ABSTRACT
Background: Walking in high-heeled shoes is widespread dress behavior of women of modern society. It increases lower limb muscles activity and energy cost. The need to generate larger muscular forces during walking increases the metabolic demand, thus oxygen consumption (VO2) is increased when wearing high heels. Aims and Objectives: To access effect of high-heeled shoes on Energy Expenditure (EE) and VO2 in Healthy Young female. Materials and Methods: This cross-sectional study was conducted among fifty apparently healthy female students between the ages of 20 and 26 yrs. Resting arterial blood pressure and heart rate (HR), VO2, heat production, and EE were recorded. Then, subjects walked barefooted a distance of 76.5 meters in 2 min. Following the barefooted walk, cardiac and metabolic parameter were recorded again. The subjects walked 76.5 meters in high-heeled shoes of 2, 4, and 6 inches. These parameters were recorded immediately after 76.5 meters of walking in high-heeled shoes. Results: The results from the present study indicate that walking a distance of 76.5 meters barefooted resulted in a significant increase only in mean arterial pressure, HR and rate pressure product. The EE and VO2 after walking a distance of 76.5 meters in high-heeled shoes of 2, 4, and 6 inches heel heights was significantly higher than walking a distance of 76.5 meters barefooted. Conclusion: Walking barefooted required lesser effort than walking in high-heeled shoes of different heel heights. Effort should therefore be made to encourage women to reconsider the habitual use of high-heeled shoes.
ABSTRACT
Background: The patella plays a major role in flexion and extension of the knee. The patella morphology can be a predisposing factor in patella instability. The congruency between the patella and femur affects the kinematics of the patellofemoral joint, contact mechanics of the patellar cartilage, and strain in the underlying bone, whereby higher stresses and strains potentially contribute to cartilage wear and anterior knee pain. Aim and Objective: The present study was conducted to assess the morphology of facets of patella. Materials and Methods: The present study was conducted to assess the morphology of facets of patella. Ninety-six patella of unknown sex from bone store of Department of Anatomy were included in the study. The patellar morphology and morphometry were investigated. Statistical analysis was performed using the SPSS (v 12.01) software package (SPSS Inc., Chicago, Illinois). Statistical significance was set at P < 0.05. Results: In the present study; 96 patella of unknown sex from bone store of Department of Anatomy were included in the study. The mean size of the right lateral facet was 23.34 mm and left lateral facet patella was 23.06. P value was non-significant. The shape of lateral facet was concave in 93.9% in the left patella and 100% in the right patella. The shape of lateral facet was flat in 6.1% in the left patella and 0% in the right patella. The mean size of the right medial facet was 17.68 mm and left medial facet patella was 17.39 mm. P value was nonsignificant. The shape of medial facet was concave in 2% in the left patella and 10.6% in the right patella. The shape of medial facet was convex in 69.4% in the left patella and 61.7% in the right patella. The shape of medial facet was flat in 28.6% in the left patella and 27.6% in the right patella. P value was non-significant. Conclusion: The present study concluded that the mean size of the right lateral facet was more left lateral facet patella. The shape of lateral facet was concave in 93.9% in the left patella and 100% in the right patella. The shape of lateral facet was flat in 6.1% in the left patella and 0% in the right patella. The mean size of right medial facet was more than left medial facet patella. The shape of medial facet was concave in 2% in the left patella and 10.6% in the right patella. The shape of medial facet was convex in 69.4% in the left patella and 61.7% in the right patella. The shape of medial facet was flat in 28.6% in the left patella and 27.6% in the right patella.
ABSTRACT
The forced vital capacity, forced expiratory volume in one second, peak expiratory flow, mid-expiratory flow and maximum voluntary ventilation was measured in 632 healthy, normal children from Metropolitan city of Bombay using computerized spirometer. The children were between age range 6 years to 15 years and belong to high or middle and lower socio economic status. The pulmonary function data was separated by sex, and classified on the basis of height and age. The mean and standard deviation for was calculated for every such variable. The lung function variables show a linear positive correlation with height and age. Forced vital capacity and one second forced expiratory volume show a spurt after height 150 cm. Boys show higher values for lung function variables than girls except for mid expiratory flow rates where girls have higher values than boys over height 140 cm and age 9 yrs. Stepwise regression equation was calculated using height, age and weight as independent variables. Height explained the maximum variance in lung function parameters. Use of logarithmic equations for age, weight do not improve the degree of correlation. Hence, for clinical evaluation of child's lung function, height is the most significant independent parameter in comparison to age and weight.