Search

Your search keyword '"Ingrassia T"' showing total 35 results
Start Over Author "Ingrassia T" Search Limiters Available in Library Collection
35 results on '"Ingrassia T"'

1. Generative Design for Additively Manufactured Textiles in Orthopaedic Applications

Author

Ricotta, V., Campbell, R. Ian, Ingrassia, T., Nigrelli, V., Cavas-Martínez, Francisco, Series Editor, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Haddar, Mohamed, Series Editor, Ivanov, Vitalii, Series Editor, Kwon, Young W., Series Editor, Trojanowska, Justyna, Series Editor, di Mare, Francesca, Series Editor, Roucoules, Lionel, editor, Paredes, Manuel, editor, Eynard, Benoit, editor, Morer Camo, Paz, editor, and Rizzi, Caterina, editor

Published
2021
Full Text
View/download PDF

7. Thermal stress analysis of different full and ventilated disc brakes.

Author

Baron Saiz, C., Ingrassia, T., Nigrelli, V., and Ricotta, V.

Subjects
*FRICTION materials, *THERMAL stresses, *CRACK initiation (Fracture mechanics), *STRAINS & stresses (Mechanics), *FATIGUE cracks
Abstract

During the braking phase, the heat produced by friction between pads and disc cannot be entirely dissipated. Consequently, the brake disc, especially if very hard braking occur, can accumulate large amounts of heat in a short time so producing high gradients of temperature on it. Under these conditions, functionality and safety of the brake system can be compromised. The object of this study is to investigate, under extreme working conditions, the thermomechanical behaviour of different brake rotors in order to evaluate their efficiency and stability and to identify any compromising weakness on them. In particular, by means of FEM thermo-mechanical coupled analyses, one full disc and three ventilated rotors with different shapes have been studied. A very hard (fading) test has been used to evaluate the performances of the discs in terms of temperature distribution, stresses and strains. Obtained results demonstrate that the analysed ventilated discs, unlike the full rotor, can be effectively used in very hard working conditions, always ensuring high safety levels. Among the studied rotors, the curved-vanes disc was found to be the best solution. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

8. Study of a constrained finite element elbow prosthesis: the influence of the implant placement

Author

Lorenzo Nalbone, Francesco Monac, Luca Nalbone, Tommaso Ingrassia, Vito Ricotta, Vincenzo Nigrelli, Massimo Ferruzza, Luigi Tarallo, Giuseppe Porcellini, Lawrence Camarda, Nalbone L., Monac F., Ingrassia T., Ricotta V., Nigrelli V., Ferruzza M., Tarallo L., Porcellini G., and Camarda L.

Subjects
Totel elbow arthroplasty, Elbow finite element, Biomechanics, Elbow replacement, Prosthetic posizioning, Orthopedics and Sports Medicine, Surgery
Abstract

Background The functional results of total elbow arthroplasty (TEA) are controversial and the medium- to long-term revision rates are relatively high. The aim of the present study was to analyze the stresses of TEA in its classic configuration, identify the areas of greatest stress in the prosthesis–bone–cement interface, and evaluate the most wearing working conditions. Materials and methods By means of a reverse engineering process and using a 3D laser scanner, CAD (computer-aided drafting) models of a constrained elbow prosthesis were acquired. These CAD models were developed and their elastic properties, resistance, and stresses were studied through finite element analysis (finite element method—FEM). The obtained 3D elbow-prosthesis model was then evaluated in cyclic flexion–extension movements (> 10 million cycles). We highlighted the configuration of the angle at which the highest stresses and the areas most at risk of implant mobilization develop. Finally, we performed a quantitative study of the stress state after varying the positioning of the stem of the ulnar component in the sagittal plane by ± 3°. Results The greatest von Mises stress state in the bone component for the 90° working configuration was 3.1635 MPa, which occurred in the most proximal portion of the humeral blade and in the proximal middle third of the shaft. At the ulnar level, peaks of 4.1763 MPa were recorded at the proximal coronoid/metaepiphysis level. The minimum elastic resistance and therefore the greatest stress states were recorded in the bone region at the apex of the ulnar stem (0.001967 MPa). The results of the analysis for the working configurations at 0° and 145° showed significant reductions in the stress states for both prosthetic components; similarly, varying the positioning of the ulnar component at 90° (− 3° in the sagittal plane, 0° in the frontal plane) resulted in better working conditions with a greater resulting developed force and a lower stress peak in the ulnar cement. Conclusion The areas of greatest stress occur in specific regions of the ulnar and humeral components at the bone–cement–prosthesis interface. The heaviest configuration in terms of stresses was when the elbow was flexed at 90°. Variations in the positioning in the sagittal plane can mechanically affect the movement, possibly resulting in longer survival of the implant. Level of evidence: 5

Published
2023

9. A Population-Based 3D Atlas of the Pathological Lumbar Spine Segment

Author

Vincenza Sciortino, Salvatore Pasta, Tommaso Ingrassia, Donatella Cerniglia, Sciortino V., Pasta S., Ingrassia T., and Cerniglia D.

Subjects
SSM, PCA, spinal column, Bioengineering, pathological lumbar spine segment, biomechanics
Abstract

The spine is the load-bearing structure of human beings and may present several disorders, with low back pain the most frequent problem during human life. Signs of a spine disorder or disease vary depending on the location and type of the spine condition. Therefore, we aim to develop a probabilistic atlas of the lumbar spine segment using statistical shape modeling (SSM) and then explore the variability of spine geometry using principal component analysis (PCA). Using computed tomography (CT), the human spine was reconstructed for 24 patients with spine disorders and then the mean shape was deformed upon specific boundaries (e.g., by ±3 or ±1.5 standard deviation). Results demonstrated that principal shape modes are associated with specific morphological features of the spine segment such as Cobb’s angle, lordosis degree, spine width and height. The lumbar spine atlas here developed has evinced the potential of SSM to investigate the association between shape and morphological parameters, with the goal of developing new treatments for the management of patients with spine disorders.

Published
2022
Full Text
View/download PDF

10. Requirements Engineering in Complex Systems Design

Author

Rocco Mozzillo, Antonio Lanzotti, Andrea Tarallo, Giuseppe Di Gironimo, D. Marzullo, Marzullo, D., Di Gironimo, G., Lanzotti, A., Mozzillo, R., Tarallo, A., and Rizzi C., Campana F., Bici M., Gherardini F., Ingrassia T., Cicconi P.

