The research group of Prof.

Waskow's analysis group who processed the project, used gene transfer technology to specifically shorten the transit period through the early G1 phase of the cell cycle of individual hematopoietic stem cells. As a result of the shortened G1 cell cycle phase transition, blood stem cells were better maintained after tension induction in vitro. Nevertheless, most importantly, after transplantation right into a very ideal mouse model that was previously generated by the same laboratory, the team from Dresden could display that the function of the treated stem cells was also considerably improved in the living organism. Interestingly, a similar manipulation of the cell routine, which however affects a later time in the G1 phase, shows precisely opposite results and a fast loss of the stem cell function.It's the same idea but on a physiological basis rather than monetary one.’ The researchers studied every week injury reports for 101 student sportsmen on a Division 1 college football team during a 20-week time of year. Sixty different sportsmen experienced 86 injury restrictions through the season. The researchers found players were 3.19 times more likely to have an damage restriction during weeks if they had high educational stress, such as for example finals or midterms, than during weeks when they had low academic stress. When the researchers compared players' injury restrictions for weeks of high physical tension – such as training camp – and weeks of low academic stress, sports athletes had been 2.84 times more likely to possess injury restrictions.