Apr 15 2011

From The Space Library

RELEASE: 11-099 NASA RELEASES STATUS ON OPEN GOVERNMENT INITIATIVES

WASHINGTON -- On the one year anniversary of NASA's Open Government Initiative, the agency is releasing a detailed assessment on the status of its projects to increase transparency and accountability to the American public. "We are creating new ways to engage the public in solutions to problems of interest to NASA and the nation and striving to incorporate open government into every facet of our mission," said Beth Robinson, NASA's chief financial officer and senior accountable official for Open Government. The report also includes new information about NASA's Freedom of Information Act process, released data sets, and social media use. "NASA continues to innovate on its approach to open government," said Nick Skytland of NASA's Open Government Initiative. "Our commitment to experimenting with and embracing new participatory ways of collaboration begins with our efforts to infuse open government into the U.S. space program." NASA's Open Government Plan has been recognized as one of the best in federal government. NASA was among a few agencies recognized with two Leading Practices Awards from the White House for achievement above and beyond the requirements of the Open Government Directive in the categories of "Participation and Collaboration" and "Flagship Initiatives." The White House issued the Open Government Directive calling on executive branch agencies to become more open and countable in December 2009.

RELEASE: 11-114 NASA DEVICE INDUCTED INTO SPACE TECHNOLOGY HALL OF FAME

HOUSTON --A rotating device developed by NASA inventors to grow better living tissue specimens was inducted into the Space Technology Hall of Fame Thursday, April 14. The Space Foundation honored the NASA team who created the device, which promises help for several diseases, during a ceremony at the 27th National Space Symposium in Colorado Springs, Colo. Developed in 1986 by a group of NASA engineers and researchers at the agency's Johnson Space Center in Houston, the device, known as the bioreactor, enables the growth of tissue, cancer tumors and virus cultures outside the body in space and on Earth. It has many advantages over typical laboratory methods. Lab-grown cell cultures tend to be small, flat and two-dimensional, unlike normal tissues in the body. However, tissues grown in the bioreactor are larger and three-dimensional, with structural and chemical characteristics similar to normal tissue. The bioreactor has no internal moving parts, which minimizes forces that might damage the delicate cell cultures. Three of the co-developers of the bioreactor also are being inducted in the Space Technology Hall of Fame: Dr. David Wolf, NASA astronaut, physician and electrical engineer; Tinh Trinh, senior mechanical engineer, Wyle Integrated Science and Engineering Group; and Ray Schwarz, chief engineer and co-founder of Synthecon Inc. The bioreactor has been used for experiments aboard the space shuttle, the Russian Mir space station and on Earth. Researchers across the United States use this technology to study cancer, stem cells, diabetes, cartilage and nerve growth, and infectious disease. Researchers at the National Institutes of Health used the methods to propagate the human immunodeficiency virus, or HIV, in artificial lymph node tissue. This research resulted in the ability to study the virus life cycle under controlled conditions outside of the human body. The bioreactor is a spinoff technology that entered the commercial world when Synthecon licensed it in 1993. Regenetech Inc. licensed 11 patents from Johnson in 2001 to produce three-dimensional tissues in the bioreactor. Regenetech, through a special NASA agreement, provides the technology to researchers pursuing rare disease treatments. In December, 2010, Emerging Healthcare Solutions Inc. acquired a sublicense from Regenetech to use the bioreactor. The bioreactor is manufactured for commercial sale by Synthecon. A closed tubular cylinder forms the bioreactor's cell culture chamber, which is filled with a liquid medium in which cells grow. The chamber rotates around a horizontal axis, allowing the cells to develop in an environment similar to the free fall of microgravity. Oxygen, required by cells for growth, is fed into the liquid medium through a porous wall in the chamber. The importance of this cell culture technique is that fluid mechanical conditions obtained in microgravity, and emulated on Earth, allow the growth of tissues in the laboratory that cannot be grown any other way. The 2011 Space Technology Hall of Fame organizational inductees are those that developed the technology and refined it for commercial use: NASA's Johnson Space Center, Regenetech Inc. and Synthecon Inc. All three are based in Houston.

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