Subjects
Requirements Engineering, Engineering, Systems Engineering, SMART Require-ments, ITER tokamak, Requirements engineering, SMART Require-ment, business.industry, Complex system, Systems engineering, business, SMART requirement
Abstract

The realization of nuclear fusion reaction as energy source is under investigation, among the scientific community, through the design and development of tokamak reactors. Among the several experiments worldwide, the ITER project is the ma-jor international experiment and it involves several research institutes from sev-eral countries. In such a project, a Systems Engineering (SE) approach is re-quested to organize and manage the design due to its highly integrated design, the safety requirements related to nuclear aspects and the complex procurement scheme. The SE discipline focuses the attention on the requirements which are crucial for every successful project, defining what the stakeholders want from a potential new system, namely what the system must do to satisfy stakeholders need. Correctly stating WHAT is needed for the system, it is possible to obtain its conceptual design (HOW) as much as possible complying the requirements. The incorrect definition of requirements often leads to the failing of a project. Stakeholders’ needs are written in Natural Language that is generally ambiguous, imprecise, incomplete and redundant. Their transformation into SMART require-ments is crucial to avoid design failure. However, it requires a great expertise, unless a specific procedure is assessed. To this end, this work presents a specific procedure based on “like-mind” processes to make systematic the SMART re-quirements definition and assessment from stakeholders needs. The procedure is based on a demand/response framework and it is developed to obtain ITER re-quirements. However, it can be easily extended to every project using its own specifications. A specific case study on ITER Remote Handling is presented in this paper as example of the conceived requirements transformation procedure.

Published
2021
Full Text
View/download PDF

11. On the Finite Element Modeling of the Lumbar Spine: A Schematic Review

Author

Vincenza Sciortino, Salvatore Pasta, Tommaso Ingrassia, Donatella Cerniglia, Sciortino V., Pasta S., Ingrassia T., and Cerniglia D.

Subjects
modelling, Fluid Flow and Transfer Processes, spinal column, lumbar spine, Process Chemistry and Technology, General Engineering, Biomechanics, General Materials Science, finite element analysis, computational simulations, biomechanics, Instrumentation, Computer Science Applications
Abstract

Finite element modelling of the lumbar spine is a challenging problem. Lower back pain is among the most common pathologies in the global populations, owing to which the patient may need to undergo surgery. The latter may differ in nature and complexity because of spinal disease and patient contraindications (i.e., aging). Today, the understanding of spinal column biomechanics may lead to better comprehension of the disease progression as well as to the development of innovative therapeutic strategies. Better insight into the spine’s biomechanics would certainly guarantee an evolution of current device-based treatments. In this setting, the computational approach appears to be a remarkable tool for simulating physiological and pathological spinal conditions, as well as for various aspects of surgery. Patient-specific computational simulations are constantly evolving, and require a number of validation and verification challenges to be overcome before they can achieve true and accurate results. The aim of the present schematic review is to provide an overview of the evolution and recent advances involved in computational finite element modelling (FEM) of spinal biomechanics and of the fundamental knowledge necessary to develop the best modeling approach in terms of trustworthiness and reliability.

Published
2023
Full Text
View/download PDF

12. 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
Full Text
View/download PDF

13. Assessment of paradoxical anterior translation in a CR total knee prosthesis coupling dynamic RSA and FE techniques

Author

Stefano Zaffagnini, Raffaele Zinno, Agostino Igor Mirulla, Bernardo Innocenti, Laura Bragonzoni, Tommaso Ingrassia, Mirulla, Agostino, Bragonzoni, Laura, Zaffagnini, Stefano, Ingrassia, Tommaso, Zinno, Raffaele, Innocenti, Bernardo, Mirulla A.I., Bragonzoni L., Zaffagnini S., Ingrassia T., Zinno R., and Innocenti B.

Subjects
medicine.medical_specialty, Kinematics, medicine.medical_treatment, Rotation, Translation (geometry), Prosthesis, Condyle, Total knee, 03 medical and health sciences, 0302 clinical medicine, Mobile bearing, medicine, Coupling (piping), Orthopedics and Sports Medicine, ARTHROPLASTY, Mathematics, TKA FEATURES, Orthodontics, Orthopedic surgery, 030222 orthopedics, Original Paper, Science & Technology, TKA, Généralités, 030229 sport sciences, Dynamic RSA, Kinematic, Orthopedics, Surgery, FE analysi, FE analysis, Life Sciences & Biomedicine, RD701-811
Abstract

Purpose: The study aims were to assess the kinematic data, Internal-External (IE) rotation, and Antero-Posterior (AP) translation of the contact points between the femoral condyles and polyethylene insert and to develop a combined dynamic RSA-FE (Radiostereometric – Finite Element) model that gives results congruent with the literature. Methods: A cohort of 15 patients who underwent cemented cruciate-retaining highly congruent mobile-bearing total knee arthroplasty were analyzed during a sit-to-stand motor task. The kinematical data from Dynamic RSA were used as input for a patient-specific FE model to calculate condylar contact points between the femoral component and polyethylene insert. Results: The femoral component showed an overall range about 4 mm of AP translation during the whole motor task, and the majority of the movement was after 40° of flexion. Concerning the IE rotation, the femoral component started from an externally rotate position (− 6.7 ± 10°) at 80° of flexion and performed an internal rotation during the entire motor task. The overall range of the IE rotation was 8.2°. Conclusions: During the sit to stand, a slight anterior translation from 40° to 0° of flexion of the femoral component with respect to polyethylene insert, which could represent a paradoxical anterior translation. Despite a paradoxical anterior femoral translation was detected, the implants were found to be stable. Dynamic RSA and FE combined technique could provide information about prosthetic component’s stress and strain distribution and the influence of the different designs during the movement., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2021

14. Additively manufactured textiles and parametric modelling by generative algorithms in orthopaedic applications

Author

R. Ian Campbell, Tommaso Ingrassia, Vincenzo Nigrelli, Vito Ricotta, Ricotta V., Campbell R.I., Ingrassia T., and Nigrelli V.

