Abstract
The cardiac plexus is a vast network of neurons grouped into ganglia distributed throughout the myocardium. The epicardial adipose tissue covers the heart performing important functions, such as, lipid storage. However, its exaggerated expression might represent a risk factor, which can be prevented by the practice of physical activities that improves the heart contractile propulsive capacity. Insulin has been used in association with physical exercise so as to increase muscle mass and improve physical performance. Both insulin and exercise have been evidenced due to their neurotrophic effects. The purpose of this study was to ascertain whether insulin associated with resistance training could structurally modify the cardiac plexus and epicardial adipose tissue. Four groups (n = 6) of male Swiss mice were used: non-trained saline, non-trained insulin; trained saline; trained insulin. The training was performed on a vertical ladder at 90% of the maximum load, 3 times/week for 8 consecutive weeks. After the experimental period, the hearts of the animals were removed, and 5-μm sections were stained with Hematoxylin/Eosin, Giemsa and Picrossirius in order to evaluate the structures of the cardiac plexus. There was no significant difference with regard to the area and the total number of neurons, nor to the area with collagen. However, whereas insulin administration hypertrophied the adipocytes and predisposed an inflammatory environment, physical exercise played an anti-inflammatory role. As a conclusion, it is worth mentioning that resistance training did not change the cardiac plexus, however the epicardial adipose tissue was reduced, an effect antagonized by insulin.
Highlights
The best known function of insulin is to maintain glycemic control
This study was carried out with Swiss male mice, divided into 4 groups (n=6/group): Non-trained Saline (NTS): mice not submitted to strength training on a vertical ladder that received saline; Non-trained Insulin (NTI): mice not submitted to strength training on a vertical ladder and treated with insulin; Trained Saline (TS): mice submitted to strength
That the exercise protocol used in this study was not able to change the morphological and quantitative parameters of the cardiac plexus, because, the results of the present study showed that there was no significant difference in the neuronal area of the different groups
Summary
Research has shown that its use in association with physical exercise predisposes an increase of muscle mass and improves physical performance. Part of this effect can be attributed to the fact that this hormone is highly anabolic, since it stimulates several protein synthesis pathways, including the contractile proteins, which act in synergy with the growth hormone, promoting muscle hypertrophy (Zanou, et al, 2013). Studies have shown that exercise improves the heart contractile propulsion capacity as this practice strengthens myocardium and prevents the deposition of adipose tissue into this organ (Monti, et al, 2015). Since long-term exercises stimulate anti-inflammatory effects, they are associated with the prevention of cardiovascular diseases (Giada, et al, 2008)
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