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Effect of interval versus continuous exercise training on resting energy expenditure in dieting college-aged womenSiemann, Art W. 21 July 1993 (has links)
Graduation date: 1994
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The effect of increasing physical activity on health benefits in sedentary womenHorner, Katrina E. January 1997 (has links)
The purpose of this study was to evaluate whether the current CDC/ACSM physical activity recommendation, ("30 minutes or more of accumulated moderate-intensity activity, most if not all, days of the week") would improve women's health through a reduction ofcoronary heart disease (CHD) risk factors. Twenty-one sedentary females (ages 49 ± 7 yrs.) with one or more CHD risk factors underwent baseline laboratory including: resting heart rate and blood pressure, resting electrocardiogram, body mass index, bioelectrical impedance, skinfold measures, waist-to-hip, blood lipid profile, and V02max. The VO2 was determined by an exercise treadmill test using the Ball State University Ramp protocol. The subjects were instructed on the CDC/ACSM recommendation, the physical activity survey, and given examples of moderate-intensity activity. The survey data was collected bimonthly over the six month period. The subjects reported participating in >_ 30 min. of moderate-intensity activity an average of 4 f 1 days/week with an average duration of 54 ± 26 min. On the remaining days, the subjects reported doing an average of 14 ± 6 minutes per day. Also, 90% of the women reported doing the activity in continuous bouts. Following the six month study period, the women were retested in the laboratory. Sixteen subjects completed the post-testing. The results of the sixteen women showed a significant improvements in HDL-cholesterol (51 ± 15 vs.56 ± 15 mmHg; p=<.05) and TC/HDL ratio (4.5 ± 1 vs.4.25 ± 1.3; p=<.05). There were no significant changes in the other risk factor variables examined or their V02,„.. It was concluded that the majority of previously sedentary, middle aged women can not meet the CDC/ACSM recommendations for daily activity and total energy expenditure. Additionally, it appears that when given the choice, these women choose to do activity in continuous time blocks versus breaking the daily activities into shorter time periods. / School of Physical Education
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Relationship between lower body strength and bone mineral density in postmenopausal women with long-term exercise trainingLee, Won-Jun January 2000 (has links)
The purpose of this study was (1) to compare the lower body strength, power, and the bone mineral density (BMD) of the proximal femur in a group of trained postmenopausal women who have been in low intensity exercise program for a long time with age-matched sedentary controls, and (2) to evaluate the magnitude of the correlation between muscle function and site-specific BMD in these postmenopausal women. Healthy postmenopausal women (n = 17) between the age of 60 and 80 were divided into two groups: 9 exercisers (mean ± SE, 74.8 ± 3.2 years) who had been in an exercise training program for at least 5 years and 8 control (mean ± SE, 71.6 ± 3.4 years) who had not been in any exercise program for at least 5 years. The exercise group performed three one hour sessions a week of aerobic and resistance training for an average of 9.9 years. The exercise training consisted of 30 minutes walking and one or two sets of twelve to fifteen repetitions focused on large muscle groups. The BMD of the proximal femoral region was assessed using dual-energy x-ray absorptiometry (DEXA). By using a Cybex Leg Press machine, 1-repetition maximum (1-RM) tests were performed for lower body strength and power of lower body were obtained by a seated chair rise. Statistical analysis demonstrated no statistical differences between the left and right region of the femur BMD for either group, with the averaged BMD being 0.858 g/cm2 for the controls and 0.853 g/cm2 for the exercisers. The trochanter BMD for the exercisers were 7 % (left) and 6 % (right) higher than the controls although these values were not statistically significant. The 1RM leg press strength ranged from 29.5 to 47.6 kg (mean ± SE, 40.21 ± 2.62 kg) in controls and from 31.8 to 61.2 kg (mean ± SE, 45.93 ± 3.72 kg) in exercisers. Although the exerciser group lifted 14.2 % more weight than the control group, the difference was not statistically significant. The results of power test ranged from 14.59 to 31.21 kg • m/sec (mean ± SE, 22.94 ± 5.67 kg • m/sec) in controls and from 13.63 to 38.60 (mean ± SE, 28.88 ± 6.81 kg • m/sec). The power did not differ significantly between the two groups. However, it is noted that between group differences approached significance at p < 0.07. Correlations between body composition and femoral neck BMD were also determined. Neither weight, nor BMI was significantly correlated with femoral neck BMD in the exercise and control group. Lower body strength and power did not correlate with the BMD of the femoral neck, Ward's triangle, or trochanter in either group. Although the BMD of the proximal femoral region did not differ between two groups the higher mean age (+ 3.2 years) of the exercise group suggested that a low intensity exercise training program can increase power and strength and maintain BMD in postmenopausal women. However, the low intensity of resistance training program utilized by the exercise group was no more effective in maintaining BMD than an active lifestyle. / School of Physical Education
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Relationships Between Diet and Physical Activity Lifestyle Factors and Body Composition, Waist Circumference, and Body Mass Index in Postmenopausal WomenUnknown Date (has links)
PURPOSE: The purpose of this study was to compare relationships between
dietary and physical activity (PA) behaviors and body composition and body fat
distribution, as measured by percent body fat (BF%), waist-to-height ratio (WHt), waistto-
hip ratio (WHp) and body mass index (BMI) in post-menopausal women (Post), with
the same relationships in pre-menopausal women (Pre). METHODS: Ninety-two subjects
(n = 48 Post; n = 44 Pre) were measured for height, weight, waist and hip circumferences
and skinfold thicknesses. Dietary content was obtained from a Diet History Questionnaire
(DHQ II); PA was estimated from responses to the International Physical Activity
Questionnaire (IPAQ). RESULTS: Multiple regression identified no modifiable predictor
variables for Pre. Models for Post identified saturated fat grams (SFGs), PA, years
postmenopause (YrsPost), and Alcohol (Alc) as predictors of WHt, WHp, BMI and BF%.
