Morbidly obese women have slower HR kinetics and altered cardiac modulation during submaximal exercise. However, aerobic exercise training can produce beneficial adaptations in HRV and faster HR kinetics following GBS.
The aim of this study was to assess the effects of resistance training on ladders (RTL) on MMP(-2) expression and blood lactate concentration [La-]. 30 male (3 months of age), albino rats were divided into 3 groups: sedentary control (SC, n=10), low resistance exercise training (Low-IntRT, n=10) and high-intensive exercise training (High-IntRT, n=10). Animals of High-IntRT were submitted to a progressively increasing overload in relation to body weight until exhaustion, while the Low-IntRT group performed the same exercise regimen with no external load. The program had a frequency of 3 times per week over 8 weeks. MMP(-2) expression of tibialis anterior muscle and [La-] were measured. While there was a significant increase of MMP(-2) (pro-form) in both groups, only High-IntRT significantly increased MMP(-2) in active-form (p<0.05). Both trained groups exhibited an increase in [La-] when compared to controls, however, the increase in [La-] was significantly higher in the High-IntRT compared to Low-IntRT (p<0.05). Strong correlation was found between MMP(-2) (active form) and [La-] in High-IntRT (r=0.91). RTL in using low and high-intensity exercise can serve as a model to demonstrate different responses of MMP(-2) expression in an animal model. It appears active form expression of MMP(-2) is modulated by exercise intensity.
BackgroundConcurrent aerobic and resistance training (CART) programs have been widely recommended as an important strategy to improve physiologic and functional performance in patients with chronic diseases. However, the impact of a personalized CART program in patients with type 2 diabetes (T2D) requires investigation. Therefore, the primary aim of the current study is to investigate the impact of CART programs on metabolic profile, glycemic control, and exercise capacity in patients with diabetes.MethodsWe evaluated 41 subjects with T2D (15 females and 19 males, 50.8 ± 7 years); subjects were randomized into two groups; sedentary (SG) and CART (CART-G). CART was performed over 1.10-h sessions (30-min aerobic and 30-min resistance exercises) three times/week for 12 weeks. Body composition, biochemical analyses, peripheral muscular strength, and cardiopulmonary exercise testing were primary measurements.ResultsThe glycated hemoglobin HbA1c (65.4 ± 17.9 to 55.9 ± 12.7 mmol/mol), cholesterol (198.38.1 ± 50.3 to 186.8 ± 35.1 mg/dl), and homeostasis model assessment insulin resistance (HOMA-IR) (6.4 ± 6.8 to 5.0 ± 1.4) decreased in the CART-G compared to the SG. Although body weight did not significantly change after training, skinfold measurement indicated decreased body fat in the CART-G only. CART significantly enhanced muscle strength compared to the SG (p < 0.05). CART was also associated with significant increase in peak oxygen uptake and maximal workload compared to the SG (p < 0.05).ConclusionsThese data support CART as an important strategy in the treatment of patients with T2D, producing both physiologic and functional improvements.Trial RegistrationEnsaiosclinicos.gov.br, RBR492q8z
An 8-week resistance training program associated with aerobic training may attenuate hemodynamic stress, and modify metabolic and autonomic responses during resistance exercise. The training program also appeared to elicit beneficial cardiovascular and autonomic effects during exercise.
BackgroundType 2 diabetes Mellitus (T2DM) is associated with cardiac autonomic
dysfunction, which is an independent predictor of mortality in chronic
diseases. However, whether the coexistence of systemic arterial hypertension
(HTN) with DMT2 alters cardiac autonomic modulation remains unknown.ObjectiveTo evaluate the influence of HTN on cardiac autonomic modulation and
cardiorespiratory fitness in subjects with DMT2.Methods60 patients of both genders were evaluated and allocated to two groups: DMT2
patients (n = 32; 51 ± 7.5 years old) and DMT2 + HTN patients (n =
28; 51 ± 6.9 years old). RR intervals were obtained during rest in
supine position. Linear and nonlinear indices of heart rate variability
(HRV) were computed using Kubios HRV software. Pulmonary gas exchange was
measured breath-by-breath, using a portable telemetric system during maximal
incremental exercise testing on a cycle ergometer. Statistical analysis
included Shapiro-Wilk test followed by Student’s t Test, Pearson correlation
and linear regression.ResultsWe found that patients in the DMT2+HTN group showed lower values of mean RR
intervals (801.1 vs 871.5 ms), Shannon entropy (3
vs 3.2) and fractal dimension SD 1 (9.5 vs 14.5), when
contrasted with patients in the DMT2 group. Negative correlations were found
between some HRV nonlinear indices and exercise capacity indices.ConclusionHTN negatively affects the cardiac autonomic function in diabetic patients,
who are already prone to develop autonomic dysfunction. Strategies are need
to improve cardiac autonomic functionality in this population.
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