0 grams/day. Data are presented as change from baseline (Δ from BL) on y-axis; Visit 2 DMXAA is pre intervention (prior to MSM supplementation), Visit 3 is post intervention (following MSM supplementation); Visit 1 included the screening visit. Note: There was a statistically significant increase in TEAC immediately post-exercise at Visit 3 (post intervention) for the 3.0 grams/day group (p=0.035). TEAC: Trolox Equivalent Antioxidant Capacity. Discussion Findings from the present investigation indicate that MSM supplementation

in healthy, moderately exercise-trained men may favorably influence selected markers of exercise recovery. This effect appeared to be greater with a daily dosage of 3.0 grams of MSM than a daily dosage of 1.5 grams. Although this study included a very small sample of subjects, which makes it difficult to confidently discuss the overall meaning of our findings, our data provide initial evidence that MSM may have efficacy in regards to influencing certain markers of exercise recovery. Further studies are needed, inclusive of a larger sample size (~15-20 subjects per group, if not larger), a placebo control group, and additional markers of exercise recovery and performance. In such future studies, analysis of blood Selleckchem Trichostatin A MSM concentrations pre and post intervention,

as opposed to simple capsule counts as done in the present design, would prove valuable as an indication of supplement compliance (as well as to provide information related to supplement absorption, etc.).

This is the first trial to note an impact of MSM on blood TEAC, suggesting increased antioxidant activity. This marker, like other “global” markers of antioxidant status (e.g., ORAC, FRAP, TRAP) provides a general measure of the sum total of antioxidants within blood and other tissues [19]. While the observed increase in TEAC may indeed have relevance, future studies focused on MSM should ideally include additional markers of antioxidant activity, as well as markers of oxidative stress. While TEAC was noted to be higher post-exercise with MSM, we did not observe the same finding for blood glutathione, which appeared unaffected by exercise or EPZ004777 supplementation with MSM. Our results for glutathione oppose those of DiSilvestro et al. who noted an increase of 78% in liver glutathione when studying male mice ingesting MSM in drinking water for 5 weeks [9]. The present study, however, was quite Amrubicin different in design. For example, it involved human intake of MSM, glutathione measured in whole blood, and the inclusion of a physical stressor (i.e., 18 sets of knee extension exercise). These differences may be responsible for the discrepancies in findings. As we believe that TEAC does in fact represent an increase in antioxidant defense (independent of glutathione), it is possible that this increase may have attenuated the commonly observed rise in ROS during and following exercise [20], resulting in attenuation of exercise-induced oxidative stress.