Subjects
0209 industrial biotechnology, Textile, Computer science, Process (engineering), Additive manufacturing, CAD, Context (language use), 02 engineering and technology, Industrial and Manufacturing Engineering, law.invention, CAD modeling, 020901 industrial engineering & automation, law, Parametric modelling, Structure (mathematical logic), Elbow orthosi, business.industry, Mechanical Engineering, Generative algorithms, Additively manufactured textile, 021001 nanoscience & nanotechnology, Selective laser sintering, AM technologie, 0210 nano-technology, business, Algorithm, Generative grammar
Abstract

Purpose The purpose of this paper is to implement a new process aimed at the design and production of orthopaedic devices fully manufacturable by additive manufacturing (AM). In this context, the use of generative algorithms for parametric modelling of additively manufactured textiles (AMTs) also has been investigated, and new modelling solutions have been proposed. Design/methodology/approach A new method for the design of customised elbow orthoses has been implemented. In particular, to better customise the elbow orthosis, a generative algorithm for parametric modelling and creation of a flexible structure, typical of an AMT, has been developed. Findings To test the developed modelling algorithm, a case study based on the design and production of an elbow orthosis made by selective laser sintering was investigated. The obtained results have demonstrated that the implemented algorithm overcomes many drawbacks typical of the traditional computer aided design (CAD) modelling approaches. The parametric CAD model of the orthosis obtained through the new approach is characterised by a flexible structure with no deformations or mismatches and has been effectively used to produce the prototype through AM technologies. Originality/value The obtained results present innovative elements of originality in the CAD modelling sector, which can contribute to solving problems related to modelling for AM in different application fields.

Published
2020

15. A new design approach for customised medical devices realized by additive manufacturing

Author

Tommaso Ingrassia, Vito Ricotta, R. I. Campbell, Vincenzo Nigrelli, Ricotta V., Campbell R.I., Ingrassia T., and Nigrelli V.

Subjects
Reverse engineering, 0209 industrial biotechnology, Engineering drawing, business.industry, Computer science, CAD, 02 engineering and technology, 021001 nanoscience & nanotechnology, computer.software_genre, Industrial and Manufacturing Engineering, Torsion spring, Finite element method, 020901 industrial engineering & automation, Software, Industrial design, Modeling and Simulation, 0210 nano-technology, Voronoi diagram, Engineering design process, business, Settore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale, computer, Additive manufacturing, Computer aided design, Generative design, Reverse engineering, Elbow orthosis
Abstract

The aim of this work is the design of a new customised elbow orthosis completely realized by Additive Manufacturing and the development of generative algorithms for parametric modelling and creation of 3D patterns to be adapted to the CAD model. This work describes a method to perfect the design of a custom elbow orthosis. A reverse engineering approach has been used to digitalize the patient’s arm and the subsequent CAD modelling of the structure of the custom elbow orthosis has been performed. In particular, two algorithms have been implemented for the creation of 3D patterns and Voronoi tessellations. Subsequently, FEM analyses have been carried out to validate the design. Finally, a prototype of the elbow orthosis with Voronoi tessellation has been realized by means of the SLS technology. The results obtained have demonstrated that the implemented algorithm solved the problems found during CAD modelling with conventional software. Furthermore, the results of FEM analyses have validated the design choices. All this allowed realizing the prototype by AM technologies without problems. Moreover, the new proposed modelling approaches allows creating, in an interactive way, patterns on complex surfaces. The results of this research activity present innovative elements of originality in the CAD modelling sector, which can contribute to solving problems related to the modelling for Additive Manufacturing. Furthermore, another innovative characteristic of the device is the use of torsion springs that simulate the action of physiotherapists during exercises for patient rehabilitation.

Published
2020

16. Biomechanical analysis of two types of osseointegrated transfemoral prosthesis

Author

Francesco Di Simone, Laura Bragonzoni, Agostino Igor Mirulla, Stefano Di Paolo, Vincenzo Nigrelli, Stefano Zaffagnini, Tommaso Ingrassia, Mirulla A.I., Di Paolo S., Di Simone F., Ingrassia T., Nigrelli V., Zaffagnini S., and Bragonzoni L.

Subjects
Computer science, medicine.medical_treatment, Finite element analysi, 0206 medical engineering, OPL, Prosthetic limb, 02 engineering and technology, Prosthesis, lcsh:Technology, Osseointegration, lcsh:Chemistry, 03 medical and health sciences, Distal femur, 0302 clinical medicine, osseointegrated prosthesis, medicine, General Materials Science, CAD, OPL osseointegrated prosthesi, Settore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale, Instrumentation, lcsh:QH301-705.5, Fluid Flow and Transfer Processes, Orthodontics, 030222 orthopedics, lcsh:T, Process Chemistry and Technology, General Engineering, Finite element analysis, OPL osseointegrated prosthesis, Limiting, Stress distribution, Transfemoral amputee, equipment and supplies, 020601 biomedical engineering, Transfemoral prosthesis, lcsh:QC1-999, OPRA, Computer Science Applications, body regions, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, Implant, lcsh:Engineering (General). Civil engineering (General), lcsh:Physics
Abstract

In the last two decades, osseointegrated prostheses have been shown to be a good alternative for lower limb amputees experiencing complications in using a traditional socket-type prosthesis, however, restraining biomechanical issues, such as peri-prosthetic bone fractures or loosening, are present. To better understand and overcome these limiting issues, and thus reduce the number of implant failures, many studies have investigated the stress distribution on bone and implant during normal daily activities. The aim of this study was a biomechanical analysis of two different osseointegrated implants, a screw-type (OPRA) and a press fit system (OPL, Osseointegrated Prosthetic Limb), to evaluate the stresses generated in bone and prosthesis during a fall. In particular, four scenarios have been experimentally reproduced to determine the loads on the limb during different kinds of fall. For this purpose, a motion capture system and a force plate have been used. Numerical FEM (Finite Element Method) simulations have been performed to compare the behaviour of the OPRA and OPL systems in different fall scenarios. The obtained results showed that a fall backwards due to balance loss is the most stressful scenario among the ones analysed. As regards the comparison between OPRA and OPL devices, it emerged they have similar behaviours in terms of peak values of the stress, but the OPL implant generates larger high-stress areas in the distal femur as compared with the OPRA system.

