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It is now widely recognized that individual-based motivational interventions alone are not sufficient to address the global pandemic of physical inactivity (lack of exercise and too much sitting time). There has been a growing interest in the effect the physically built environment can have on people’s active behaviors. The fundamental assumption is that surrounding physical environments can support active behaviors among a large number of people with long-term effects. This topic has received much attention over the last decade, mainly in the three fields of urban design, public health, and transportation. This Special Issue aims to provide multidisciplinary and evidence-based state-of-the-art research on how the locations where people live impact their active behaviors and health outcomes.

body mass --- non-communicable diseases --- step counts --- cycling --- mobility management --- obese --- active living --- health outcomes --- spatial analysis --- natural experiment --- physical environment --- neighbourhood --- review --- policy evaluation --- compact city --- Istanbul --- obesity --- streetscape features --- soft mobility --- Africa --- city planning --- age-friendly environments --- public transport --- survey --- urban health --- neighborhood --- street network configuration --- questionnaire --- Discovery Tool --- built environment --- elderly --- walkable neighborhood --- urban design --- citizen science --- geographic variation --- scale --- health promotion --- walkability --- liveability --- walking --- social connectedness --- sedentary behaviour --- active travel --- sedentary behavior --- overweight --- chronic diseases --- active transport --- walkable environment --- peripheral neighbourhoods --- traffic safety --- physical activity --- older adult --- environment --- urban form --- pedestrian flow --- infrastructure --- aging --- disease mapping --- Australia --- sitting

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In this book, distinguished contributors, including anthropologists, human biologists, physiologists, nutritionists, and clinical scientists, describe many of the new strategies for assessing body composition and physical performance. This volume is suitable for students and professionals in sports nutrition and exercise. It provides a needed link between body composition and physical performance. It will also be useful to workers in sports medicine and ergonomics.

mindfulness in physical activity --- performance --- self-efficacy --- self-monitoring --- youth --- overweight --- competitive sport --- exercise test --- obese --- heart rate --- incremental test --- blood pressure --- older adults --- exercise --- correlation --- foot --- biomechanics --- aerobic training --- singing --- physical fitness --- physical effort of singing --- anthropometry --- BIVA --- body composition --- body shape --- phase angle --- vector length --- aging --- bioelectrical impedance analysis --- elderly --- strength training --- dose-response --- young athletes --- lean mass --- maturation --- performance sensory motor --- sports --- puberty --- team sports --- fat mass --- muscle mass --- elite players --- positional differences --- sand --- talent identification --- self-concept --- physical activities --- lockdown --- COVID-19 --- adolescents --- body fat percentage --- DEXA --- body metrix --- functional capacity --- older people --- functional autonomy assessment --- health --- accelerometer --- sedentary behaviour --- moderate-to-vigorous physical activity --- age --- sex

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Sarcopenia represents the decline in skeletal muscle mass and function with age, characterized by the muscle fiber's quality, strength, muscle endurance, and metabolic ability decreasing, as well as the fat and connective tissue growing.Reduction of muscle strength with aging leads to loss of functional capacity, causing disability, mortality, and other adverse health outcomes. Because of the increase of the proportion of elderly in the population, sarcopenia-related morbidity will become an increasing area of health care resource utilization.Diagnostic screening consists of individuation of body composition, assessed by DEXA, anthropometry, bioelectrical impedance, MRI, or CT scan. Management is possible with resistance training exercise and vibration therapy, nutritional supplements, and pharmacological treatment.The book includes articles from different nationalities, treating the experimental and medical applications of sarcopenia. The consequences of sarcopenia in frailty are treated in relation to other associated pathologies or lesions, as femoral neck fractures and hepatocellular carcinoma.