CONCLUSIONS: PA, SFG and Alc are modifiable variables related to postmenopausal
body composition and fat distribution. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2017. / FAU Electronic Theses and Dissertations Collection
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The effect of menopausal status on substrate utilization in younger women during submaximal exerciseUnknown Date (has links)
The purpose of this study was to determine if surgically-induced menopause
in younger women affects substrate utilization during submaximal exercise while
controlling for other potential confounds. METHODS: Thirteen untrained female
subjects (33-50 years old) were recruited: oophorectomized (Group O = 5) and
premenopausal controls (Group C = 8). Two separate visits included: body composition
and maximal treadmill exercise test; followed by substrate utilization via open-circuit
spirometry during 45 minutes of treadmill walking at 50% VO2max. RESULTS: When
controlling for multiple variables affecting whole-body substrate utilization (age, VO2max,
physical activity, body composition, fasting glucose, menstrual phase and diet), there was
no difference in substrate utilization between pre- and postmenopausal women as
measured by respiratory exchange ratio (RER) (0.83 ± 0.04 v 0.84 ± 0.03, p=0.47).
CONCLUSIONS: Menopausal status does not appear to have an effect on substrate
utilization during submaximal exercise in younger women. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2015. / FAU Electronic Theses and Dissertations Collection
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Physical activity, hormone replacement therapy, and insulin resistant coronary artery disease risk factors in postmenopausal womenManns, Patricia J. 12 October 2001 (has links)
Low physical activity levels and high serum C-reactive protein (CRP) levels are risk
factors for coronary artery disease (CAD) in both men and women. However,
postmenopausal women who take hormone replacement therapy (HRT) may have
increased risk of CAD because of HRT-related increases in serum CRP. There are two
manuscripts in this dissertation. The purpose of the first manuscript was to determine
whether higher physical activity energy expenditure was associated with lower serum
CRP, independent of oral HRT status and body fatness, in 133 postmenopausal women.
Higher physical activity energy expenditures were significantly associated with lower
serum CRP levels (r=-0.21, p=0.0l9), independent of oral HRT use, age, smoking
behavior, alcohol consumption, aspirin use, and statin use. However, in the complete
multivariate model, which included body fat, the association between higher physical
activity and lower serum CRP levels was abolished. The purpose of the second study
was to quantify the biological variability of insulin resistant CAD risk factors in a sample
of 8 postmenopausal women. Risk factor outcomes, including serum total cholesterol,
serum triglycerides (TG), serum high-density lipoprotein cholesterol (HDL-C), serum
glucose, plasma insulin, serum CRP, waist and hip circumferences, abdominal sagittal diameter, body fat, systolic (SBP) and diastolic blood pressure, and self-reported physical
activity energy expenditure, were measured on two occasions, 7-12 days apart. High
absolute biological variability values (by standard error of measurement) were observed
for serum TG (32.0 mg/dl), serum CRP (5.6 mg/l), SBP (4.0 mmHg), and physical
activity (9.4 kcal/kg/week). High relative biological variability (by within-subjects
coefficient of variation ���27.3%) was also observed for serum TG, serum CRP, and
physical activity. Bland-Altman plots identified individual outliers for serum TG, serum
CRP, plasma insulin, and SBP. Together, the results suggest that the correlations
between lower levels of serum CRP and higher levels of physical activity, though
significant, may have been attenuated by the high biological variability of both serum
CRP and physical activity. Thus, the importance of higher levels of physical activity, in
decreasing serum CRP and the concomitant risk of heart disease, may be underestimated
in the absence of serial measurement of serum CRP and physical activity. / Graduation date: 2002
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The effects of high-impact exercise on bone mass in adolescent girlsWitzke, Kara A. 08 May 1997 (has links)
We evaluated anthropometric and performance measures which best predict bone
mineral density (BMD) in 54 adolescent girls (14.6��0.5y; 22.7��14.0 months past
menarche). BMD for the whole body, femoral neck, greater trochanter, lumbar spine (L2-L4), and mid-femoral shaft was assessed using dual-energy x-ray absorptiometry (DXA)
(Hologic QDR 1000/W). Whole body lean mass and fat mass were derived from the whole
body scan. Knee extensor strength and leg power were assessed by isokinetic
dynamometry and the Wingate Anaerobic Power Test, respectively. Using simple
regression, lean mass was significantly correlated with BMD at all bone sites r=.45-.77; p<0.001), and was more highly correlated with BMD at all sites than was body weight.