Published
2020

17. Influence of the Screw Positioning on the Stability of Locking Plate for Proximal Tibial Fractures: A Numerical Approach

Author

Daniele Pecorella, Laura Bragonzoni, Vito Ricotta, Tommaso Ingrassia, Vincenzo Nigrelli, Ingrassia T., Nigrelli V., Pecorella D., Bragonzoni L., Ricotta V., Tommaso Ingrassia, Vincenzo Nigrelli, Daniele Pecorella, Laura Bragonzoni, and Vito Ricotta

Subjects
musculoskeletal diseases, Materials science, medicine.medical_treatment, Healing time, lcsh:Technology, Stability (probability), Locking plate, lcsh:Chemistry, 03 medical and health sciences, 0302 clinical medicine, medicine, CAD, General Materials Science, 030212 general & internal medicine, Tibial fracture, Settore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale, lcsh:QH301-705.5, Instrumentation, Reduction (orthopedic surgery), implant stability, Fluid Flow and Transfer Processes, Orthodontics, FEM, 030222 orthopedics, lcsh:T, Process Chemistry and Technology, Work (physics), General Engineering, tibial fracture, musculoskeletal system, locking plates, lcsh:QC1-999, Finite element method, Computer Science Applications, reverse engineering, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, Proper treatment, lcsh:Engineering (General). Civil engineering (General), lcsh:Physics
Abstract

Tibial fractures are common injuries in people. The proper treatment of these fractures is important in order to recover complete mobility. The aim of this work was to investigate if screw positioning in plates for proximal tibial fractures can affect the stability of the system, and if it can consequently influence the patient healing time. In fact, a more stable construct could allow the reduction of the non-weight-bearing period and consequently speed up the healing process. For that purpose, virtual models of fractured bone/plate assemblies were created, and numerical simulations were performed to evaluate the reaction forces and the maximum value of the contact pressure at the screw/bone interface. A Schatzker type I tibial fracture was considered, and four different screw configurations were investigated. The obtained results demonstrated that, for this specific case study, screw orientation affected the pressure distribution at the screw/bone interface. The proposed approach could be used effectively to investigate different fracture types in order to give orthopaedists useful guidelines for the treatment of proximal tibial fractures.

Published
2020
Full Text
View/download PDF

18. New customized elbow orthosis made by additive manufacturing

Author

Tommaso Ingrassia, Vito Ricotta, R. I. Campbell, Vincenzo Nigrelli, Campbell R.I., Ingrassia T., Nigrelli V., and Ricotta V.

Subjects
Engineering drawing, Computer science, Additive manufacturing, Work (physics), Parametric model, Computer aided engineering, Elbow orthosis, Settore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale, 3D acquisition, Torsion spring
Abstract

Orthoses are additional devices that help people with disabilities. The focus of this work is the design and manufacture of a new customized elbow orthosis completely made by Additive Manufacturing (AM). One of the innovative characteristic of the device is the use of torsion springs that simulate the action of physiotherapists during exercises for patient rehabilitation. Parametric modeling approach based on generative algorithms was used to design the device. Finally, FEM analyses have been performed to validate the design.

Published
2019

19. Mechanical behavior of a sandwich with corrugated GRP core: numerical modeling and experimental validation

Author

Vincenzo Nigrelli, Giuseppe Pitarresi, Tommaso Ingrassia, Davide Tumino, V. Urso Miano, Tumino, D, Ingrassia, T, Nigrelli, V, Pitarresi, G, and Urso Miano, V

Subjects
Materials science, Discretization, lcsh:Mechanical engineering and machinery, Composite number, lcsh:TA630-695, Shell (structure), Orthotropic material, Finite Element, Settore ING-IND/14 - Progettazione Meccanica E Costruzione Di Macchine, Flexural strength, Homogenisation, lcsh:TJ1-1570, Composite material, Settore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale, Sandwich Structure, business.industry, Sandwich Structures, Mechanical Engineering, Corrugated Core, Inner core, lcsh:Structural engineering (General), Structural engineering, Finite element method, Core (optical fiber), Mechanics of Materials, business
Abstract

In this work the mechanical behaviour of a core reinforced composite sandwich structure is studied. The sandwich employs a Glass Reinforced Polymer (GRP) orthotropic material for both the two external skins and the inner core web. In particular, the core is designed in order to cooperate with the GRP skins in membrane and flexural properties by means of the addition of a corrugated laminate into the foam core. An analytical model has been developed to replace a unit cell of this structure with an orthotropic equivalent thick plate that reproduces the in plane and out of plane behaviour of the original geometry. Different validation procedures have been implemented to verify the quality of the proposed method. At first a comparison has been performed between the analytical model and the original unit cell modelled with a Finite Element mesh. Elementary loading conditions are reproduced and results are compared. Once the reliability of the analytical model was assessed, this homogenised model was implemented within the formulation of a shell finite element. The goal of this step is to simplify the FE analysis of complex structures made of corrugated core sandwiches; in fact, by using the homogenised element, the global response of a real structure can be investigated only with the discretization of its mid-surface. Advantages are mainly in terms of time to solution saving and CAD modelling simplification. Last step is then the comparison between this FE model and experiments made on sandwich beams and panels whose skins and corrugated cores are made of orthotropic cross-ply GRP laminates. Good agreement between experimental and numerical results confirms the validity of the proposed model.

Published
2014
Full Text
View/download PDF

20. A reverse engineering approach to measure the deformations of a sailing yacht

Author

Francesco Di Paola, Tommaso Ingrassia, Antonio Mancuso, Mauro Lo Brutto, Eynard, B, Nigrelli, Oliveri, SM, Peris-Fajarnes, G, Rizzuti, S, Di Paola, F, Ingrassia, T, Lo Brutto, M, and Mancuso, A

Subjects
Reverse engineering, Engineering, Process (engineering), Mechanical engineering, CAD, computer.software_genre, 03 medical and health sciences, 0302 clinical medicine, 3D computer graphics software, Hull, 0502 economics and business, Generative algorithm, Settore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale, Measure (data warehouse), business.industry, 05 social sciences, 030206 dentistry, Photogrammetry, CAE tool, Close range photogrammetry, Sailing yacht, Settore ICAR/17 - Disegno, CAE tools, Generative algorithms, business, computer, 050203 business & management, Settore ICAR/06 - Topografia E Cartografia, Marine engineering
Abstract

In this work, a multidisciplinary experience, aimed to study the permanent deformations of the hull of a regatta sailing yacht is described. In particular, a procedure to compare two different surfaces of the hull of a small sailing yacht, designed and manufactured at the University of Palermo, has been developed. The first one represents the original CAD model while the second one has been obtained by means of a reverse engineering approach. The reverse engineering process was performed through an automatic close-range photogrammetry survey, that has allowed to obtain very accurate measures of the hull, and a 3D modelling step by the well-known 3D computer graphics software Rhinoceros. The reverse engineering model was checked through two different procedures implemented by the graphical algorithm editor Grasshopper. The first procedure has allowed to compare the photogrammetric measurements with the rebuilt surface, in order to verify if the reverse engineering process has led to reliable results. The second has been implement to measure the deviations between the original CAD model and the rebuilt surface of the hull. This procedure has given the possibility to highlight any permanent deformation of the hull due to errors during the production phase or to excessive loads during its use. The obtained results have demonstrated that the developed procedure is very efficient and able to give detailed information on the deviation values of the two compared surfaces.

