Full Professor (L. 240)
Department of Mechanical and Aerospace Engineering (DIMEAS)
- Member of Interdepartmental Center PolitoBIOMed Lab - Biomedical Engineering Lab
Profile
Research interests
Biography
UMBERTO MORBIDUCCI is Full Professor of Industrial Bioengineering at the Department of Mechanical and Aerospace Engineering of Politecnico di Torino, Turin, Italy. He has obtained a Master degree in Electronic Engineering from the University La Sapienza, Rome, Italy, and has obtained a PhD degree in Mechanical Engineering from the Università Politecnica delle Marche, Ancona, Italy. He is the Coordinator of the BS and MS programs in Biomedical Engineering at Politecnico di Torino. He is member of the board of governors of PoliToBIOMed Lab, the Interdepartmental Center of Biomedical Engineering of the Politecnico di Torino (about 80 people involved). He was responsible for the Politecnico di Torino of the Bilateral Scientific Agreements between Politecnico di Torino and the School of Biological Science and Medical Engineering, Beihang University, Beijing, China, and the Cyprus University of Technology, Cyprus. He has participated to the activity of tens international, national and regional scientific research projects. Since 2012 he has supervised 13 PhD students, 8 post-doctoral research fellows and more than 150 MSc students. Since 2012 he heads the Biomedical Simulations Unit. Apart from teaching (Biofluid Mechanics; Cardiovascular Biomechanics; Bioreactors; Artificial Organs), research and administrative activities at the University, he has acted as an Editor for the following journals: Annals of Biomedical Engineering (since 2014, Associate Editor); Frontiers in Cardiovascular Medicine - Pediatric Cardiology (since 2017, Associate Editor); Journal of Biomechanics (since 2022, Associate Editor); Scietific Reports (since 2022). Since 2020 he is member of the Editorial Board of the peer-reviewed international journals "Computers in Biology and Medicine" and "Mathematics". He has served as a reviewer for 78 scientific journals from all continents and has reviewed over 300 manuscripts. He has served as a track/session chair/organizer in more than 15 international and national conferences. His research activities have concentrated on in vivo, in vitro, and in silico cardiovascular fluid mechanics, design of prostheses and artificial organs, transport phenomena, multiscale modelling from the atomistic scale to the continuum, design and fabrication of dynamic culture devices (bioreactors) for tissue engineering and regenerative medicine applications. In 2018, he was awarded with the Jack Perkins Prize by the Institute for Physics and Engineering in Medicine (IPEM). He is author of more than 4000 publications, 170 of them in peer-reviewed international journals.
Curriculum
Scientific branch
(Area 0009 - Industrial and information engineering)
Skills
ERC sectors
Awards and Honors
- ESB Travel Award conferred by ESB (European Society of Biomechanics), United kingdom (2012)
- TERMIS Travel Award conferred by Tissue Engineering & Regenerative Medicine International Society, United States (2012)
- ASME Swiss Section Young Engineer Award conferred by ASME Swiss Section, Svizzera (2013)
- Jack Perkins Prize conferred by Institute of Physics and Engineering in Medicine, United kingdom (2018)
Editorial boards
- JOURNAL OF BIOMECHANICS (2022-), Associate Editor of magazine or editorial series
- SCIENTIFIC REPORTS (2022-), Editor of magazine, editorial series, encyclopaedia
- MATHEMATICS (2021-), Editorial board member
- COMPUTERS IN BIOLOGY AND MEDICINE (2021-), Editorial board member
- FRONTIERS IN CARDIOVASCULAR MEDICINE (2018-), Associate Editor of magazine or editorial series
