| scholarly article | Q13442814 |
| meta-analysis | Q815382 |
| P6179 | Dimensions Publication ID | 1011304918 |
| P356 | DOI | 10.1007/S40279-014-0196-4 |
| P698 | PubMed publication ID | 24788950 |
| P5875 | ResearchGate publication ID | 262024761 |
| P50 | author | Jordan J Smith | Q57320024 |
| Narelle Eather | Q94603537 | ||
| David R. Lubans | Q37829338 | ||
| Ronald C. Plotnikoff | Q43273951 | ||
| P2093 | author name string | Philip J Morgan | |
| Avery D Faigenbaum | |||
| P2860 | cites work | The CONSORT statement: revised recommendations for improving the quality of reports of parallel group randomized trials | Q24799154 |
| Trim and fill: A simple funnel-plot-based method of testing and adjusting for publication bias in meta-analysis | Q27860511 | ||
| Measuring inconsistency in meta-analyses | Q27860655 | ||
| Physical fitness in childhood and adolescence: a powerful marker of health | Q28258938 | ||
| Lean body mass and leg power best predict bone mineral density in adolescent girls | Q30824709 | ||
| Determinants of bone mass and bone geometry in adolescent and young adult women | Q30835441 | ||
| Bone Mass of Asian Adolescents in China: Influence of Physical Activity and Smoking | Q31142304 | ||
| Determinants of axial and peripheral bone mass in Chinese adolescents. | Q32035914 | ||
| Enhanced bone mass and physical fitness in prepubescent footballers | Q33195110 | ||
| Association between bone, body composition and strength in premenarcheal girls and postmenopausal women | Q33203886 | ||
| Enhanced bone mass and physical fitness in young female handball players. | Q33208934 | ||
| Positive, site-specific associations between bone mineral status, fitness, and time spent at high-impact activities in 16- to 18-year-old boys | Q33211091 | ||
| Association between bone mass and fractures in children: a prospective cohort study | Q33255693 | ||
| Weight-bearing, muscle loading and bone mineral accrual in pubertal girls--a 2-year longitudinal study | Q33270585 | ||
| Tracking of fatness during childhood, adolescence and young adulthood: a 7-year follow-up study in Madeira Island, Portugal. | Q50668469 | ||
| Tracking of health and risk indicators of cardiovascular diseases from teenager to adult: Amsterdam Growth and Health Study. | Q50797721 | ||
| At what age does low back pain become a common problem? A study of 29,424 individuals aged 12-41 years. | Q50906863 | ||
| Bone mineral density, muscle strength and physical activity. A population-based study of 332 subjects aged 15-42 years. | Q50953000 | ||
| Physical fitness of primary school children in relation to overweight prevalence and physical activity habits. | Q50963416 | ||
| Epidemiological aspects and risk factors for low back pain in 38-year-old men and women: a 25-year prospective cohort study of 640 school children. | Q50992935 | ||
| Physical fitness of normal, stunted and overweight children 6-13 years in Oaxaca, Mexico. | Q51044667 | ||
| Combined influence of cardiorespiratory fitness and body mass index on cardiovascular disease risk factors among 8-18 year old youth: The Aerobics Center Longitudinal Study. | Q51464474 | ||
| Association of biopsychosocial factors with degree of slump in sitting posture and self-report of back pain in adolescents: a cross-sectional study. | Q51500491 | ||
| Associations of muscular and cardiorespiratory fitness with total and central body fat in adolescents: the HELENA study. | Q51618608 | ||
| Relationships between physical activity and physical capacity in adolescent females and bone mass in adulthood. | Q51775814 | ||
| A 3-year longitudinal analysis of changes in fitness, physical activity, fatness and screen time. | Q51804062 | ||
| Aerobic fitness and neurocognitive function in healthy preadolescent children. | Q51987251 | ||
| Physical fitness, body fatness, and physical activity: The Amsterdam Growth and Health Study. | Q52055883 | ||
| Correlates and determinants of bone mineral content and density in healthy adolescent girls. | Q52221337 | ||
| Secular trends in anthropometric characteristics, physical fitness, physical activity, and biological maturation in Flemish adolescents between 1969 and 2005. | Q53197228 | ||
| [Low level of physical fitness in Spanish adolescents. Relevance for future cardiovascular health (AVENA study)]. | Q53974078 | ||
| The Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) Statement: Guidelines for reporting observational studies | Q56529982 | ||
| Effect of Physical Education and Activity Levels on Academic Achievement in Children | Q56610690 | ||
| Muscular fitness, body composition and physical self-perception in adolescents | Q57530569 | ||
| Secular trends in muscular fitness among Finnish adolescents | Q57800656 | ||
| Motor fitness in Dutch youth: Differences over a 26-year period (1980–2006) | Q57814554 | ||
| Muscular and cardiorespiratory fitness are independently associated with metabolic risk in adolescents: the HELENA study | Q57879063 | ||
| Physical fitness levels among European adolescents: the HELENA study | Q57879074 | ||
| Health-related fitness in adolescents: underweight, and not only overweight, as an influencing factor. The AVENA study | Q57879104 | ||
| El perfil lipídico-metabólico en los adolescentes está más influido por la condición física que por la actividad física (estudio AVENA) | Q57879149 | ||
| Objectively-measured and self-reported physical activity and fitness in relation to inflammatory markers in European adolescents: The HELENA Study | Q57891181 | ||
