Influência dos treinamentos aeróbico, resistido e combinado sobre as propriedades físicas e biomecânicas ósseas de ratos obesos com diabetes melittus tipo 2 experimental
Abstract
Background: Obesity is a condition characterized by an excessive amount of fat and
has been considered an important factor for T2DM (type II Diabetes Mellitus)
development. The T2DM, a state of hyperglycemia and insulin resistance, is often
associated to an increased risk of bone fracture. Research question: investigate if
three different physical exercise protocols could protect the bone tissue in obese rats
with experimental type 2 diabetes mellitus. Type of study: Randomized controlled
study Methods: Eighty male Wistar rats (45 days age ay beginning of the
experiment) were used. The animals were randomly distributed into 2 groups: control
rats fed with standard diet (n=40) and rats fed palatable hyperlipidic diet. After 4
weeks of treatment to induce diabetes, high-fat diet rats received, with previous
fasting, a dose of Streptozotocin 35 mg/kg body weight, intraperitoneally. Control rats
received, with previous fasting, a dose of citrate buffer solution (1ml/kg)
intraperitoneally. The animals were assigned to one of the ten groups (n=10 per
group): non-diabetic sedentary (CSS); non-diabetic resistance training (TRS); nondiabetic
aerobic training (TAS); non-diabetic combined training (TCS), Sedentary
diabetic (CSD); resistance training diabetic (TRD); aerobic training diabetic (TAD);
combined training diabetic (TCD). The training procedures were realized after
induction of diabetes, during 10 weeks, 3 days/week. Results: Body mass of diabetic
groups was lower when compared to those groups without diabetes, in spite of
greater calories consumed. Diabetic groups showed lower bone mineral content
values when compared non-diabetic group. The bone mineral density was lower in
TRD group. The maximal load and stiffness in diabetic groups was lower than their
respective groups without diabetes. Groups with experimental diabetes present lower
valuer for MMP-2 activity compared non-diabetic groups. Diabetes seems to induce
reduced bone quality and the resistance training demonstrated protect the bone from
it. Conclusion: Experimental diabetes mellitus type 2 affects the biomechanical
properties of femurs of Wistar rats and the resistance training improve such effects.