Dante Goss scite author profile

Testosterone (T) is responsible for the morphological adaptations resulting from systematic physical training and T deficiency is related to worsen the components of physical fitness with a marked effect on muscle mass. However, is still unkwon whether physical exercise can be an factor for maintaining muscle mass in T deficiency. PURPOSE: Evaluate whether Treadmill Interval Training (TIT) is efficient in maintaining muscle mass in castrated mice. METHODS: 14 adult (3-4 months) Swiss mice were separated in two groups, Sham (n=6) and gonadectomized (GDX, n=8). The GDX underwent bilateral orchiectomy while the Sham underwent a surgical trauma. After recovery mice were subjected to a 10-day treadmill familiarization step within 2 weeks, 5 days/wk, 25º inclination, having both session duration and speed progressively increased from 5 to 15 min and 5 to 10 m/min, respectively. Next a maximum exercise tests were carried out with an interval of 48h to assess the average maximum distance and speed reached (MSR). The test consisted of 5 min warm-up at 6m/min followed by incremental speed stages of 2 m/min every 2 min.Test were considered maximum when the mice were unable to, or refused to run even with mechanical stimulation. Then, the animals were submitted to a 4 weeks of an TIT, consisting of an initial warm-up at 5 m/min during 5min, then 10 bouts of 4 min with interspersed with 2 min of active rest 5 m/min. The training starts with an intensity of 55-65% MSR, with an increase of 10% each week reaching the intensity range of 85-95%. After the training mice were euthanized and the soleus and gastrocnemius muscles were collected and weighed. We compared muscle weight between groups using One-way ANOVA/Tukey (p≤0.05). Data are presented as mean±SEM. RESULTS: No difference was observed in the soleus and gastrocnemius mass between Sham and GDX groups. CONCLUSION: Our finds showed that the T deficiency did not change soleus and gastrocnemius mass of male mice submitted to TIT. Supported by FAP-DF.

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Gene Expression Differences In Three-dimensional Myobundles Compared To Two-dimensional Myocultures

Sklivas

Goss

Bursac

et al. 2020

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Dante Goss

The metabolism of nickel. I. Spatial and temporal distribution of Ni63 in the mouse

Early Muscle Gene Expression Changes With Eccentric Exercise Associated With Peak Delayed Onset Muscle Soreness

Gene Expression Differences In Three-dimensional Myobundles Compared To Two-dimensional Myocultures

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