Browsing by Subject "Kinesiotherapy"
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Item Androgens and Cardiovascular Disease(1998-05-01) Dickerman, Rob D.; Walter J. McConathy; Thomas Yorio; Robert GracyDickerman, Rob D., Androgens and Cardiovascular Disease Doctor of Philosophy (Biomedical Sciences), May 1998; 111 pp; 10 tables, bibliography, 197 titles. Anabolic steroids are commonly used by many muscle and strength dependent athletes due to their ability to enhance the hypertrophic effects of resistance training. The use of anabolic steroids by bodybuilders appears to carry significant health risks, most commonly reported are sudden death, myocardial infarction and cardiomyopathy. To investigate the effects of anabolic steroids on cardiovascular risks, a study was designed to analyze the effects of androgens on lipoprotein levels and structure/function of the heart. For the study on lipid-related risk, twelve competitive bodybuilders were recruited for a comprehensive analysis of serum apolipoprotein A-I, B, total cholesterol, HDL-cholesterol, LDL-cholesterol, and testosterone. Serum total cholesterol, HDL- and LDL-cholesterol, apolipoproteins A-I and Be were significantly lower in androgen-users. Consistent with previous reports, androgens were associated with decreases in HDL-cholesterol and apolipoprotein A-I. However, androgens were also associated with reduced serum total cholesterol, LDL-cholesterol and apolipoprotein B. Despite the significantly higher total cholesterol/HDL-cholesterol ratio, the low levels of serum total cholesterol levels (percentile) in the androgen-users raises questions as to whether there is increased risk for cardiovascular disease and the exact role of androgens in cardiovascular risk. To investigate the effects of anabolic steroids in pathologic concentric left ventricular hypertrophy, the effects of androgens on left ventricular size and function were analyzed. Previous investigations conducted on left ventricular size and function have yielded inconclusive results. Problems existing in each of the previous investigations were small body mass, short length of myocardial exposure time to resistance training (years of training), significantly different body mass between steroid-users and steroid-free subjects and monitoring/reporting of steroid use. These problems may have contributed to the discrepancies between studies. Therefore, we selectively recruited eight competitive heavy weight drug-free bodybuilders and eight matched competitive weight bodybuilders on self-directed regimens of anabolic steroids for examination of left ventricular size and function via echocardiography. Increases in left ventricular posterior wall (LVPW) and ventricular septal thickness (VST) were apparent in the steroid-user group (p [less than] 0.05). Ratio of echocardiographic findings to body mass index (BMI) revealed a significantly smaller left ventricular and diastolic dimension (LVDEd/BMI, p [less than] 0.05) in the steroid-user. The smaller LVDEd in steroid-users is coupled with a significantly disproportionate septal and posterior wall thickness in steroid-users. There was no direct evidence of diastolic dysfunction. Thus it appears from these studies that androgens alter lipoproteins leading to a questionable increased risk for cardiovascular disease and may potentiate concentric left ventricular hypertrophy without affecting cardiac function.Item Does Osteopathic Manipulative Treatment Improve Dyspnea and Exercise Tolerance Subjects with Stable Chronic Obstructive Pulmonary Disease?(2006-05-01) Pickett, Carolyn M.; Stoll, Scott; Cruser, des Anges; Licciardone, John C.Pickett, Carolyn M., D.O., M.S. Does Osteopathic Manipulative Treatment Improve Dyspnea and Exercise Tolerance in Subjects with Stable Chronic Obstructive Pulmonary Disease? Master of Science (Clinical Research and Education – OMM), May 2006, 54 pages, 10 tables, 4 figures, references 48 titles. Chronic Obstructive Pulmonary Disease (COPD) is the fourth leading cause of death globally and is projected to increase. This highly prevalent and costly disease causes reduced physical and social functioning, and none of the existing medications for COPD seem to modify long-term decline in lung function. COPD patients with the severe dyspnea have more deficits in the health status and energy. Reduced functional status has been significantly correlated with health related quality of life. Osteopathic Manipulative Treatment (OMT) has been suggested for treatment of COPD as early as 1902, some research indicates that OMT may improve dyspnea and exercise tolerance, yet there are few published studies on OMT and COPD. Study goals were to increase scientific knowledge about how OMT may immediately improve dyspnea and exercise tolerance in stable COPD following exertion. This RCT was approved by the Institutional Review Board at the University of North Texas Health Science Center (UNTHSC) in Fort Worth and funded by the Osteopathic Research Center (ORC) at UNTHSC. –Hypothesis 1: A single intervention of OMT will improve dyspnea in a stable COPD subject, as measured by response to the Borg scale with exertion, when compared to no treatment. –Hypothesis: a single intervention of OMT will improve exercise tolerance in a stable COPD subject, as measured by distance walked during the six-minute walk test, when compared to no treatment. Twenty-one subjects completed the trial, 10 in the OMT group and 11 in the no-treatment group. No significant differences were found in the Borg scale or 6MWT following OMT. This study is limited by a small sample size and single OMT intervention design; however, it does demonstrate the feasibility of this research at this institution and may lead to a larger, more definitive and funded clinical trial.Item The Effect of Fitness on Cardiac Work with and without Metoprolol(2008-07-01) Hawkins, Megan Nicole; Peter Raven; Michael Smith; Robert MalletHawkins, Megan Nicole, The Effect of Fitness on Cardiac Work with and without Metoprolol. Doctor of Philosophy (Biomedical Science), July 2008; 128 pp; 3 tables; 17 figures; bibliography. Chronic endurance exercise adaptations of the cardiovascular and skeletal muscle systems. The mechanisms by which these adaptations occur, and their effect on the physiological response to exercise, have not been fully elucated. In addition, the classic concept of the role of maximal oxygen consumption (Vo2max) as a parametric index of cardiorespiratory capacity has been questioned. Therefore the purpose of the investigations presented within this dissertation was to: i)retrospectively analyze 156 incremental exercise stress tests and supramaximal exercise tests to verify that VO2 does indeed attain a maximal value; ii)evaluate the effects of cardioselective beta-adrenergic blockade on the ability to maintain cardiac work in average trained and endurance exercise trained subjects during moderate (45% VO2max) and heavy (70% Vo2max) intensity cycling exercise; and iii) determine the effect of aerobic fitness on resting and peak leg vascular conductance and the change in central blood volume observed during the onset of cycling exercise. In the first investigation we demonstrated that highly trained runners capable of maintaining supramaximal workloads achieved a VO2 that rarely exceeded the VO2max value obtained during an incremental exercise stress test. In the second investigation we demonstrated that acute β1-adrenergic receptor (βAR) inhibition reduced cardiac output, cardiac work and cardiac efficiency in endurance trained athletes during moderate and heavy intensity exercise. However, in average trained individuals these same variables were not affected during moderate exercise intensity, but were reduced at heavy intensity exercise. We concluded that βAR blockade impaired the more efficient Frank-Starling mechanism in endurance trained athletes but remained functional in average trained subjects during moderate exercise intensities. In the third investigation we demonstrated that endurance athletes responded to the onset of exercise with a larger increase in central blood volume than average trained individuals. In addition, resting and post-ischemic leg blood glow and leg vascular conductance were greater in the exercise training-induced adaptations of the skeletal muscle vasculature resulted in larger conductance capacity of the working muscle in response to increases in oxygen demand and enabled a greater increase in muscle blood flow from rest to exercise.