Reducción de masa libre de grasa en nadadores después de un periodo de entrenamiento / Reduction of Fat-Free Mass in Swimmers after Training Period

En los deportistas la masa libre de grasa (MLG) es una característica física que se busca incrementar para aumentar el rendimiento deportivo. El objetivo de este estudio fue determinar si la reducción de la MLG, expresada como índice AKS, se asocia a alteraciones fisiológicas después de un periodo de entrenamiento en nadadores de 8 a 15 años de edad. Se estudiaron 42 nadadores, después de 15 semanas de entrenamiento se formaron 2 grupos, los que disminuyeron (A) y aumentaron (B) MLG. Se encontró que el grupo A redujo el peso y la masa muscular mientras que en el grupo B aumentó. En el grupo A se observó una disminución en los linfocitos, un aumento en la urea sérica, una disminución en el VO2 y en la recuperación a un minuto. La reducción de la MLG se asoció con alteraciones fisiológicas que reducen el rendimiento deportivo

An increase in fat-free mass (FFM) improves athletic performance. The aim of this study was to determine if a decrease in the FFM, expressed as the AKS index, is associated with physiological alterations after a training period in swimmers between 8-15 years old. Forty-two swimmers participated in this study, after 15 weeks of training the swimmers were divided into two groups, those who decreased (A) and those who increased FFM (B). In group A there was a decrease in both, body weight and muscle mass, while in group B there was an increase in body weight. We found that group A showed a reduction in lymphocytes count, in addition to an increase in serum urea, a decrease in VO2, and a decrease in their 1 min recovery. We showed here that a reduction in FFM is positively associated with physiological alterations that reduce athletic performance

Chronic administration of thiamine pyrophosphate decreases age-related histological atrophic testicular changes and improves sexual behavior in male Wistar rats.

Aging is a multifactorial universal process and constitutes the most important risk factor for chronic-degenerative diseases. Although it is a natural process, pathological aging arises when these changes occur quickly and the body is not able to adapt. This is often associated with the generation of reactive oxygen species (ROS), inflammation, and a decrease in the endogenous antioxidant systems, constituting a physiopathological state commonly found in chronic-degenerative diseases. At the testicular level, aging is associated with tissue atrophy, decreased steroidogenesis and spermatogenesis, and sexual behavior disorders. This situation, in addition to the elevated generation of ROS in the testicular steroidogenesis, provides a critical cellular environment causing oxidative damage at diverse cellular levels. To assess the effects of a reduction in the levels of ROS, thiamine pyrophosphate (TPP) was chronically administered in senile Wistar rats. TPP causes an activation of intermediate metabolism routes, enhancing cellular respiration and decreasing the generation of ROS. Our results show an overall decrease of atrophic histological changes linked to aging, with higher levels of serum testosterone, sexual activity, and an increase in the levels of endogenous antioxidant enzymes in TPP-treated animals. These results suggest that TPP chronic administration decreases the progression of age-related atrophic changes by improving the intermediate metabolism, and by increasing the levels of antioxidant enzymes.

Glycerol-3-Phosphate dehydrogenase (E.C.1.1.1.8) is expressed in cultured chicken embryonic adipofibroblasts and upregulated by embryonic chicken serum.

Chicken embryonic adipofibroblasts (CEA) accumulate intracytoplasmic lipids when cultured in medium containing chicken serum (CS), but not in medium with fetal bovine serum (FBS). To characterize this process of lipid accumulation, we evaluated the expression of the enzyme glycerol-3-phosphate dehydrogenase (E.C.1.1.1.8) (GPDH), first in chicken tissues and then in CEA cultured under diverse conditions. GPDH activity in adipose depots from 4-wk-old broiler chickens was similar or higher than that shown by liver, the main organ for fatty acid synthesis in chickens, while skeletal muscle had the lowest levels of GPDH. In vitro, GPDH activity increased in CEA cultured in the presence of CS but not in medium with FBS, paralleling the lipid accumulation by these cells. Both lipid accumulation and GPDH activity were further increased in CEA cultured in the presence of embryonic CS. Our results show that GPDH is highly expressed in avian tissues related to lipid metabolism and therefore can be a reliable marker for avian adipogenesis, and suggest that ECS is an optimum source for the purification of avian adipogenic factors.