Organization:Microgravity Centre

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Microgravity Centre, PUCRS

The Microgravity Centre (Centro de Microgravidade), colloquially known as the "MicroG",[1] at PUCRS university, Porto Alegre, Brazil, was initially created as a laboratory in 1999[2] by Professor Thais Russomano MD MSc PhD, as the first[not verified in body] academic and research establishment dedicated to Space Life Sciences in Latin America. It evolved into a fully multidisciplinary centre in 2006, expanding its areas of research beyond aerospace medicine and engineering, to include pharmaceuticals, biomechanics and physiotherapy, among others.

The MicroG is now an internationally recognised[according to whom?] and leading research centre in diverse fields of knowledge, producing numerous relevant studies. Professor Russomano remained as Coordinator of the research centre until July 2017.[3]

Structure

The centre is a multi-disciplinary unit that brings together researchers, professors and students from many different faculties within PUCRS, including medicine, engineering, aeronautical sciences, pharmacy, biosciences, physics, informatics, sports science, odontology, physiotherapy, nursing and nutrition.

The centre comprises eight research laboratories:[citation needed]

  • John Ernsting Aerospace Physiology Lab[4]
  • Joan Vernikos Aerospace Pharmacy Lab
  • Aerospace Engineering Lab
  • Aerospace Biomechanics Lab
  • Aerospace Physiotherapy Lab
  • Aviation Research Lab
  • eHealth Lab
  • Imaging Lab

Projects

Each laboratory conceives and develops its own research projects in each field of interest. While most of the studies are coordinated and executed by biomedical researchers, the experimental equipment development and assembly falls to the Aerospace Engineering Lab, located within the School of Engineering. Commonplace activities include training Aeronautical Sciences students in aviation medicine, studies to understand how the human body reacts and works in Low-G or Zero-G environments, and engineering and construction of devices and tools to study and improve human activity in space. Some examples of the work of the MicroG include; lower body negative pressure (LBNP) box; lower body positive pressure (LBPP) box; Bárány chair; body suspension device for microgravity and hypogravity simulations; tilt-table for microgravity simulation; small centrifuge to study the effects of hypergravity on plants; small hypobaric chamber; portable dark chambers; pressure measurement system for use during the Valsalva Manoeuvre and the Earlobe Arterial Blood Collector (EABC).[5]

Studies have been conducted in space life sciences, including researches related to:[citation needed]

  • The effects of microgravity, hypogravity and hypergravity simulations on human physiology
  • Analysis of plant germination and growth during hypergravity exposures
  • Evaluation of new cardiopulmonary resuscitation techniques in aerospace environments (Evetts-Russomano method)[6]
  • Study of spatial disorientation and space motion sickness
  • Physiological responses to exposure to lower body negative pressure protocols
  • The effects of pressure changes on medication (in-flight medicines)
  • Evaluation of medication, enzymes and plants during microgravity simulation inside a 3D clinostat
  • Human factors in aviation
  • Psychological performance during microgravity simulation
  • Effects of medication on physical and mental performance during physiological studies using ground-based simulations
  • Evaluation of the human walk pattern in reduced gravitational force simulations
  • Establishment of Telemedicine and eHealth projects in telesurgery, teledermatology, telecardiology, teleeducation, teleodontology, teleradiology and telepathology
  • Telemedicine and assistance to remote Indian communities, including Amazon missions in 2007 & 2008

Publications

Professors, researchers, and students of the Microgravity Centre have produced over 200 academic papers,[7] published in many leading field-specific journals, chapters in books, and full books.[8][9][10]

National & international partnerships

The MicroG has collaborated with several national and international partners around the world, exchanging research, teaching, students and professors. Current and former partners include:[citation needed]

References

  1. "Archived copy". http://www.pucrs.br/feng/microg/en/index.htm. 
  2. "The Brazilian Research and Teaching Center in Biomedicine and Aerospace Biomedical Engineering, Abstract". Hippokratia. http://www.hippokratia.gr/index.php/hippo/article/view/640. Retrieved 2009-11-21. 
  3. "King's College London - Thais Russomano" (in en-GB). https://www.kcl.ac.uk/lsm/research/divisions/chaps/research/Aerospace-Extreme-Environment/Thais-Russomano.aspx. 
  4. "King's College London signs agreement to strengthen Brazilian research links". http://www.eurekalert.org/pub_releases/2009-09/kcl-kcl091609.php. 
  5. "Scientists develop an astronaut-friendly technique to test lung function" (in en). 29 July 2014. https://newatlas.com/lung-capacity-astronaut-iss-kcl-nasa/33152/. 
  6. Evetts, Simon N.; Evetts, Lisa M.; Russomano, Thais; Castro, João C.; Ernsting, John (1 May 2005). "Basic Life Support in Microgravity: Evaluation of a Novel Method During Parabolic Flight". Aviation, Space, and Environmental Medicine 76 (5): 506–510. PMID 15892553. https://www.ingentaconnect.com/content/asma/asem/2005/00000076/00000005/art00016. 
  7. "Archived copy". http://www.pucrs.br/feng/microg/en/index.htm. 
  8. Wickramasinghe, Nilmini (2008-06-30). Encyclopedia of Healthcare Information Systems. IGI Global. ISBN 978-1-59904-890-1. https://books.google.com/books?id=kBVluhsHhOsC&pg=PT597. 
  9. Russomano, Thais (2008). "The Effects of Hypergravity and Microgravity on Biomedical Experiments". Synthesis Lectures on Biomedical Engineering 3: 1–68. doi:10.2200/S00105ED1V01Y200801BME018. 
  10. http://www.thaisrussomano.com/books.html

External links