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Relationships between adiposity and postural control in girls during balance tasks of varying difficulty.
Tsiros, MD, Brinsley, J, Mackintosh, S, Thewlis, D
Obesity research & clinical practice. 2019;(4):358-364
Abstract
OBJECTIVE This study aimed to examine associations between postural control and body composition in 8-10-year-old girls. METHODS An observational cross-sectional study was conducted in 47 girls who were healthy-weight/overweight/obese [body mass index (BMI) percentile]. Girls participated in six postural control conditions of varying difficulty (standing with malleoli touching, tandem stance leading with dominant and non-dominant foot, repeated with eyes open and closed). Postural control outcomes included Centre of Pressure (COP) sway area, COP principal and minor axis length and COP maximum velocity. Data were analysed using linear mixed modelling. RESULTS BMI percentile was positively associated with COP sway area (p=0.034) and principal axis (p=0.030) during tandem stance non-dominant foot leading with eyes closed and COP principal axis during tandem stance dominant foot leading with eyes open (p=0.045). BMI percentile significantly interacted with postural control conditions of varying difficulty to predict postural control outcomes (p≤0.035), notable for tandem stance positions [all four COP sway outcomes in tandem stance non-dominant foot leading eyes closed; tandem stance dominant foot leading with eyes open and closed (two COP sway outcomes each)]. CONCLUSIONS Girls with greater adiposity may have impairments in postural control, but only during more challenging postural control conditions. In contrast, BMI has little role to play in girls' postural control in easier postural control conditions (standing with feet together). These findings may suggest potential functional or safety considerations when girls with overweight/obesity are performing demanding postural control tasks (such as during sport or physical activity).
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[Relationship of physical activity level and body composition on postural control in male adults].
Delfa-de-la-Morena, JM, Rojo Tirado, MÁ, Aparecida-de-Castro, E, Gil Arias, A, Miangolarra-Page, JC, Benito Peinado, PJ
Nutricion hospitalaria. 2018;(6):1416-1423
Abstract
INTRODUCTION balance is very important in order to perform daily physical activities as standing or walking. Both physical activity and body composition are some of the most important adjustable intrinsic factors influencing balance. OBJECTIVE to analyze the influence of physical activity level and different body variables on the postural control of male adults. METHODS observational, cross-sectional study with 63 men between 25 and 60 years of age, with body mass index (BMI) between 18 and 35 kg/ m2. Anthropometric variables (e.g., weight, BMI, waist circumference), body composition and its distribution (e.g., percentage of total fat mass: TFM%, of the legs: LFM%, and android: AFM%), physical activity (PAL) and postural control (e.g., SOM ratio) were measured. Multiple linear regression was used to evaluate the relationship of all variables with the SOM ratio. RESULTS the results of this study show a correlation between TFM% (r = -0.384, p = 0.002), AFM% (r = -0.421, p = 0.001) and PAL (r = 0.291, p = 0.021) with the SOM ratio. In addition, individuals classified as obese (TFM% ≥ 28) scored worse on SOM ratio than non-obese individuals (97.33 ± 2.52 vs 96.37 ± 1.54, p = 0.013), and individuals classified as active (PAL ≥ 1.4) scored higher on SOM ratio than sedentary individuals (97.13 ± 2.33 vs 96.18 ± 1.38; p = 0.035). CONCLUSIONS the fat mass and PAL seem to influence proprioceptively on postural control, being the waist circumference the variable that predicts SOM ratio the most.
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The Relationship of Core Strength and Activation and Performance on Three Functional Movement Screens.
Johnson, CD, Whitehead, PN, Pletcher, ER, Faherty, MS, Lovalekar, MT, Eagle, SR, Keenan, KA
Journal of strength and conditioning research. 2018;(4):1166-1173
Abstract
Johnson, CD, Whitehead, PN, Pletcher, ER, Faherty, MS, Lovalekar, MT, Eagle, SR, and Keenan, KA. The relationship of core strength and activation and performance on three functional movement screens. J Strength Cond Res 32(4): 1166-1173, 2018-Current measures of core stability used by clinicians and researchers suffer from several shortcomings. Three functional movement screens appear, at face-value, to be dependent on the ability to activate and control core musculature. These 3 screens may present a viable alternative to current measures of core stability. Thirty-nine subjects completed a deep squat, trunk stability push-up, and rotary stability screen. Scores on the 3 screens were summed to calculate a composite score (COMP). During the screens, muscle activity was collected to determine the length of time that the bilateral erector spinae, rectus abdominis, external oblique, and gluteus medius muscles were active. Strength was assessed for core muscles (trunk flexion and extension, trunk rotation, and hip abduction and adduction) and accessory muscles (knee flexion and extension and pectoralis major). Two ordinal logistic regression equations were calculated with COMP as the outcome variable, and: (a) core strength and accessory strength, (b) only core strength. The first model was significant in predicting COMP (p = 0.004) (Pearson's Chi-Square = 149.132, p = 0.435; Nagelkerke's R-Squared = 0.369). The second model was significant in predicting COMP (p = 0.001) (Pearson's Chi-Square = 148.837, p = 0.488; Nagelkerke's R-Squared = 0.362). The core muscles were found to be active for most screens, with percentages of "time active" for each muscle ranging from 54-86%. In conclusion, performance on the 3 screens is predicted by core strength, even when accounting for "accessory" strength variables. Furthermore, it seems the screens elicit wide-ranging activation of core muscles. Although more investigation is needed, these screens, collectively, seem to be a good assessment of core strength.