- ANNALS OF BIOMEDICAL ENGINEERING (2013-), Associate Editor of magazine or editorial series
Non-commercial collaboration agreements
- Accordo tra Poltiecnico di Torino e Istituto Superiore di Sanità nel settore connesso alla biomeccanica del sistema cardiovascolare e della riabilitazione, (periodo sconosciuto) - Responsabile Scientifico
Non-commercial collaboration agreements with public institutions
Teaching
Collegi of the PhD programmes
- BIOINGEGNERIA E SCIENZE MEDICO-CHIRURGICHE, 2022/2023 (39. ciclo)
Politecnico di TORINO - MEDICINA DI PRECISIONE, 2022/2023 (39. ciclo)
Università degli Studi di PALERMO - BIOINGEGNERIA E SCIENZE MEDICO-CHIRURGICHE, 2021/2022 (38. ciclo)
Politecnico di TORINO - BIOINGEGNERIA E SCIENZE MEDICO-CHIRURGICHE, 2020/2021 (37. ciclo)
Politecnico di TORINO - BIOINGEGNERIA E SCIENZE MEDICO-CHIRURGICHE, 2019/2020 (36. ciclo)
Politecnico di TORINO - BIOINGEGNERIA E SCIENZE MEDICO-CHIRURGICHE, 2018/2019 (35. ciclo)
Università degli Studi di TORINO - BIOINGEGNERIA E SCIENZE MEDICO-CHIRURGICHE, 2017/2018 (34. ciclo)
Università degli Studi di TORINO - BIOINGEGNERIA E SCIENZE MEDICO-CHIRURGICHE, 2016/2017 (33. ciclo)
Università degli Studi di TORINO - BIOINGEGNERIA E SCIENZE MEDICO-CHIRURGICHE, 2015/2016 (32. ciclo)
Politecnico di TORINO - BIOINGEGNERIA E SCIENZE MEDICO-CHIRURGICHE, 2014/2015 (31. ciclo)
Politecnico di TORINO - BIOINGEGNERIA E SCIENZE MEDICO-CHIRURGICHE, 2013/2014 (30. ciclo)
Politecnico di TORINO
Collegi of the degree programmes
- Collegio di Ingegneria Biomedica. Componente
Teachings
PhD
- Biomeccanica dei fluidi e processamento di bioimmagini come ausilio per la diagnostica, il processo decisionale e la definizione di strategie chirurgiche cardiovascolari. A.A. 2022/23, BIOINGEGNERIA E SCIENZE MEDICO-CHIRURGICHE. Teaching assistant
- Biomeccanica dei fluidi e processamento di bioimmagini come ausilio per la diagnostica, il processo decisionale e la definizione di strategie chirurgiche cardiovascolari. A.A. 2020/21, BIOINGEGNERIA E SCIENZE MEDICO-CHIRURGICHE. Teaching assistant
- Biomeccanica dei fluidi e processamento di bioimmagini come ausilio per la diagnostica, il processo decisionale e la definizione di strategie chirurgiche cardiovascolari. A.A. 2018/19, BIOINGEGNERIA E SCIENZE MEDICO-CHIRURGICHE. Main teacher
Master of Science
- Innovations in cardiovascular and respiratory engineering. A.A. 2023/24, INGEGNERIA BIOMEDICA. Titolare del corso
- Biomeccanica dei solidi/Biomeccanica dei fluidi (modulo di Biomeccanica dei fluidi). A.A. 2023/24, INGEGNERIA BIOMEDICA. Collaboratore del corso
- Biomeccanica dei solidi/Biomeccanica dei fluidi (modulo di Biomeccanica dei fluidi). A.A. 2023/24, INGEGNERIA BIOMEDICA. Titolare del corso
- Biomeccanica e biodinamica sperimentale/Biomeccanica del sistema cardiovascolare (modulo di Biomeccanica del sistema cardiovascolare). A.A. 2023/24, INGEGNERIA BIOMEDICA. Collaboratore del corso
- Biomeccanica e biodinamica sperimentale/Biomeccanica del sistema cardiovascolare (modulo di Biomeccanica del sistema cardiovascolare). A.A. 2023/24, INGEGNERIA BIOMEDICA. Titolare del corso
- Biomeccanica dei solidi/Biomeccanica dei fluidi (modulo di Biomeccanica dei fluidi). A.A. 2022/23, INGEGNERIA BIOMEDICA. Collaboratore del corso
- Biomeccanica dei solidi/Biomeccanica dei fluidi (modulo di Biomeccanica dei fluidi). A.A. 2022/23, INGEGNERIA BIOMEDICA. Titolare del corso
- Biomeccanica e biodinamica sperimentale/Biomeccanica del sistema cardiovascolare (modulo di Biomeccanica del sistema cardiovascolare). A.A. 2022/23, INGEGNERIA BIOMEDICA. Collaboratore del corso
- Biomeccanica e biodinamica sperimentale/Biomeccanica del sistema cardiovascolare (modulo di Biomeccanica del sistema cardiovascolare). A.A. 2022/23, INGEGNERIA BIOMEDICA. Titolare del corso