Published
2017

21. A comparison of simplex and simulated annealing for optimization of a new rear underrun protective device

Author

Vincenzo Nigrelli, Tommaso Ingrassia, Rosario Buttitta, Ingrassia, T, Nigrelli, V, and Buttitta, R

Subjects
State variable, Engineering, Mathematical optimization, Simplex, Optimization problem, business.industry, General Engineering, Optimization, Simulated annealing, Simplex, Numerical crash analysis, Adaptive simulated annealing, Linear function, Finite element method, Computer Science Applications, Simplex algorithm, Modeling and Simulation, Simulated annealing, Settore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale, business, Software
Abstract

In this paper, two optimization approaches to improve the product design process have been analysed. Through the analysis of a case study, concerning the designing of a new High Energy Absorption Rear Underrun Protective Device (HEARUPD), two different optimization approaches (simplex and simulated annealing) have been compared. In the implemented optimization processes, the crash between an economy car and the rear part of a truck has been simulated by dynamic numerical (FEM) analyses. Moreover, authors have proposed the use of a suitable linear function of four variables with the purpose of reducing the multi-objective optimization processes to mono-objective ones. That has been made to simplify the analysis procedures without affecting the quality and the completeness of the optimization processes. The obtained results, as well as showing the high effectiveness of the integrated use of numerical crash analyses and optimization methods, demonstrate that simplex method is more effective than simulated annealing one for optimization problems where the single analysis loop requires much time. Even if the solutions are quite similar in terms of calculated values of the objective function, design and state variables, simplex method needs shorter computational time than simulated annealing to obtain an optimized solution.

Published
2012
Full Text
View/download PDF

22. 2D size, position and shape definition of defects by B-scan image analysis

Author

Tommaso Ingrassia, Michele Scafidi, Donatella Cerniglia, Scafidi, M., Cerniglia, D., and Ingrassia, T.

Subjects
2D defect shape definition, B-scan image analysis, Defect size definition, Laser UT system, NDE, Mechanical Engineering, Mechanics of Materials, Engineering drawing, Engineering, defect size definition, business.industry, lcsh:Mechanical engineering and machinery, lcsh:TA630-695, lcsh:Structural engineering (General), Automation, Image (mathematics), Cross section (physics), laser UT system, Position (vector), Computer vision, Ultrasonic sensor, lcsh:TJ1-1570, Artificial intelligence, Settore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale, business, B-scan image analysi
Abstract

The non-destructive evaluation of defects by automatic procedures is of great importance for structural components. Thanks to the developments of the non-contact ultrasonic techniques, the automation of the inspections is gaining a progressively important role. In this work, an automatic inspection technique for the evaluation of defects by the analysis of B-scan images obtained by a laser ultrasonic system is presented. The data are extracted directly from a B-scan map obtained for a panel with internal defects, and are used to build an image of the cross section of the panel. The proposed automatic procedure allows the definition of size, position and shape of defects in panels of known thickness.

Published
2015

23. Thermal stress analysis of different full and ventilated disc brakes

Author

Vito Ricotta, Vincenzo Nigrelli, Tommaso Ingrassia, C. Baron Saiz, Baron Saiz, C., Ingrassia, T., Nigrelli, V., and Ricotta, V.

Subjects
Engineering, FEM, business.industry, Rotor (electric), Mechanical Engineering, lcsh:Mechanical engineering and machinery, lcsh:TA630-695, Thermomechanical analysi, Structural engineering, lcsh:Structural engineering (General), Brake rotor, Finite element method, law.invention, law, Mechanics of Materials, Brake, Thermomechanical analysis, Fade, Disc brake, lcsh:TJ1-1570, business, Settore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale, Ventilated disc
Abstract

During the braking phase, the heat produced by friction between pads and disc cannot be entirely dissipated. Consequently, the brake disc, especially if very hard braking occur, can accumulate large amounts of heat in a short time so producing high gradients of temperature on it. Under these conditions, functionality and safety of the brake system can be compromised. The object of this study is to investigate, under extreme working conditions, the thermomechanical behaviour of different brake rotors in order to evaluate their efficiency and stability and to identify any compromising weakness on them. In particular, by means of FEM thermo-mechanical coupled analyses, one full disc and three ventilated rotors with different shapes have been studied. A very hard (fading) test has been used to evaluate the performances of the discs in terms of temperature distribution, stresses and strains. Obtained results demonstrate that the analysed ventilated discs, unlike the full rotor, can be effectively used in very hard working conditions, always ensuring high safety levels. Among the studied rotors, the curved-vanes disc was found to be the best solution.

Published
2015

24. Behaviour of a speargun with a novel muzzle

Author

V. Nigrelli, M. Mucera, T. Ingrassia, Ingrassia, T, Mucera, M, and Nigrelli, V

Subjects
FEM, Speargun, Strain gauges, lcsh:Mechanical engineering and machinery, Roller muzzle, lcsh:TA630-695, lcsh:TJ1-1570, lcsh:Structural engineering (General), Strain gauge, Settore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale
Abstract