Maximum leg power was also associated with bone mass at all sites (r=.41-.67; p<0.001)
while leg strength correlated significantly with all sites (r=.41-.53; p<0.001) except the
lumbar spine. Stepwise regression analyses revealed that 59% of the variance in whole
body BMD was predicted by lean mass alone. No other variables, including fat mass,
height, months past menarche, leg power, or leg strength, contributed additionally to the
regression model. Similarly, lean mass was the only predictor of lumbar spine and femoral
shaft BMD (R��=.25, R��=.37, respectively), while femoral neck and trochanteric BMD
were best predicted by leg power (R��=.38, R��=.36, respectively). In this group of
adolescent girls, lean body mass and leg power independently predicted bone mineral
density of the whole body, lumbar spine, femoral shaft, and hip, which may suggest an
important role for muscle mass development during growth to maximize peak bone density. / Graduation date: 1997
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The effect of continuous assistive-passive exercise on physiological parameters among obese femalesMentz, N.W. (Nick) 10 January 2007 (has links)
Please read the abstract in the section 00front of this document / Dissertation (MA (HMS))--University of Pretoria, 2007. / Biokinetics, Sport and Leisure Sciences / unrestricted
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The effects of aerobic exercise training on symptomatic females with mitral valve prolapse syndrome /Scordo, Kristine A. Bludau January 1990 (has links)
No description available.
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Energy and nutrient intake, and body composition of elderly women with different ages and levels of physical activityBell, Elizabeth J. 17 March 1993 (has links)
The US population over the age of 65 years is growing rapidly, with elderly
women outnumbering men by 50 percent. Studies show that aging is often
accompanied by reduced energy intake, inadequate nutrition, and the loss of lean
body mass with a subsequent increase in body fat, as well as the tendency towards
inactivity. An increased level of physical activity elevates energy needs, which can
lead to increased energy and nutrient intake, and has been shown to aid in the
maintenance of lean body mass and the reduction of body fat. Positive health
outcomes for seniors depends partly on a clearer understanding of the
interrelationships between physical activity, diet, and body composition.
The purpose of this study was to determine whether higher overall levels of
physical activity among elderly women, were related to higher energy intake, nutrient adequacy, and less body fat, and to what extent age affected these
associations. Sixty-three elderly women (aged 65-98 years) volunteers completed a
three part study spanning 14 weeks. Mean level of physical activity (MLPA) and
mean nutrient intakes were estimated using nine self-reported days of records, three
predetermined days from each of three recording periods. MLPA was determined
from self-reported hours spent in five physical activity categories (resting, very
light, light, moderate, and heavy), multiplied by corresponding weighted factors of
intensity (1.0, 1.5, 2.5, 5.0, 7.0, respectively). Nutrient analyses for seven
vitamins (vitamin A, vitamin C, thiamin, riboflavin, niacin, vitamin B6, vitamin
B12) and three minerals (calcium, iron, and zinc) were done using the Food
Processor II computer software. A mean adequacy ratio (MAR) was calculated for
each subject as the average percent of the RDA for intakes of all 10 nutrients.
Body composition assessment included triplicate measures of: height and weight
from which body mass index (BMI) was determined; waist-to-hip ratio (WHR); and
an estimation of percent body fat (PBF) from the sum of four skinfolds (triceps,
biceps, subscapular, suprailiac).
It was determined that MLPA was not directly related to energy intake,
nutrient adequacy, or the three body composition parameters. However, the
correlation coefficients between MLPA and energy intake, mean adequacy ratio, and
percent RDA for 8 of the 10 nutrients were positive, and the correlation coefficients
between MLPA and all three body fatness measures were negative, as was expected. The small coefficient of variability of MLPA limited its discriminating power in
determining associations with energy intake, nutrient adequacy, and body
composition.
Backward stepwise regression models were conducted to distinguish potential
confounding effects of age, education, and MLPA on the variables kcal/day,
kcal/kg/day, MAR, BMI, WHR, and PBF. Age was found to account for the
largest portion of the variations, and was greater than the contribution of MLPA for
all of these variables, except in the case of kcal/kg/day.
When the subjects were divided into young-old (65-74 yr) and old-old (75-98
yr) subgroups, the younger compared to the older women were found to be more
active as measured by MLPA (p=.02), explained by their engaging in more light
activities of daily living (p=.04). The young-old compared to the old-old women
consumed more kcalories/day (p=.01), and had a higher MAR score (p=.00). The
nutrient densities of the two groups' diets were not significantly different. The
younger women had slightly lower BMI, WHR, and PBF values.
This study revealed age, rather than MLPA, was a better predictor of some
parameters of diet adequacy and body fatness among this sample of elderly women.
In addition, consistently higher levels of physical activity and greater dietary
adequacy and was found among the younger compared to the older portions of this
sample of senior women, suggesting that nutrition intervention programs for the
elderly should encourage daily activeness as a strategy to maintain or improve
dietary adequacy with advancing age. / Graduation date: 1993
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