- Progettazione di protesi e organi artificiali. A.A. 2021/22, INGEGNERIA BIOMEDICA. Collaboratore del corso
- Biomeccanica dei solidi/Biomeccanica dei fluidi (modulo di Biomeccanica dei fluidi). A.A. 2021/22, INGEGNERIA BIOMEDICA. Collaboratore del corso
- Biomeccanica dei solidi/Biomeccanica dei fluidi (modulo di Biomeccanica dei fluidi). A.A. 2021/22, INGEGNERIA BIOMEDICA. Titolare del corso
- Biomeccanica e biodinamica sperimentale/Biomeccanica del sistema cardiovascolare (modulo di Biomeccanica del sistema cardiovascolare). A.A. 2021/22, INGEGNERIA BIOMEDICA. Titolare del corso
- Biomeccanica del sistema cardiovascolare. A.A. 2020/21, INGEGNERIA BIOMEDICA. Titolare del corso
- Progettazione di protesi e organi artificiali. A.A. 2020/21, INGEGNERIA BIOMEDICA. Collaboratore del corso
- Biomeccanica dei solidi/Biomeccanica dei fluidi (modulo di Biomeccanica dei fluidi). A.A. 2020/21, INGEGNERIA BIOMEDICA. Collaboratore del corso
- Biomeccanica dei solidi/Biomeccanica dei fluidi (modulo di Biomeccanica dei fluidi). A.A. 2020/21, INGEGNERIA BIOMEDICA. Titolare del corso
- Progettazione di protesi e organi artificiali. A.A. 2019/20, INGEGNERIA BIOMEDICA. Collaboratore del corso
- Biomeccanica dei solidi/Biomeccanica dei fluidi (modulo di Biomeccanica dei fluidi). A.A. 2019/20, INGEGNERIA BIOMEDICA. Collaboratore del corso
- Biomeccanica dei solidi/Biomeccanica dei fluidi (modulo di Biomeccanica dei fluidi). A.A. 2019/20, INGEGNERIA BIOMEDICA. Titolare del corso
- Biomeccanica e biodinamica sperimentale/Biomeccanica del sistema cardiovascolare (modulo di Biomeccanica del sistema cardiovascolare). A.A. 2019/20, INGEGNERIA BIOMEDICA. Titolare del corso
- Progettazione di protesi e organi artificiali. A.A. 2018/19, INGEGNERIA BIOMEDICA. Collaboratore del corso
- Biomeccanica dei solidi/Biomeccanica dei fluidi (modulo di Biomeccanica dei fluidi). A.A. 2018/19, INGEGNERIA BIOMEDICA. Collaboratore del corso
- Biomeccanica dei solidi/Biomeccanica dei fluidi (modulo di Biomeccanica dei fluidi). A.A. 2018/19, INGEGNERIA BIOMEDICA. Titolare del corso
- Biomeccanica e biodinamica sperimentale/Biomeccanica del sistema cardiovascolare (modulo di Biomeccanica del sistema cardiovascolare). A.A. 2018/19, INGEGNERIA BIOMEDICA. Titolare del corso
Bachelor of Science
- Medicina digitale - Intraprendenti. A.A. 2022/23, INGEGNERIA AEROSPAZIALE. Collaboratore del corso
Research
Research groups
Research projects
Projects funded by competitive calls
- 22q11DS - Role of 22q11.2 deletion syndrome (22q11DS) haploinsufficency in driving cardiac extracellular matrix changes and mechanical sequelae using a Tbx1 mutant mice model: mechanistic insight and detection of potential therapeutic targets, (2023-2025) - Responsabile Scientifico
PNRR – Mission 4 - nd - Supporto Tecnico-Scientifico alla Valutazione di Dispositivi Medici Impiantabili e Invasivi oggetto di indagine clinica, (2022-2024) - Responsabile Scientifico
National Research - DIVOC - Dispositivo per la ventilazione non invasiva a basso consumo di ossigeno in assenza di contaminazione ambientale, (2021-2023) - Componente gruppo di Ricerca
Regionally funded research - DIVOC - Kit di supporto alla respirazione - DIVOC, (2021-2022) - Componente gruppo di Ricerca
Corporate-funded and donor-funded research - NITILIERA - Nitiliera - Creazione nuova filiera Nitinol, (2021-2023) - Componente gruppo di Ricerca
Regionally funded research - Piattaforme Tecnologiche - CECOMES - CEntro di studi sperimentali e COmputazionali per la ModElliStica applicata alla chirurgia, (2021-2023) - Responsabile Scientifico
National Research - AGORAs - AGeing effects on human aORta: from shApe to flowS, (2016-2016) - Responsabile Scientifico