The paper presents the results of a numerical and experimental investigation performed on a barrel of a speargun equipped with two kinds of muzzle. In particular, a standard muzzle for speargun (having an elastic propulsion) has been compared with an innovative one called ‘roller’. This new muzzle is equipped with two rollers and special bands. The rubber bands, fixed at the lower side of the barrel, run through the rollers and are engaged in suitable seats of the shaft. These bands are, therefore, longer than the traditional ones and, consequently, with equal force applied by the diver, the roller speargun has a longer range. Thanks to the particular geometry of the new muzzle, one of the front constraints of the elastic bands is moved to the lower part of the barrel or the handle.As a consequence, the scheme of the loads applied on the speargun remarkably changes passing from a standard muzzle to a roller one. All that has a great influence on the level of deformation of the barrel and, consequently, on the accuracy of the shot. Because of the low velocity of the spear (if compared with the firearms), in fact, the accuracy of the shoot if strongly influenced by the barrel bending due to the forces applied by means of the elastic bands. In this paper it is experimentally evaluated the bending of the barrel equipped both with the innovative muzzle and with the traditional one in order to compare their performances. The experimental analysis of the barrel was performed by electrical strain gauges suitably located at the section with the highest values of the strains. In order to find the barrel section with the highest strain values where to locate the strain gauges, a preliminary numerical FEM analysis has been performed. The loads and constraints scheme has been evaluated both for the standard and the new muzzle. In particular, the forces due to the elastic bands, their application points and directions have been experimentally obtained. To speed up the process of numerical simulation, without invalidating the results reliability, simplified FEM models have been used. In particular, a very accurate model of the barrel has been shaped, whereas the models of the muzzles and the handle have been simplified. The forces due to the elastic bands, experimentally obtained, have been applied on the FEM models. The maps of the maximum and minimum principal strains have allowed to find the area with the highest strain values, placed in rear part of the barrel (near the handle). The strain values experimentally measured on the speargun have been very similar to the ones calculated by means of the numerical simulations. That demonstrates the developed FEM models are very reliable and can ben used to predict the performances of the speragun under different loads conditions. The speargun with the new roller muzzle shows very lower strain values if compared with the ones measured in the standard one. Nevertheless, considering the two spearguns have different elastic bands setup, it has been thought the comparison of their performances should be made hypothesizing the same maximum force applied during the speargun charge. This condition, moreover, could be really obtained by changing the kind of the elastic bands in the speargun with the roller muzzle. For this reason, during the results analysis phase, the strain values measured on the roller speargun have been ‘normalized’ by increasing them of a value equal to the ratio of the maximum forces due to the rubber bands. The data post processing has allowed to evaluate the forces and the bending moments on the barrels with the standard muzzle and the roller one. Results show the barrel with the innovative muzzle has, also considering equal forces applied by the diver, a lower bending than the barrel with a traditional muzzle. To evaluate the maximum deflection of both the spearguns, a new numerical simulation has been set up. In particular, in this FEM analysis, the roller speargung has been loaded with a maximum force comparable with the standard one. The obtained results show that the standard speargun has a higher value of the maximum deflection respect to the roller one. Since higher deflection values of the barrel make worse the accuracy of the shot, these results demonstrate the novel speargun can be more precise than the traditional one.

Published
2013

25. Optimal positioning of the humeral component in the reverse shoulder prosthesis

Author

Andrea Pellegrini, Paolo Paladini, F. Zabbara, R. Adelfio, Michele D'Arienzo, Giuseppe Porcellini, Vincenzo Nigrelli, Lorenzo Nalbone, Fabrizio Campi, Tommaso Ingrassia, Nalbone, L, Adelfio, R, D’arienzo, M, Ingrassia, T, Nigrelli, V, Zabbara, F, Paladini, P, Campi, F, Pellegrini, A, and Porcellini, G

Subjects
musculoskeletal diseases, medicine.medical_specialty, FEM analyses, medicine.medical_treatment, Replacement, Deltoid curve, Prosthesis Design, Prosthesis, Arthroplasty, Arthropathy, medicine, Humans, Orthopedics and Sports Medicine, Humerus, Rotator cuff, Arthroplasty, Replacement, Settore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale, Total reverse shoulder arthroplasty, Intrinsic stability, FEM analyses, Polyethylene wear, Stability ratio, Intrinsic stability, Polyethylene wear, Stability ratio, Total reverse shoulder arthroplasty, Shoulder Joint, Surgery, Medicine (all), business.industry, Shoulder Prosthesis, medicine.disease, medicine.anatomical_structure, Shoulder joint, business, human activities
Abstract

Total reverse shoulder arthroplasty is becoming more and more the standard therapeutic practice for glenohumeral arthropathy with massive lesions of the rotator cuff. The biomechanical principle of this prosthesis is represented by the reversion of the normal anatomy of the shoulder joint. This non-anatomical prosthesis leads to a medialization of the rotation centre of the glenohumeral joint and also to a distalization of the humeral head. All that causes a deltoid tension increasing so allowing a larger abduction of the arm. Main complications of the reverse shoulder prosthesis are due to the joint instability, the scapular notching and the wear of the polyethylene insert. The main goal of the present work is to study the effect of the positioning of the humeral component on the intrinsic stability of the reverse shoulder prosthesis. In particular, through finite element method simulations, the variation of the stability ratio of the shoulder joint has been calculated for both vertical and horizontal dislocating loads depending on the humeral stem version angle. Moreover, in order to estimate the wear of the polyethylene cup, some analyses have been developed to calculate the pressures on the polyethylene insert. The obtained results demonstrate the dislocation of a shoulder prosthesis and the wear of the polyethylene insert can be prevented or limited by conveniently varying the version angle of the humeral component.

Published
2012

26. Contact between the components of a knee prosthesis: numerical and experimental study

Author

Tommaso Ingrassia, Donatella Cerniglia, M. Saporito, L. D’Acquisto, Davide Tumino, Cerniglia, D, Ingrassia, T, D'Acquisto, L, Saporito, M, and Tumino, D

Subjects
Reverse engineering, Materials science, business.industry, Mechanical Engineering, lcsh:Mechanical engineering and machinery, Work (physics), lcsh:TA630-695, Analisi FEM, Surface finish, Structural engineering, lcsh:Structural engineering (General), computer.software_genre, Finite element method, Mechanics of Materials, Service life, Ultrasuoni, Ultrasonic sensor, lcsh:TJ1-1570, business, Contact area, computer, Protesi di ginocchio, Reliability (statistics), Biomedical engineering
Abstract

The aim of this work is the analysis of the contact area in a knee prosthesis using two different approaches. In particular, the interface between the femoral component and the polyethylene insert has been studied both numerically and experimentally. The interest in studying the contact area is related to the fact that the wear of the polyethylene insert, due to the high contact pressures, represents one of the major causes of failure of the total knee prosthesis. The possibility to evaluate the contact area at different loads and mutual position between femur and tibia is, therefore, of fundamental importance to study the service life of a prosthesis and to improve its performance. The finite element numerical approach has required the acquisition, through reverse engineering, and CAD modelling of the prosthetic components. Then the FEM simulations have been developed considering two different load conditions. In order to compare the calculated data, the same load configurations have been used for experimental tests based on ultrasonic method. In this case, some preliminary tests were required to calibrate the system depending on the particular characteristics of materials, geometries and surface finish of the prosthesis. The results show a good correlation between the data obtained with the two different approaches and, consequently, a good level of reliability of the procedures developed for the numerical and experimental evaluation of the contact area. The numerical procedure can be used to determine the area for different angles and loads, but especially in the design phase. The ultrasonic technique can be used to validate the numerical data.