| Inflammatory Proteins and Muscle Strength in Adolescents | Q57892503 | ||
| Associations of physical activity and fitness with adipocytokines in adolescents: The AFINOS study | Q59526714 | ||
| Children with low muscle strength are at an increased risk of fracture with exposure to exercise | Q60720064 | ||
| Association Between Back Pain and Physical Fitness in Adolescents | Q61633635 | ||
| Muscular fitness and clustered cardiovascular disease risk in Australian youth | Q61861583 | ||
| Ten-year secular changes in muscular fitness in English children. | Q63254277 | ||
| Ten year secular declines in the cardiorespiratory fitness of affluent English children are largely independent of changes in body mass index | Q63254279 | ||
| Peak bone mass and osteoporosis prevention | Q70730266 | ||
| Association of somatotype and body composition to physical performance in 7-12 year-old-girls | Q71246207 | ||
| Age, sex, and body composition as predictors of children's performance on basic motor abilities and health-related fitness items | Q71715855 | ||
| Fatness and Physical Fitness of Girls 7 to 17 Years | Q71938939 | ||
| Changes in physical activity are reflected in changes in fitness during late adolescence. A 2-year follow-up study | Q71979581 | ||
| Physical fitness of obese school children in Hat Yai, southern Thailand | Q72544539 | ||
| Leisure time physical activity in the young. Correlation with low-back pain, spinal mobility and trunk muscle strength in 15-year-old school children | Q72618412 | ||
| Low back pain and its relationship to back strength and physical activity in children | Q72992442 | ||
| The relation between bone mineral density, insulin-like growth factor I, lipoprotein (a), body composition, and muscle strength in adolescent males | Q72992730 | ||
| Secular trends in body dimensions and physical fitness among adolescents in Sweden from 1974 to 1995 | Q73138095 | ||
| Association of Coronary Heart Disease Risk Factors with microscopic qualities of coronary atherosclerosis in youth | Q74045324 | ||
| Risk factors for the development of low back pain in adolescence | Q74101272 | ||
| Determinants of self-reported neck-shoulder and low back symptoms in a general population | Q74218380 | ||
| Relationships between physical activity, physical fitness, muscle strength and nutritional state in 5- to 11-year-old children | Q74311398 | ||
| Approaching healthy body mass index norms for children and adolescents from health-related physical fitness | Q74581057 | ||
| Adolescent determinants of cardiovascular risk factors in adult men and women | Q77074034 | ||
| Age, sex, and body mass index in performance of selected locomotor and fitness tasks by children in grades K-2 | Q77741673 | ||
| Axial and peripheral bone mineral acquisition: a 3-year longitudinal study in Chinese adolescents | Q77909635 | ||
| The association between low physical fitness and high body mass index or waist circumference is increasing with age in children: the 'Québec en Forme' Project | Q79151058 | ||
| Muscle function in Saudi children and adolescents: relationship to anthropometric characteristics during growth | Q79891616 | ||
| Effects of home- and university-based programs on physical self-perception in mothers and daughters | Q80059512 | ||
| Exercise training normalizes vascular dysfunction and improves central adiposity in obese adolescents | Q80092190 | ||
| Regular participation in sports is associated with enhanced physical fitness and lower fat mass in prepubertal boys | Q80433368 | ||
| Relationship between indicators of fitness and bone density in adolescent Brazilian children | Q80949868 | ||
| Strength training recommendations for the young athlete | Q81037181 | ||
| Correlates of upper and lower body muscular strength in children | Q81434563 | ||
| The relationship among physical activity, motor competence and health-related fitness in 14-year-old adolescents | Q81768465 | ||
| Health fitness training responses of normotensive and elevated normotensive children | Q83086483 | ||
| Eight weeks of resistance training can significantly alter body composition in children who are overweight or obese | Q83160100 | ||
| Obesity, fitness and health in Taiwanese children and adolescents | Q83995746 | ||
| Fitness levels of Greek primary schoolchildren in relationship to overweight and obesity | Q83996124 | ||
| Body mass index and individual physical fitness tests in Taiwanese youth aged 9-18 years | Q84131295 | ||
| The relationship between back muscle endurance and physical, lifestyle, and psychological factors in adolescents | Q84318120 | ||
| The relationship between physical activity and physical self-esteem in adolescents: the role of physical fitness indices | Q86109843 | ||
| Trends in physical activity and inactivity amongst US 14-18 year olds by gender, school grade and race, 1993-2003: evidence from the youth risk behavior survey | Q95786394 | ||
| Influence of body composition, muscle strength, diet and physical activity on total body and forearm bone mass in Chinese adolescent girls | Q33291279 | ||
| Eight months of regular in-school jumping improves indices of bone strength in adolescent boys and Girls: the POWER PE study | Q33321300 | ||
| Physical fitness effect on bone mass is mediated by the independent association between lean mass and bone mass through adolescence: a cross-sectional study | Q33333560 | ||
| Effect of fitness and physical activity on bone mass in adolescents: the HELENA Study | Q33843459 | ||