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Vitamin D and parathyroid hormone are associated with gait instability and poor balance performance in mid-age to older aged women.
Bird, ML, El Haber, N, Batchelor, F, Hill, K, Wark, JD
Gait & posture. 2018;:71-75
Abstract
CONTEXT Vitamin D status and parathyroid hormone (PTH) levels influence the risk of accidental falls in older people, but the mechanisms underlying this effect remain unclear. OBJECTIVE Investigate the relationship between circulating PTH and 25 hydroxyvitamin D (25-OHD) levels and clinical tests of gait stability and balance as physical fall risk factors. We hypothesized that high levels of PTH and low 25-OHD levels would be significantly associated with gait stability and decreased balance performance. DESIGN Observational cohort study. SETTING Australian community. PARTICIPANTS 119 healthy, ambulatory female twin adults aged 47-80 years residing in Victoria, Australia. OUTCOME MEASURES Serum PTH and 25-OHD levels with clinical tests of gait stability [double support duration (DSD)] and dynamic balance (Step Test). Associations were investigated by regression analysis and by comparing groups divided by tertiles of PTH (<3.5, 3.5-4.9, >4.9pmol/L) and 25-OHD (<53, 53-75, >75 nmol/L) using analysis of variance. RESULTS Serum PTH was associated positively with DSD, with an increase of 10.6-15.7% when the mid and highest PTH tertiles were compared to the lowest tertile (p <0.025) when 25-OHD was included in the regression analysis. 25-OHD was significantly associated with DSD (greater by 10.6-11.1% when lowest and mid-tertiles compared with the highest 25-OHD tertile) (p <0.025) and dynamic balance (better performance by 12.6% in the highest compared with the lowest 25OHD tertile) (p <0.025). CONCLUSION These findings reveal an important new relationship between parathyroid hormone and gait stability parameters and add to understanding of the role of 25-OHD in motor control of gait and dynamic balance in community-dwelling women across a wide age span.
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Anteroposterior displacement behavior of the center of pressure, without visual reference, in postmenopausal women with and without lumbar osteoporosis.
Brech, GC, Fonseca, ÂM, Bagnoli, VR, Baracat, EC, Greve, JM
Clinics (Sao Paulo, Brazil). 2013;(10):1293-8
Abstract
OBJECTIVE The aims of this study were to evaluate the anteroposterior displacement behavior of the center of pressure without any visual reference and determine its relationship with knee muscle strength and reports of falls in postmenopausal women. Among those with osteoporosis, the specific objective was to evaluate the correlation of thoracic kyphosis and vitamin D with center of pressure displacement. METHODS This was a cross-sectional observational study without intervention. The assessments were performed on 126 postmenopausal women (aged 55-65 years) who were grouped according to their lumbar bone density into osteoporosis and control groups. Center of pressure was evaluated on a force platform (100 Hz frequency and 10 Hz filter), with the subjects standing on both feet with eyes closed for 60 seconds. Knee muscle strength was evaluated using an isokinetic dynamometer in concentric/concentric mode at a velocity of 60°/s. In the osteoporosis group, vitamin D was assayed, and the thoracic spine was radiographed. RESULTS In the control group, there was a correlation between the center of pressure and knee strength (r = 0.37; p<0.003). Reports of falls were not associated with center of pressure displacement (p = 0.056). In the osteoporosis group, thoracic kyphosis and vitamin D levels were not correlated with the center of pressure. CONCLUSION Anteroposterior center of pressure displacement without visual influence was not associated with falls, thoracic kyphosis or vitamin D in the osteoporosis group. Only knee muscle strength was associated with center of pressure displacement in the control group.