UE-funded research - H2020 - Excellent Science - Marie Curie - BIOPROCESSO PER L'OTTIMIZZAZIONE DI COSTRUTTI 3D CON CARDIOSFERE PER LA MEDICINA RIGENERATIVA CARDIACA, (2014-2017) - Responsabile Scientifico
Nationally funded research - PRIN
Projects funded by commercial contracts
- Analisi quantitativa delle prestazioni di protesi valvolari mitraliche impiantabiliper via trans-catetere - Progetto Indications - NODES - , (2024-2024) - Responsabile Scientifico
Commercial contracts for the provision of services - Caratterizzazione meccanica di dispositivi medici per traumatologia ortopedica in materiale Nitinol nell’ambito del Progetto “NITILIERA” - finanziato a valere sul Bando P.O.R. FESR 2014/2020 – Azione I.1b.2.2 Bando Pi.Te.F. – Piattaforma tecnologica, (2023-2023) - Responsabile Scientifico
Commercial contracts for the provision of services - Ottimizzazione di un dispositivo per coltura cellulare di tipo dinamico ..., (2015-2015) - Responsabile Scientifico
Commercial Research
Supervised PhD students
- Karim Kassem. Programme in Bioingegneria E Scienze Medico-chirurgiche (39th cycle, 2023-in progress)
- Mariachiara Arminio. Programme in Bioingegneria E Scienze Medico-chirurgiche (38th cycle, 2022-in progress)
Research subject: Cardiovascular engineering tools, with a focus on novel in silico approaches
Cardiovascular Engineering Cardiovascular Engineering Cardiovascular Engineering - Bianca Griffo. Programme in Bioingegneria E Scienze Medico-chirurgiche (38th cycle, 2022-in progress)
Research subject: Enhancing fluid dynamics with machine learning
Cardiovascular Engineering Cardiovascular Engineering - Maurizio Pesce. Programme in Bioingegneria E Scienze Medico-chirurgiche (38th cycle, 2022-in progress)
- Pablo Romero Diaz. Programme in Bioingegneria E Scienze Medico-chirurgiche (38th cycle, 2022-in progress)
Research subject: Developing the software architecture of the decision-tool platform to predict NDTrj.
Computer Science Medical Innovation and Technology ICT and smart sensors for eHealth Biomedical signal and image processing Computer Science Medical Innovation and Technology ICT and smart sensors for eHealth Biomedical signal and image processing Computer Science Medical Innovation and Technology ICT and smart sensors for eHealth Biomedical signal and image processing - Syed Adil Hussain Shah. Programme in Bioingegneria E Scienze Medico-chirurgiche (38th cycle, 2022-in progress)
Research subject: IoT Innovations for Early Diagnosis of Newborn Motor/Cognitive Impairments
Computer Science Medical Innovation and Technology ICT and smart sensors for eHealth Biomedical signal and image processing Computer Science Medical Innovation and Technology ICT and smart sensors for eHealth Biomedical signal and image processing - Alessandro Candreva. Programme in Bioingegneria E Scienze Medico-chirurgiche (37th cycle, 2021-in progress)
- Margherita De Luca. Programme in Bioingegneria E Scienze Medico-chirurgiche (37th cycle, 2022-in progress)
Research subject: Characterisation of innovative noninvasive closed-loop ventilation circuit for CPAP therapy delivery
Medical Innovation and Technology Medical Innovation and Technology - Syed Taimoor Hussain Shah. Programme in Bioingegneria E Scienze Medico-chirurgiche (37th cycle, 2021-in progress)
Research subject: Explainable machine learning aided computer vision targeting pathology dynamics
Computer Science Medical Innovation and Technology Biomedical signal and image processing Computer Science Medical Innovation and Technology Biomedical signal and image processing - Sara Zambon. Programme in Bioingegneria E Scienze Medico-chirurgiche (37th cycle, 2021-in progress)
Research subject: Tools for cardiovascular in silico medicine
