Results: HDR could decrease IVD fiber strain (-70% at most) and increase screw pull-out forces (+142% at most) for cases with Ti rod and normal bone. Cr-Co rod and osteopenia, and osteoporotic bones had high PJF risk. Trade-off analyses could determine the best configurations avoiding PJF. Virtual cohort study showed that GAP 12 and 13 could not avoid PJF in any HDR scenarios either with Ti or Cr-Co rods. HDR in a UIV T10 virtual patient with GAP 11 could not de-risk in case of Cr-Co rods. UIV T3 with GAP 13 could not benefit any HDR strategy, independently of rod properties. In contrast, Ti rods might allow HDR to de-risk GAP 12 patients with UIV T3. Conclusions: HDR could avoid PJF in the patients with medium high GAP scores, depending on the screw reduction pattern, and bone and rod material properties. Remarkably, HDR technique might avoid excessive spine surgeries and minimize the surgery cost.

Published
2024

7. List of contributors

Author

Aicale, Rocco, primary, Aldieri, Alessandra, additional, Andersen, Michael Skipper, additional, Armaroli, Federica, additional, Audenino, Alberto, additional, Bori, Edoardo, additional, Breen, Alexander Cleveland, additional, Cacopardo, Ludovica, additional, Camus, Emmannuel J., additional, Cheong, Vee San, additional, Dalla Pria, Paolo, additional, Dall’Ara, Enrico, additional, Dürselen, Lutz, additional, El-Rich, Marwan, additional, Freutel, Maren, additional, Galbusera, Fabio, additional, Heller, Markus O., additional, Hoepfner, Yana, additional, Innocenti, Bernardo, additional, Jonas, René, additional, La Barbera, Luigi, additional, Labey, Luc, additional, Lopomo, Nicola Francesco, additional, Maffulli, Nicola, additional, Moungondo, Fabian, additional, Neidlinger-Wilke, Cornelia, additional, Oliva, Francesco, additional, Overstraeten, Luc Van, additional, Pankaj, Pankaj, additional, Pianigiani, Silvia, additional, Putame, Giovanni, additional, Robbins, Dan, additional, Scheys, Lennart, additional, Schlager, Benedikt, additional, Seitz, Andreas Martin, additional, Sholukha, Victor, additional, Teixeira, Graciosa Quelhas, additional, Terzini, Mara, additional, Van Sint Jan, Serge, additional, Villa, Tomaso, additional, Warnecke, Daniela, additional, Wilke, Hans-Joachim, additional, and Zacchetti, Sara, additional

Published
2022
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10. High-Demand Spinal Deformity With Multi-Rod Constructs and Porous Fusion/Fixation Implants: A Finite Element Study.

Author

Panico, Matteo, Chande, Ruchi D., Lindsey, Derek P., Maria Tobia Villa, Tomaso, Yerby, Scott A., Brayda-Bruno, Marco, Bassani, Tito, Polly, David W., and Galbusera, Fabio

Subjects
SPINE abnormalities, SACROILIAC joint, RANGE of motion of joints, FINITE element method, OSTEOTOMY, SPONDYLOLYSIS
Abstract

Study Design: Basic science (finite element analysis). Objectives: Pedicle subtraction osteotomy (PSO) at L5 is an effective treatment for sagittal imbalance, especially in select cases of patients showing kyphosis with the apex at L4-L5 but has been scarcely investigated. The aim of this study was to simulate various "high-demand" instrumentation approaches, including varying numbers of rods and sacropelvic implants, for the stabilization of a PSO at L5. Methods: A finite element model of T10-pelvis was modified to simulate posterior fixation with pedicle screws and rods from T10 to S1, alone or in combination with an L5 PSO. Five additional configurations were then created by employing rods and novel porous fusion/fixation implants across the sacroiliac joints, in varying numbers. All models were loaded using pure moments of 7.5 Nm in flexion-extension, lateral bending, and axial rotation. Results: The osteotomy resulted in a general increase in motion and stresses in posterior rods and S1 pedicle screws. When the number of rods was varied, three- and four-rod configurations were effective in limiting the maximal rod stresses; values approached those of posterior fixation with no osteotomy. Maximum stresses in the accessory rods were similar to or less than those observed in the primary rods. Multiple sacropelvic implants were effective in reducing range of motion, particularly of the SIJ. Conclusions: Multi-rod constructs and sacropelvic fixation generally reduced maximal implant stresses and motion in comparison with standard posterior fixation, suggesting a reduced risk of rod breakage and increased joint stability, respectively, when a high-demand construct is utilized for the correction of sagittal imbalance. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Biomechanical Effects of different Design and Features on Knee Arthroplasties Performances