Published
2012

27. Design of a new high energy rear underrun protective device

Author

Vincenzo Nigrelli, Cappello F, Tommaso Ingrassia, W.P. DE WILDE C.A. BREBBIA, CAPPELLO F, INGRASSIA T, and NIGRELLI VA

Subjects
Truck, High energy, Energy absorption, Computer science, Work (physics), Active safety, Crash, Structural difference, Automotive engineering, Protective system
Abstract

In recent years the vehicle design field has followed a progressive evolution by focusing its main interest on passive and active safety levels. One of the most injurious cases for the safety of passengers is the crash between a car and a heavy vehicle (truck). Generally, in fact, when such an occurrence happens, the greatest damage is suffered by the passengers of the car. This is because of the considerable structural difference between the two vehicles and the lack of devices to reduce the injuries of the car passengers. In this work, as a consequence of the previous considerations, we deal with the design of a new protective system for heavy vehicles over 3.5 tons. The new rear underrun protective device presented here, compared to the traditional one, can dissipate a greater amount of energy; this reduces the damage suffered by the passengers of a car involved in an impact with a truck. To simulate the behaviour of the new protective device during different kinds of crashes, dynamic finite element method (FEM) analyses have been carried out. The comparison between the new protective system and the standard one has shown that the new designed protective system has better performances in terms of energy absorption and peaks of decelerations.

Published
2008
Full Text
View/download PDF

29. A new design approach to the use of composite materials for heavy transport vehicles

Author

Vincenzo Nigrelli, Francesco Cappello, Antonio Mancuso, Gianluca Alaimo, Tommaso Ingrassia, CAPPELLO F, INGRASSIA T, MANCUSO A, NIGRELLI V, and ALAIMO G

Subjects
Truck, Engineering, business.industry, Process (engineering), Mechanical Engineering, Composite materialRedesign processSemitrailerStructural frame, Monocoque, Field (computer science), Semi-trailer, Vehicle frame, Automotive Engineering, Product (category theory), Composite material, Settore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale, business, Engineering design process
Abstract

In order to keep or to reach a high level of competitiveness and performance of a product, it is necessary to explore all the possible solutions that allow the best compromise between costs and project requirements. By this point of view the study of alternative designs and/or materials to use, is an important aspect that can identify a new concept or way of thinking about a product. This paper presents how to make use of composite materials in the field of heavy vehicles transportation. A new semitrailer in composite material has been designed, using a methodical redesign approach and an optimisation process. The main innovation in this project is, besides the use of the Glass Fibre Reinforced Plastics (GFRPs), also a new topology of the vehicle frame; the designed semitrailer, in fact, has a monocoque structure.

Published
2007
Full Text
View/download PDF

30. Defining the Potential of Extended Reality Tools for Implementing Co-creation of User Oriented Products and Systems

Author

Bonaventura Vitolo, Sandhya Santhosh, Francesca De Crescenzio, Rizzi C., Campana F., Bici M., Gherardini F., Ingrassia T., Cicconi P., and Santhosh, S., De Crescenzio, F. , Vitolo, B.

Subjects
Computer science, business.industry, 05 social sciences, 0202 electrical engineering, electronic engineering, information engineering, Co-creation, 020207 software engineering, 0501 psychology and cognitive sciences, 02 engineering and technology, User oriented, Software engineering, business, 050107 human factors
Abstract

In the last two decades a huge number of interactive and collaborative applications of Virtual Environments for designing products has been proposed. Such applications have been recommended as tools to implement Human Centered Design Approach in experiments where potential users are involved in participatory design sessions before going for production. In this kind of experiments, we observe that users are mainly involved in the validation of solutions previously elaborated by designers while in the last decade the most innovative approach in the creation of solutions seems to be moving from a user centered design to a co-design or co-creation process. Thus, it is essential to have a platform where the elements of co-creation can be fulfilled in building a successful project. The purpose of this paper is to outline the concept of co creation and the significance of co-creation platforms alongside of proposing innovative tools for building the co-creative environments. The paper aims to layout a classification of the Extended Reality (XR) tools currently available and of their functionality as valuable means to actually embed co-design and co creation concepts in Virtual Environments evaluating the advantages that this can bring to Industry through field studies. A review of innovative solutions like Virtual, Augmented and Mixed reality technologies is examined and drawn towards the requirements of the concept through a literature research. Additionally, a co-creative environment for designing aircraft cabin interiors is conceived and discussed a with company representative.

Full Text
View/download PDF

31. Study of a constrained finite element elbow prosthesis: the influence of the implant placement.

Author

Nalbone L, Monac F, Nalbone L, Ingrassia T, Ricotta V, Nigrelli V, Ferruzza M, Tarallo L, Porcellini G, and Camarda L

Subjects
Humans, Finite Element Analysis, Humerus, Ulna, Bone Cements, Elbow Prosthesis
Abstract

Background: The functional results of total elbow arthroplasty (TEA) are controversial and the medium- to long-term revision rates are relatively high. The aim of the present study was to analyze the stresses of TEA in its classic configuration, identify the areas of greatest stress in the prosthesis-bone-cement interface, and evaluate the most wearing working conditions., Materials and Methods: By means of a reverse engineering process and using a 3D laser scanner, CAD (computer-aided drafting) models of a constrained elbow prosthesis were acquired. These CAD models were developed and their elastic properties, resistance, and stresses were studied through finite element analysis (finite element method-FEM). The obtained 3D elbow-prosthesis model was then evaluated in cyclic flexion-extension movements (> 10 million cycles). We highlighted the configuration of the angle at which the highest stresses and the areas most at risk of implant mobilization develop. Finally, we performed a quantitative study of the stress state after varying the positioning of the stem of the ulnar component in the sagittal plane by ± 3°., Results: The greatest von Mises stress state in the bone component for the 90° working configuration was 3.1635 MPa, which occurred in the most proximal portion of the humeral blade and in the proximal middle third of the shaft. At the ulnar level, peaks of 4.1763 MPa were recorded at the proximal coronoid/metaepiphysis level. The minimum elastic resistance and therefore the greatest stress states were recorded in the bone region at the apex of the ulnar stem (0.001967 MPa). The results of the analysis for the working configurations at 0° and 145° showed significant reductions in the stress states for both prosthetic components; similarly, varying the positioning of the ulnar component at 90° (- 3° in the sagittal plane, 0° in the frontal plane) resulted in better working conditions with a greater resulting developed force and a lower stress peak in the ulnar cement., Conclusion: The areas of greatest stress occur in specific regions of the ulnar and humeral components at the bone-cement-prosthesis interface. The heaviest configuration in terms of stresses was when the elbow was flexed at 90°. Variations in the positioning in the sagittal plane can mechanically affect the movement, possibly resulting in longer survival of the implant., (© 2023. The Author(s).)

