Applications are invited for the Post of Post-Doctoral Research Fellow/Jr Research Fellow/Sr Research Fellow/Research Associate for a Project sponsored by the Indo- German Science and Technology Centre under the Department of Science and Technology, Ministry of Science and Technology, Government of India (IGSTC/Call 2014/decision/2015 dated 1 st July 2015)
Title of the Project: “Next-generation dynamic Scheimpflug imaging and biomechanical analytics for in vivo quantification of corneal viscoelasticity (SIBAC)”
Qualification: B.Tech., M.Tech or Ph.D in Mechanical Engineering, Biomedical Engineering or any related field (preferably CSIR NET/GATE qualified for M.Tech)
Number of Position: One
Principal Investigator: Dr.Abhijit Sinha Roy, Division of Imaging, Biomechanics and Mathematical Modeling, Narayana Nethralaya Foundation, Bengaluru – 560 100, KA.
This is a preview of Research Fellow Job in Biomedical Engineering at Narayana Nethralaya. Read the full post (230 words, estimated 55 secs reading time)
Chicago: Injecting stem cells into injured mice made their muscles grow back twice as big in a matter of days, creating mighty mice with bulky muscles that stayed big and strong for the rest of their lives, U.S. researchers said on Wednesday.
If the same applies to humans, the findings could lead to new treatments for diseases that cause muscles to deteriorate, such as muscular dystrophy. It may even help people resist the gradual erosion of muscle strength that comes with age, Bradley Olwin, of the University of Colorado at Boulder, and colleagues reported in the journal Science Translational Medicine.
“This was a very exciting and unexpected result,” Olwin, who worked on the study, said.“We found that the transplanted stem cells are permanently altered and reduce the aging of the transplanted muscle, maintaining strength and mass,” he added.
Olwin’s team experimented on young mice with leg injuries, injecting them with muscle stem cells taken from young donor mice. Stem cells are unique in that they can constantly renew themselves, and form the basis of other specialized cells. These cells not only repaired the injury, but they caused the treated muscle to increase in size by 170%.
Olwin’s team had thought the changes would be temporary, but they lasted through the lifetime of the mice, which was about two years.
Olwin and colleagues said when they injected the cells into a healthy leg, they did not get the same effect, suggesting there is something important about injecting the cells into an injured muscle that triggers growth. REUTERS