Your search keyword '"INGRASSIA T"' showing total 4 results

1. A new method to evaluate the influence of the glenosphere positioning on stability and range of motion of a reverse shoulder prosthesis

Author

Ingrassia, T., primary, Nigrelli, V., additional, Ricotta, V., additional, Nalbone, L., additional, D'Arienzo, A., additional, D'Arienzo, M., additional, and Porcellini, G., additional

Published

2019

2. Virtual simulation of an osseointegrated trans-humeral prosthesis: A falling scenario

Author

Mirulla, A.I., primary, Bragonzoni, L., additional, Zaffagnini, S., additional, Bontempi, M., additional, Nigrelli, V., additional, and Ingrassia, T., additional

Published

2018

3. A new method to evaluate the influence of the glenosphere positioning on stability and range of motion of a reverse shoulder prosthesis

Author

Tommaso Ingrassia, Lorenzo Nalbone, Antonio D'Arienzo, Vito Ricotta, Giuseppe Porcellini, Michele D'Arienzo, Vincenzo Nigrelli, Ingrassia, T, Nigrelli, V, Ricotta, V, Nalbone, L, D'Arienzo, A, D'Arienzo, M, and Porcellini, G

Subjects

Range of Motion, Joint Instability, musculoskeletal diseases, Shoulder, Reverse shoulders prosthesis, medicine.medical_treatment, Replacement, Guidelines as Topic, Prosthesis Design, Prosthesis, Instability ratio, Arthroplasty, 03 medical and health sciences, CAD modelling &amp, 0302 clinical medicine, medicine, Humans, Range of Motion, Articular, Settore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale, Tomography, General Environmental Science, 030222 orthopedics, ROM, Shoulder Joint, business.industry, CAD modelling & simulation, Digital shape acquisition, Arthroplasty, Replacement, Shoulder, Case-Control Studies, Shoulder Dislocation, Shoulder Impingement Syndrome, Shoulder Prosthesis, Tomography, X-Ray Computed, Work (physics), 030208 emergency & critical care medicine, simulation, X-Ray Computed, Tilt (optics), medicine.anatomical_structure, General Earth and Planetary Sciences, Shoulder joint, Range of motion, business, Articular, Biomedical engineering

Abstract

Purpose Shoulder instability and reduced range of motion are two common complications of a total reverse shoulder arthroplasty. In this work, a new approach is proposed to estimate how the glenoid component positioning can influence the stability and the range of motion of a reverse shoulder prosthesis. Materials and methods A standard reverse shoulder prosthesis has been analysed. To perform virtual simulation of the shoulder-prosthesis assembly, all the components of the prosthesis have been acquired via a 3D laser scanner and the solid models of the shoulder bones have been reconstructed through CT images. Loads on the shoulder joint have been estimated using anatomical models database. A new virtual/numerical procedure has been implemented using a 3D parametric modelling software to find the optimal position of the glenosphere. Results Several analyses have been performed using different configurations obtained by changing the glenoid component tilt and the lateral position of the glenosphere, modified through the insertion of a cylindrical spacer. For the analysed case study, it was found that the interposition of a spacer (between the baseplate and the glenoid) and 15° inferior tilt of the glenosphere allow improving the range of motion and the stability of the shoulder. Conclusions Some common complications of the reverse shoulder arthroplasty could be effectively reduced by a suitable positioning of the prosthesis components. In this work, using a new method based on virtual simulations, the influence of the glenosphere positioning has been investigated. An optimal configuration for the analysed case study has been found. The proposed approach could be used to find, with no in vivo experiments, the optimal position of a reverse shoulder prosthesis depending on the different dimensions and shape of the bones of each patient.

Published

2019

4. Influence of sutures configuration on the strength of tendon-patch joints for rotator cuff tears treatment.

Author

Ingrassia T, Lombardo B, Nigrelli V, Ricotta V, Nalbone L, D'Arienzo A, D'Arienzo M, and Porcellini G

Subjects

Animals, Biocompatible Materials, Models, Animal, Range of Motion, Articular physiology, Plastic Surgery Procedures, Suture Techniques, Swine, Rotator Cuff pathology, Rotator Cuff Injuries pathology, Sutures, Tendons transplantation, Tensile Strength physiology

Abstract

Purpose: Massive rotator cuff tears are common in the aging population. The incidence of failed rotator cuff repairs is still quite high, especially in the treatment of full-thickness tears or revision repairs. In this context, natural and synthetic meshes can be used as augmentation scaffolds or as devices to close the gap between a retracted tendon and the bone. The purpose of this work is to evaluate the ultimate tensile strength of different tendon-patch joints in order to consider their use in the treatment of massive cuff tears., Materials and Methods: Porcine tendons and a synthetic low-density polypropylene mesh have been used. A preliminary study on the tensile strength of tendons and patches has been performed. Different patch-tendon joints have been studied by modifying the number and the layout of the sutures. For every joint, the tensile test, performed through an electromechanical machine, has been repeated at least twice to obtain reliable data., Results: Experimental tensile tests on tendons and patches have given good results with very low dispersion data. Mean values of the calculated ultimate tensile stresses are, respectively, about 34 MPa and 16 MPa for tendons and patches. As regards the sutures arrangement, the staggered layout gave, for all joints, a higher tensile strength than the regular (aligned) one. Different ultimate tensile stress values, depending on the sutures number and layout, have been calculated for the joints., Conclusion: Synthetic patches could be an interesting option to repair massive cuff tears and to improve, in a significant way, pain, range of motion and strength at time 0, so reducing the rehabilitation time. Obtained results demonstrated that joints with a suitable number and layout of sutures could ensure very good mechanical performances. The failure load of the tendon-patch joint, in fact, is higher than the working load on a healthy tendon., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019