Published
2023
Full Text
View/download PDF

32. Assessment of paradoxical anterior translation in a CR total knee prosthesis coupling dynamic RSA and FE techniques.

Author

Mirulla AI, Bragonzoni L, Zaffagnini S, Ingrassia T, Zinno R, and Innocenti B

Abstract

Purpose: The study aims were to assess the kinematic data, Internal-External (IE) rotation, and Antero-Posterior (AP) translation of the contact points between the femoral condyles and polyethylene insert and to develop a combined dynamic RSA-FE (Radiostereometric - Finite Element) model that gives results congruent with the literature., Methods: A cohort of 15 patients who underwent cemented cruciate-retaining highly congruent mobile-bearing total knee arthroplasty were analyzed during a sit-to-stand motor task. The kinematical data from Dynamic RSA were used as input for a patient-specific FE model to calculate condylar contact points between the femoral component and polyethylene insert., Results: The femoral component showed an overall range about 4 mm of AP translation during the whole motor task, and the majority of the movement was after 40° of flexion. Concerning the IE rotation, the femoral component started from an externally rotate position (- 6.7 ± 10°) at 80° of flexion and performed an internal rotation during the entire motor task. The overall range of the IE rotation was 8.2°., Conclusions: During the sit to stand, a slight anterior translation from 40° to 0° of flexion of the femoral component with respect to polyethylene insert, which could represent a paradoxical anterior translation. Despite a paradoxical anterior femoral translation was detected, the implants were found to be stable. Dynamic RSA and FE combined technique could provide information about prosthetic component's stress and strain distribution and the influence of the different designs during the movement., (© 2021. The Author(s).)

Published
2021
Full Text
View/download PDF

33. On the Left Ventricular Remodeling of Patients with Stenotic Aortic Valve: A Statistical Shape Analysis.

Author

Cutugno S, Ingrassia T, Nigrelli V, and Pasta S

Abstract

The left ventricle (LV) constantly changes its shape and function as a response to pathological conditions, and this process is known as remodeling. In the presence of aortic stenosis (AS), the degenerative process is not limited to the aortic valve but also involves the remodeling of LV. Statistical shape analysis (SSA) offers a powerful tool for the visualization and quantification of the geometrical and functional patterns of any anatomic changes. In this paper, a SSA method was developed to determine shape descriptors of the LV under different degrees of AS and thus to shed light on the mechanistic link between shape and function. A total of n=86 patients underwent computed tomography (CT) for the evaluation of valvulopathy were segmented to obtain the LV surface and then were automatically aligned to a reference template by rigid registrations and transformations. Shape modes of the anatomical LV variation induced by the degree of AS were assessed by principal component analysis (PCA). The first shape mode represented nearly 50% of the total variance of LV shape in our patient population and was mainly associated to a spherical LV geometry. At Pearson's analysis, the first shape mode was positively correlated to both the end-diastolic volume (p<0.01, R=0.814) and end-systolic volume (p<0.01, and R=0.922), suggesting LV impairment in patients with severe AS. A predictive model built with PCA-related shape modes achieved better performance in stratifying the occurrence of adverse events with respect to a baseline model using clinical demographic data as risk predictors. This study demonstrated the potential of SSA approaches to detect the association of complex 3D shape features with functional LV parameters.

Published
2021
Full Text
View/download PDF

34. Plastic bronchitis: an old disease revisited.

Author

Jett JR, Tazelaar HD, Keim LW, and Ingrassia TS 3rd

Subjects
Acetylcysteine therapeutic use, Adult, Blood Proteins analysis, Cough complications, Diagnosis, Differential, Dyspnea complications, Eosinophil Granule Proteins, Eosinophils chemistry, Humans, Male, Mucus chemistry, Mucus metabolism, Prednisone therapeutic use, Trimethoprim, Sulfamethoxazole Drug Combination therapeutic use, Bronchitis diagnosis, Bronchitis metabolism, Bronchitis pathology, Bronchitis therapy, Ribonucleases
Abstract

Expectoration of bronchial casts (plastic bronchitis) is an uncommon but ancient problem. Herein we describe a 40-year-old man, with no prior lung disease, who had dyspnea, cough, and expectoration of long branching bronchial casts. No specific cause was delineated, although special stains for eosinophilic granule major basic protein demonstrated occasional foci of eosinophils and small amounts of extracellular major basic protein in the bronchial casts. Various diseases, such as allergic bronchopulmonary aspergillosis, bronchiectasis, and cystic fibrosis, have been associated with the formation of bronchial casts and should be considered in the differential diagnosis. Although most previously reported cases have been associated with some type of pulmonary disease, our patient had no evidence of an underlying pulmonary disorder.

Published
1991
Full Text
View/download PDF

35. Oxygen-exacerbated bleomycin pulmonary toxicity.

Author

Ingrassia TS 3rd, Ryu JH, Trastek VF, and Rosenow EC 3rd

Subjects
Acute Disease, Adult, Drug Synergism, Humans, Intraoperative Care, Male, Neoplasm Recurrence, Local surgery, Reoperation, Bleomycin adverse effects, Lung Neoplasms drug therapy, Neoplasms, Germ Cell and Embryonal drug therapy, Oxygen Inhalation Therapy adverse effects, Respiratory Distress Syndrome chemically induced
Abstract

Bleomycin is an antineoplastic agent with potential for producing pulmonary toxicity, attributed in part to its free radical-promoting ability. Clinical and research experiences have suggested that the risk of bleomycin-induced pulmonary injury is increased with the administration of oxygen. We report a case in which the intraoperative administration of oxygen in the setting of previous bleomycin therapy contributed to postoperative ventilatory failure. Our patient recovered with corticosteroid therapy. Physician awareness of a potential interaction between oxygen and bleomycin may help reduce the morbidity and mortality related to bleomycin therapy.

Published
1991
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results