News Release

Cost-effective, easily manufactured ventilators for COVID-19 patients

The Mechanical Ventilator Milano design helps overcome the ventilator shortage, aids with the respiratory effects of the pandemic.

Peer-Reviewed Publication

American Institute of Physics

Mechanical Ventilator Milano

image: The Mechanical Ventilator Milano, developed by an international, interdisciplinary team, is inexpensive and simple to manufacture, and has received authorization from U.S. and Canadian agencies. view more 

Credit: MVM Collaboration

WASHINGTON, March 23, 2021 -- Scientists have been working for the past year to find ways to curb the effects of the COVID-19 pandemic. Though it is outside their typical realm of study, physicists have been playing an important role in many aspects of research about the pandemic and its impact on people.

Particle physicists' keen understanding of gas handling systems positioned them at the forefront for pioneering low-cost, mass-producible ventilators to help address the worldwide shortage. Led by Cristian Galbiati, professor of physics at Princeton University and the Gran Sasso Science Institute, an international, interdisciplinary team called the Mechanical Ventilator Milano (MVM) collaboration spearheaded one effort and presents the design in the journal Physics of Fluids, from AIP Publishing.

The project began in March 2020, shortly after Italy went into lockdown. Only one week later, the MVM collaboration had a working prototype.

The ventilator consists of a gas inlet valve and a gas outlet valve, along with a series of controls and alarms to ensure proper monitoring and customizability from patient to patient. The design is built from readily available parts and is presented under an open license, allowing developing countries to quickly and easily manufacture their own units.

"The idea behind the design was to have a system as simple as possible -- delivery of air through a single valve, exhaust of air through a single valve," said Galbiati.

Because the MVM is developed specifically for COVID-19 patients, it has reduced functionality compared to typical ventilators. This simpler design cuts the cost of production up to fivefold to under $10,000 per unit.

"This pandemic comes upon us, and you feel somewhat helpless as someone who isn't a medical physicist," said physics Nobel laureate Arthur McDonald, at Queen's University and a co-author on the paper. "Our collaboration of particle physicists, engineers, and software specialists from national labs, academia, and industry have applied their existing talents to create a new, accessible design and to provide a new manufacturing capability internationally to address the most serious cases during the pandemic."

"For a scientist committed to fundamental research, such as the search for the dark matter of the universe, it is extremely important to devote time and experience to build devices that can help to improve people's health," said Walter Bonivento, a senior scientist at INFN Cagliari and co-author on the paper.

The MVM has already received emergency use authorization from the U.S. Food and Drug Administration and received Health Canada Medical Device Directorate authorization. About 6,000 units have been delivered to date under a contract from the Canadian government for its stockpile, with the potential for more, if requested. Donations from Canada to developing countries in need have also been considered from the beginning of the contract award.


More information about the project can be found on the MVM Collaboration website.

The article "The novel Mechanical Ventilator Milano for the COVID-19 pandemic" is authored by A. Abba, C. Accorsi, P. Agnes, E. Alessi, P. Amaudruz, A. Annovi, F. Ardellier Desages, S. Back, C. Badia, J. Bagger, V. Basile, G. Batignani, A. Bayo, B. Bell, M. Beschi, D. Biagini, G. Bianchi, S. Bicelli, D. Bishop, T. Boccali, A. Bombarda, S. Bonfanti, W.M. Bonivento, M. Bouchard, M. Breviario, S. Brice, R. Brown, J.M. Calvo-Mozota, L. Camozzi, M. Camozzi, A. Capra, M. Caravati, M. Carlini, A. Ceccanti, B. Celano, J.M. Cela Ruiz, C. Charette, G. Cogliati, M. Constable, C. Crippa, G. Croci, S. Cudmore, C.E. Dahl, A. Dal Molin, M. Daley, C. Di Guardo, G. D'Avenio, O. Davignon, M. Del Tutto, J. De Ruiter, A. Devoto, P. Diaz Gomez Maqueo, F. Di Francesco, M. Dossi, E. Druszkiewicz, C. Duma, E. Elliott, D. Farina, C. Fernandes, F. Ferroni, G. Finocchiaro, G. Fiorillo, R. Ford, G. Foti, R.D. Fournier, D. Franco, K. Frickbergs, F. Gabriele, C. Galbiati, P. Garcia Abia, A. Gargantini, L. Giacomelli, F. Giacomini, F. Giacomini, L.S. Giarratana, S. Gillespie, D. Giorgi, T. Girma, R. Gobui, D. Goeldi, F. Golf, P. Gorel, G. Gorini, E. Gramellini, G. Grosso, F. Guescini, E. Guetre, G. Hackman, T. Hadden, W. Hawkins, K. Hayashi, A. Heavey, G. Hersak, N. Hessey, G. Hockin, K. Hudson, A. Ianni, C. Ienzi, V. Ippolito, C.C. James, C. Jillings, C. Kendziora, S. Khan, E. Kim, M. King, S. King, A. Kittmer, I. Kochanek, J. Kowalkowski, R. Krücken, M. Kushoro, S. Kuula, M. Laclaustra, G. Leblond, L. Lee, A. Lennarz, M. Leyton, X. Li, P. Liimatainen, C. Lim, T. Lindner, T. Lomonaco, P. Lu, R. Lubna, G.A. Lukhanin, G. Luzón, M. MacDonald, G. Magni, R. Maharaj, S. Manni, C. Mapelli, P. Margetak, L. Martin, S. Martin, M. Martínez, N. Massacret, P. McClurg, A.B. McDonald, E. Meazzi, R. Migalla, T. Mohayai, L. Molinari Tosatti, G. Monzani, C. Moretti, B. Morrison, M. Mountaniol, A. Muraro, P. Napoli, F. Nati, C. Natzke, A.J. Noble, A. Norrick, K. Olchanski, A. Ortiz de Solorzano, F. Padula, M. Pallavicini, I. Palumbo, E. Panontin, N. Papini, L. Parmeggiano, S. Parmeggiano, K. Patel, A. Patel, M. Paterno, C. Pellegrino, P. Pelliccione, V. Pesudo, A. Pocar, A. Pope, S. Pordes, F. Prelz, O. Putignano, J.L. Raaf, C. Ratti, M. Razeti, A. Razeto, D. Reed, J. Refsgaard, T. Reilly, A. Renshaw, F. Retriere, E. Riccobene, D. Rigamonti, A. Rizz, J. Rode, J. Romualdez, L. Russel, D. Sablone, S. Sala, D. Salomoni, P. Salvo, A. Sandoval, E. Sansoucy, R. Santorelli, C. Savarese, E. Scapparone, T. Schaubel, S. Scorza, M. Settimo, B. Shaw, S. Shawyer, A. Sher, A. Shi, P. Skensved, A. Slutsky, B. Smith, N.J.T. Smith, A. Stenzler, C. Straubel, P. Stringari, M. Suchenek, B. Sur, S. Tacchino, L. Takeuchi, M. Tardocchi, R. Tartaglia, E. Thomas, D. Trask, J. Tseng, L. Tseng, L. VanPagee, V. Vedia, B. Velghe, S. Viel, A. Visioli, L. Viviani, D. Vonica, M. Wada, D. Walter, H. Wang, M.H.L.S. Wang, S. Westerdale, D. Wood, D. Yates, S. Yue, and V. Zambrano. The article will appear in Physics of Fluids on March 23, 2021 (DOI: 10.1063/5.0044445).
After that date, it can be accessed at


Physics of Fluids is devoted to the publication of original theoretical, computational, and experimental contributions to the dynamics of gases, liquids, and complex fluids. See

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