Medicine --- muscle-mass --- sleep efficiency --- sleep duration --- insomnia --- sarcopenia --- quality of life --- osteoporosis --- postmenopausal women --- sedentary behaviour --- aged --- exercise --- motivation --- hepatoma --- myokine --- decorin --- walking distance --- survival --- muscle strength --- resistance training --- randomized controlled trial --- nutritional status --- nutritional screening tools --- hospitalized older patients --- resistance exercise training --- muscle regulatory factors --- deconditioning --- skeletal muscle --- elderly --- hypertrophy --- multimorbidity --- polypathological patients --- frailty --- oxidative stress --- telomere length --- apoptosis --- spirometry --- urea --- fatigue --- respiratory system --- skeletal muscles --- lipids --- transaminases --- falls --- resistance exercise --- vibration --- electrical stimulation --- hip fracture --- diagnosis --- treatment --- prevention --- dual-energy X-ray absorptiometry --- bisphosphonate --- β-hydroxy-β-methylbutyrate --- exercise intervention --- fall risk --- balance --- anxiety --- depression --- sleep quality --- type 2 diabetes --- physical activity --- muscle mass --- protein intake --- accelerometer --- aerobic exercise training --- mitochondria --- endurance --- fractures --- ageing fractures --- complications --- recovery --- rehabilitation --- nutritional supplements --- physical therapy --- cognition --- brain-body cross-talk --- older persons --- prevalence --- physical functional performance --- epidemiologic studies --- aging --- panoramic ultrasound --- echogenicity --- specific force --- isokinetic dynamometry --- muscle quality --- strength --- older adults --- diagnostic criteria --- clinical

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Sarcopenia represents the decline in skeletal muscle mass and function with age, characterized by the muscle fiber's quality, strength, muscle endurance, and metabolic ability decreasing, as well as the fat and connective tissue growing.Reduction of muscle strength with aging leads to loss of functional capacity, causing disability, mortality, and other adverse health outcomes. Because of the increase of the proportion of elderly in the population, sarcopenia-related morbidity will become an increasing area of health care resource utilization.Diagnostic screening consists of individuation of body composition, assessed by DEXA, anthropometry, bioelectrical impedance, MRI, or CT scan. Management is possible with resistance training exercise and vibration therapy, nutritional supplements, and pharmacological treatment.The book includes articles from different nationalities, treating the experimental and medical applications of sarcopenia. The consequences of sarcopenia in frailty are treated in relation to other associated pathologies or lesions, as femoral neck fractures and hepatocellular carcinoma.

muscle-mass --- sleep efficiency --- sleep duration --- insomnia --- sarcopenia --- quality of life --- osteoporosis --- postmenopausal women --- sedentary behaviour --- aged --- exercise --- motivation --- hepatoma --- myokine --- decorin --- walking distance --- survival --- muscle strength --- resistance training --- randomized controlled trial --- nutritional status --- nutritional screening tools --- hospitalized older patients --- resistance exercise training --- muscle regulatory factors --- deconditioning --- skeletal muscle --- elderly --- hypertrophy --- multimorbidity --- polypathological patients --- frailty --- oxidative stress --- telomere length --- apoptosis --- spirometry --- urea --- fatigue --- respiratory system --- skeletal muscles --- lipids --- transaminases --- falls --- resistance exercise --- vibration --- electrical stimulation --- hip fracture --- diagnosis --- treatment --- prevention --- dual-energy X-ray absorptiometry --- bisphosphonate --- β-hydroxy-β-methylbutyrate --- exercise intervention --- fall risk --- balance --- anxiety --- depression --- sleep quality --- type 2 diabetes --- physical activity --- muscle mass --- protein intake --- accelerometer --- aerobic exercise training --- mitochondria --- endurance --- fractures --- ageing fractures --- complications --- recovery --- rehabilitation --- nutritional supplements --- physical therapy --- cognition --- brain-body cross-talk --- older persons --- prevalence --- physical functional performance --- epidemiologic studies --- aging --- panoramic ultrasound --- echogenicity --- specific force --- isokinetic dynamometry --- muscle quality --- strength --- older adults --- diagnostic criteria --- clinical