Cardiovascular Engineering Cardiovascular Engineering Cardiovascular Engineering - Marcello Miceli. Programme in Bioingegneria E Scienze Medico-chirurgiche (36th cycle, 2020-in progress)
Thesis: Insights Into the Molecular Mechanisms Driving Rare Neurodegenerative Diseases and Therapeutic Strategies Aided By In Silico Modelling
Multiscale Modelling Methods in Biomechanics Multiscale Modelling Methods in Biomechanics - Michela Sperti. Programme in Bioingegneria E Scienze Medico-chirurgiche (36th cycle, 2020-in progress)
Thesis: Predicting Personalized Pathological Risks and Dynamics in Cardiology - How to Exploit Data-Driven Approaches in Clinical Decision Support Systems
Computer Science Medical Innovation and Technology Multiscale Modelling Methods in Biomechanics Physiological mathematical modelling Biomedical signal and image processing Computer Science Medical Innovation and Technology Multiscale Modelling Methods in Biomechanics Physiological mathematical modelling Biomedical signal and image processing Computer Science Medical Innovation and Technology Multiscale Modelling Methods in Biomechanics Physiological mathematical modelling Biomedical signal and image processing - Elena Torta. Programme in Bioingegneria E Scienze Medico-chirurgiche (36th cycle, 2020-in progress)
Publications
Latest publications View all publications in Porto@Iris
- Kassem, Karim; Sperti, Michela; Cavallo, Andrea; Vergani, Andrea Mario; Fassino, Davide; ... (2024)
An innovative artificial intelligence-based method to compress complex models into explainable, model-agnostic and reduced decision support systems with application to healthcare (NEAR). In: ARTIFICIAL INTELLIGENCE IN MEDICINE, vol. 151. ISSN 0933-3657
Contributo su Rivista - Gabetti, Stefano; Masante, Beatrice; Schiavi, Alessandro; Scatena, Elisa; Zenobi, ... (2024)
Adaptable test bench for ASTM-compliant permeability measurement of porous scaffolds for tissue engineering. In: SCIENTIFIC REPORTS, vol. 14. ISSN 2045-2322
Contributo su Rivista - De Nisco, Giuseppe; Lodi Rizzini, Maurizio; Verardi, Roberto; Chiastra, Claudio; ... (2023)
Modelling blood flow in coronary arteries: Newtonian or shear-thinning non-Newtonian rheology?. In: COMPUTER METHODS AND PROGRAMS IN BIOMEDICINE, vol. 242. ISSN 0169-2607
Contributo su Rivista - DE NISCO, Giuseppe; Hartman, Eline M.; Mazzi, Valentina; Gallo, Diego; Chiastra, ... (2023)
Wall shear stress topological skeleton variability predicts plaque growth in human coronary arteries. In: European Symposium on Vascular Biomaterials (ESVB) 2023, Strasbourg, France, 19-22 April 2023
Contributo in Atti di Convegno (Proceeding) - Carbonaro, Dario; Mezzadri, Francesco; Ferro, Nicola; DE NISCO, Giuseppe; Audenino, ... (2023)
Design of innovative self-expandable femoral stents using inverse homogenization topology optimization. In: COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING. ISSN 0045-7825
Contributo su Rivista - Calo, Karol; Capellini, Katia; DE NISCO, Giuseppe; Mazzi, Valentina; Gasparotti, ... (2023)
Modelling aortic flows: impact of wall displacements on large-scale hemodynamic coherence in ascending aorta. In: 28th Congress of the European Society of Biomechanics, Maastricht (NL), July 9-12, 2023, pp. 136-136
Contributo in Atti di Convegno (Proceeding) - Calo, Karol; Capellini, Katia; DE NISCO, Giuseppe; Gallo, Diego; Celi, Simona; ... (2022)
Investigating the impact of wall distensibility on aortic flow using a network-based approach. In: ESB-ITA 2022 XI Annual Meeting, Massa (IT), October 6-7, 2022, pp. 18-18
Contributo in Atti di Convegno (Proceeding) - Calo, Karol; Guala, Andrea; Gallo, Diego; Rodriguez Palomares, Jose; Scarsoglio, ... (2022)