Author

Innocenti, Bernardo, Delchambre, Alain, Nonclercq, Antoine, Audenino, Alberto, Villa, Tomaso, Pianigiani, Silvia, Bori, Edoardo, Innocenti, Bernardo, Delchambre, Alain, Nonclercq, Antoine, Audenino, Alberto, Villa, Tomaso, Pianigiani, Silvia, and Bori, Edoardo

Abstract

To comprehensively assess the functionality of the knee joint in patients, the principal parameter that is usually evaluated are the joint performances: these latter are a combination of biomechanical outcomes and patient satisfaction, and both factors are important as they play a crucial role in determining the final outcome.The occurrence of pathologies and the aging process lead to divergences of knee joint performances from the physiological optimal ones. The main aim of knee arthroplasties, therefore, is to restore such performances by replacing the defective components with artificial ones; to achieve this goal, it is crucial to determine the optimal physiological performances and thus establish the criteria for restoration. It is then fundamental to identify the expected outcomes of the different combinations available for the surgeon to choose among, in order then to select the one that best fits with the sought performances; these outcomes are depending on the combination of different factors related respectively to the patient (in terms of bone geometry, presence of eventual deformities and soft tissue situation), to the implant chosen (that can be chosen, as addressed in Chapter 1, according to the compartments involved, the level of constraint sought and eventual additional features) and to the surgical approaches and tool used (data accuracy, cut definition, cut performance, fixation technique).Every step made increasing the current knowledge on the relations among these parameters and their relative consequences on the joint performances, then, contribute to the definition of more and more comprehensive Surgical Guidelines to assist the surgeons in their choices; relying on this information, indeed, the surgeon could determine with more certainty which implant configuration represented the most optimal solution for the specific patient addressed, evaluated both accounting for the patient’s biomechanics and expectations from the implant. In order to acc, Doctorat en Sciences de l'ingénieur et technologie, info:eu-repo/semantics/nonPublished

Published
2023

26. Standard Testing

Author

Kienle, Annette, primary, Graf, Nicolas, additional, Villa, Tomaso, additional, and La Barbera, Luigi, additional

Published
2018
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28. Contributors

Author

Bassani, Tito, primary, Brayda-Bruno, Marco, additional, Casaroli, Gloria, additional, Costa, Francesco, additional, Galbusera, Fabio, additional, Graf, Nicolas, additional, Haj-Ali, Rami, additional, Ismael Aguirre, Maryem-Fama, additional, Jonas, René, additional, Kienle, Annette, additional, La Barbera, Luigi, additional, Liebsch, Christian, additional, Lindtner, Richard A., additional, Luca, Andrea, additional, Malandrino, Andrea, additional, Niemeyer, Frank, additional, Ottardi, Claudia, additional, Schlager, Benedikt, additional, Schmoelz, Werner, additional, Sconfienza, Luca M., additional, Sharabi, Mirit, additional, Stucovitz, Elena, additional, Toumanidou, Themis, additional, Villa, Tomaso, additional, Vitale, Jacopo, additional, Volkheimer, David, additional, Wade, Kelly, additional, and Wilke, Hans-Joachim, additional

Published
2018
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37. Does the anterior column realignment technique influences the stresses on posterior instrumentation in sagittal imbalance correction? A biomechanical, finite-element analysis of L5–S1 ALIF and L3–4 lateral ACR

Author

Panico, Matteo, primary, Bertoli, Marco, additional, Villa, Tomaso Maria Tobia, additional, Galbusera, Fabio, additional, Messori, Matteo, additional, La Maida, Giovanni Andrea, additional, Misaggi, Bernardo, additional, and Gallazzi, Enrico, additional

Published
2022
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42. Experimental orthopedic biomechanics

Author

La Barbera, Luigi, Villa, Tomaso, Innocenti, Bernardo, La Barbera, Luigi, Villa, Tomaso, and Innocenti, Bernardo

Abstract

The Chapter provides a wide overview of the experimental techniques currently used in the field of orthopedic biomechanics. The Chapter is organized into three main sections. The first section is dedicated to “experimental tests at the organ and tissue levels, " including the techniques meant to characterize the mechanical properties of hard (i.e. bone), soft (i.e. ligaments), and biphasic and poroelastic tissues (i.e. cartilage) at different scales. The second section is focused on the “experimental tests on implants and prostheses, " often including the integration of implants with dedicated transducers (i.e. pressure sensors) and/or strain measurements (i.e. surface analysis with digital image correlation), which are used during in vitro and in vivo tests. The third section presents the state-of-the-art on the major joint simulators (hip, knee, spine). For each methodology, the basic principles are briefly recalled, and their utility is explained providing extensive references and examples from the orthopedic field., SCOPUS: ch.b, info:eu-repo/semantics/published

Published
2022

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