San Clemente, CA (PRWEB) February 17, 2011
Top-ranked Masters runners, Frank Condon and Nolan Shaheed, have something in common besides holding the top outdoor Masters rankings in their respective age groups: they have both incorporated Stemtech’s stem cell nutrition supplements into their daily regimens, apparently with excellent results.
Said Condon, "After I started supplementing with the StemSport™ to support my adult stem cell function, I noticed dramatic improvements in my recovery time during training. I went on to shatter the 37 year-old U.S. Outdoor record in the M65 mile by ten seconds. I turned Nolan Shaheed onto Stemtech’s concept of stem cell nutrition and he has also experienced tremendous benefits with StemSport™. Salih Talib too."
The 2010 USA Masters rankings at mastersrankings.com ranked Condon as number one in the M65 age group for the 800m, 1500m and mile. Shaheed is ranked number one for the same distances in the M60 age group. Talib, competing in the same age group as Condon, is ranked second for 800m, fourth for 1500m and third for the mile.
About Stemtech International, Inc.
Founded in 2005, Stemtech International (http://www.stemtech.com/) is the pioneer of a new category of nutritional supplements, called “stem cell nutrition”. Its products are all clinically studied and patented or patent-pending, and harness the body’s own cellular self-renewal system by supporting the natural release, circulation and migration of adult stem cells. Stemtech’s wellness products are only available through its Independent Distributors and are not sold in stores.
About the products the runners are using
Stemtech’s StemSport™ concept may either be implemented by supplementing with StemSport™ chewable tablets (a combination of StemEnhance® and StemFlo® with added D-ribose), or by supplementing with StemEnhance and StemFlo capsules. StemEnhance is the world’s first all-natural supplement documented to support the natural release of adult stem cells from bone marrow, while StemFlo supports optimal blood circulation to help adult stems cells reach their destinations.