4D flow MRI & network-based analysis of the hemodynamic correlation persistence length in the healthy aorta. In: 27th Congress of the European Society of Biomechanics, Porto (PT), June 26-29, 2022
Contributo in Atti di Convegno (Proceeding) - Calo, Karol; Guala, Andrea; Gallo, Diego; Rodriguez Palomares, Jose; Scarsoglio, ... (2022)
4D flow MRI study of large-scale hemodynamics correlation persistence in the healthy human aorta using network science. In: Summer Biomechanics, Bioengineering and Biotransport Conference 2022, Eastern Shore, Maryland (USA), June 20-23, 2022, pp. 466-467. ISBN: 978-1-7351808-4-7
Contributo in Atti di Convegno (Proceeding) - DE NISCO, Giuseppe; Hartman, Eline M.; Mazzi, Valentina; Gallo, Diego; Chiastra, ... (2022)
The variability of wall shear stress topological skeleton predicts plaque growth in human coronary arteries. In: The 17th international symposium on Biomechanics in Vascular Biology and Cardiovascular Disease, Rotterdam, The Nederlands, April 2022
Contributo in Atti di Convegno (Proceeding) - Calo, Karol; Gallo, Diego; Guala, Andrea; Scarsoglio, Stefania; Steinman, David A.; ... (2022)
Arterial flows as social networks: a novel approach to disentangle hemodynamic complexity. In: Virtual Physiological Human Conference 2022, Porto (PT), September 6-9, 2022
Contributo in Atti di Convegno (Proceeding) - Miceli, Marcello; Muscat, Stefano; Morbiducci, Umberto; Cavaglia', Marco; Deriu, MARCO ... (2021)
ULTRASOUND DRIVEN AMYLOID FIBRIL UNFOLDING INVESTIGATED BY MOLECULAR MODELLING. In: 26th Congress of the European Society of Biomechanics, Milan (IT), July 11-14, 2021, pp. 206-206
Contributo in Atti di Convegno (Proceeding) - Calo', Karol; Guala, Andrea; Gallo, Diego; Rodriguez-Palomares, Jose; Scarsoglio, ... (2021)
In vivo aortic hemodynamics analysis combining Complex Networks theory and 4D flow MRI. In: 26th Congress of the European Society of Biomechanics, Virtual meeting, July 11-14, 2021, pp. 16-16
Contributo in Atti di Convegno (Proceeding) - Calo', Karol; Guala, Andrea; Gallo, Diego; Rodriguez-Palomares, Jose; Scarsoglio, ... (2021)
In vivo analysis of aortic hemodynamics by combining 4D flow MRI and Complex Networks theory. In: Summer Biomechanics, Bioengineering and Biotransport Conference 2021, Virtual meeting, June 14-18, 2021, pp. 211-212. ISBN: 978-1-7351808-2-3
Contributo in Atti di Convegno (Proceeding) - Calo', Karol; DE NISCO, Giuseppe; Gallo, Diego; Chiastra, Claudio; Mazzi, Valentina; ... (2020)
Unveiling wall shear stress spatiotemporal heterogeneity in coronary arteries. In: Summer Biomechanics, Bioengineering and Biotransport Conference 2020, Virtual Meeting, June 17-20, 2020, pp. 242-243. ISBN: 9781735180816
Contributo in Atti di Convegno (Proceeding)
Society and Enterprise
Patents and other intellectual properties
- MEANS AND METHODS FOR SELECTING PATIENTS FOR IMPROVED PERCUTANEOUS CORONARY INTERVENTIONS. international Patent
Inventors: Claudio Chiastra Diego Gallo Maurizio Lodi Rizzini Umberto Morbiducci - MODELLAZIONE DI TEST RADIALE PER VALVOLE TRANSCATETERE.
Inventors: Alberto Audenino Dario Carbonaro Claudio Chiastra Diego Gallo Umberto Morbiducci - DIVOC (REVERSE COVID) - DEVICE FOR NON-INVASIVE VENTILATION WITH LOW OXYGEN CONSUMPTION IN ABSENCE OF ENVIRONMENTAL CONTAMINATION. national and international Patent
Inventors: Alberto Audenino Marco Cavaglia' Alexander Ivanov Umberto Morbiducci Terenziano Raparelli - Sistema di generazione di microgravità privo di componenti rotanti in bireattori (biovortex). national and international Patent
Inventors: Diego Gallo Diana Nada Caterina Massai Umberto Morbiducci - Condotto di mescolamento con curvatura variabile in modo continuo (clotoide). national Patent
Inventors: Umberto Morbiducci