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Sarcopenia represents the decline in skeletal muscle mass and function with age, characterized by the muscle fiber's quality, strength, muscle endurance, and metabolic ability decreasing, as well as the fat and connective tissue growing.Reduction of muscle strength with aging leads to loss of functional capacity, causing disability, mortality, and other adverse health outcomes. Because of the increase of the proportion of elderly in the population, sarcopenia-related morbidity will become an increasing area of health care resource utilization.Diagnostic screening consists of individuation of body composition, assessed by DEXA, anthropometry, bioelectrical impedance, MRI, or CT scan. Management is possible with resistance training exercise and vibration therapy, nutritional supplements, and pharmacological treatment.The book includes articles from different nationalities, treating the experimental and medical applications of sarcopenia. The consequences of sarcopenia in frailty are treated in relation to other associated pathologies or lesions, as femoral neck fractures and hepatocellular carcinoma.

Medicine --- muscle-mass --- sleep efficiency --- sleep duration --- insomnia --- sarcopenia --- quality of life --- osteoporosis --- postmenopausal women --- sedentary behaviour --- aged --- exercise --- motivation --- hepatoma --- myokine --- decorin --- walking distance --- survival --- muscle strength --- resistance training --- randomized controlled trial --- nutritional status --- nutritional screening tools --- hospitalized older patients --- resistance exercise training --- muscle regulatory factors --- deconditioning --- skeletal muscle --- elderly --- hypertrophy --- multimorbidity --- polypathological patients --- frailty --- oxidative stress --- telomere length --- apoptosis --- spirometry --- urea --- fatigue --- respiratory system --- skeletal muscles --- lipids --- transaminases --- falls --- resistance exercise --- vibration --- electrical stimulation --- hip fracture --- diagnosis --- treatment --- prevention --- dual-energy X-ray absorptiometry --- bisphosphonate --- β-hydroxy-β-methylbutyrate --- exercise intervention --- fall risk --- balance --- anxiety --- depression --- sleep quality --- type 2 diabetes --- physical activity --- muscle mass --- protein intake --- accelerometer --- aerobic exercise training --- mitochondria --- endurance --- fractures --- ageing fractures --- complications --- recovery --- rehabilitation --- nutritional supplements --- physical therapy --- cognition --- brain-body cross-talk --- older persons --- prevalence --- physical functional performance --- epidemiologic studies --- aging --- panoramic ultrasound --- echogenicity --- specific force --- isokinetic dynamometry --- muscle quality --- strength --- older adults --- diagnostic criteria --- clinical --- muscle-mass --- sleep efficiency --- sleep duration --- insomnia --- sarcopenia --- quality of life --- osteoporosis --- postmenopausal women --- sedentary behaviour --- aged --- exercise --- motivation --- hepatoma --- myokine --- decorin --- walking distance --- survival --- muscle strength --- resistance training --- randomized controlled trial --- nutritional status --- nutritional screening tools --- hospitalized older patients --- resistance exercise training --- muscle regulatory factors --- deconditioning --- skeletal muscle --- elderly --- hypertrophy --- multimorbidity --- polypathological patients --- frailty --- oxidative stress --- telomere length --- apoptosis --- spirometry --- urea --- fatigue --- respiratory system --- skeletal muscles --- lipids --- transaminases --- falls --- resistance exercise --- vibration --- electrical stimulation --- hip fracture --- diagnosis --- treatment --- prevention --- dual-energy X-ray absorptiometry --- bisphosphonate --- β-hydroxy-β-methylbutyrate --- exercise intervention --- fall risk --- balance --- anxiety --- depression --- sleep quality --- type 2 diabetes --- physical activity --- muscle mass --- protein intake --- accelerometer --- aerobic exercise training --- mitochondria --- endurance --- fractures --- ageing fractures --- complications --- recovery --- rehabilitation --- nutritional supplements --- physical therapy --- cognition --- brain-body cross-talk --- older persons --- prevalence --- physical functional performance --- epidemiologic studies --- aging --- panoramic ultrasound --- echogenicity --- specific force --- isokinetic dynamometry --- muscle quality --- strength --- older adults --- diagnostic criteria --- clinical