| Epidemiology of health and illness | Q33853563 | ||
| A review of correlates of physical activity of children and adolescents | Q33906193 | ||
| Exercise: a behavioral intervention to enhance brain health and plasticity | Q33959877 | ||
| Influence of muscle fitness test performance on metabolic risk factors among adolescent girls | Q33991761 | ||
| Changes in vertebral bone density in black girls and white girls during childhood and puberty | Q34017533 | ||
| Physical fitness, activity, and insulin dynamics in early pubertal children | Q34052166 | ||
| Secular trends in the performance of children and adolescents (1980-2000): an analysis of 55 studies of the 20m shuttle run test in 11 countries | Q34189860 | ||
| The epidemiology of chronic pain in children and adolescents revisited: a systematic review | Q34231972 | ||
| Is physical activity or physical fitness more important in defining health benefits? | Q34294100 | ||
| Secular changes in aerobic fitness test performance of Australasian children and adolescents | Q34612502 | ||
| What is the effect of resistance training on the strength, body composition and psychosocial status of overweight and obese children and adolescents? A Systematic review and meta-analysis | Q34752430 | ||
| Effect of an individualised training programme during weight reduction on body composition: a randomised trial | Q35265300 | ||
| Predicting maintenance or achievement of healthy weight in children: the impact of changes in physical fitness | Q35737272 | ||
| Strong inverse association between physical fitness and overweight in adolescents: a large school-based survey | Q35846939 | ||
| Resistance training among young athletes: safety, efficacy and injury prevention effects | Q36353118 | ||
| Muscular strength in male adolescents and premature death: cohort study of one million participants | Q36413345 | ||
| How does exercise affect bone development during growth? | Q36516844 | ||
| Understanding and addressing the epidemic of obesity: an energy balance perspective | Q36661305 | ||
| A Mediterranean diet is not enough for health: Physical fitness is an important additional contributor to health for the adults of tomorrow. | Q36682566 | ||
| Association between muscular strength and mortality in men: prospective cohort study. | Q36755864 | ||
| Secular changes in pediatric aerobic fitness test performance: the global picture | Q36771168 | ||
| Adolescent flexibility, endurance strength, and physical activity as predictors of adult tension neck, low back pain, and knee injury: a 25 year follow up study | Q36801723 | ||
| Predictive validity of health-related fitness in youth: a systematic review. | Q37374019 | ||
| The Relation between Aerobic Fitness, Muscular Fitness, and Obesity in Children from Three Countries at Different Stages of the Physical Activity Transition | Q37515310 | ||
| Maximizing bone mineral mass gain during growth for the prevention of fractures in the adolescents and the elderly | Q37617740 | ||
| Field-based fitness assessment in young people: the ALPHA health-related fitness test battery for children and adolescents. | Q37801754 | ||
| Fundamental movement skills in children and adolescents: review of associated health benefits | Q37807977 | ||
| Interaction of genetic and environmental influences on peak bone density | Q37845149 | ||
| Integrative training for children and adolescents: techniques and practices for reducing sports-related injuries and enhancing athletic performance | Q37850237 | ||
| Physical activity and mental health in children and adolescents: a review of reviews | Q37909758 | ||
| Position statement on youth resistance training: the 2014 International Consensus | Q38140487 | ||
| Ethnic and genetic differences in bone mass: a review with a hereditary vs environmental perspective | Q38736439 | ||
| Body mass index, calcium intake, and physical activity affect calcaneal ultrasound in healthy Greek males in an age-dependent and parameter-specific manner | Q38886486 | ||
| The significance of high lumbar mobility and low lumbar strength for current and future low back pain in adolescents | Q39586805 | ||
| The association of physical activity and physical fitness with pre-adolescent obesity: an observational study in Metromanila, Philippines | Q39718835 | ||
| Adiposity, physical activity, and physical fitness among children from Aragón, Spain | Q39809551 | ||
| Fitness, motor competence, and body composition are weakly associated with adolescent back pain | Q39974598 | ||
| Health-related fitness in school children: compliance with physical activity recommendations and its relationship with body mass index and diet quality. | Q39995935 | ||
| The effect of high-intensity progressive resistance training on adiposity in children: a randomized controlled trial | Q40122788 | ||
| Childhood lipoprotein profiles and implications for adult coronary artery disease: the Bogalusa Heart Study | Q40383877 | ||
| Relationship of Somatotype and Body Composition to Physical Performance in 7- to 12-Year-Old Boys | Q40483786 | ||
| Increases in physical fitness during childhood improve cardiovascular health during adolescence: the Muscatine Study | Q40640295 | ||
| Low back pain in the young. A prospective three-year follow-up study of subjects with and without low back pain | Q40970054 | ||
| Physical activity, exercise, and physical fitness: definitions and distinctions for health-related research | Q41852007 | ||
| Effects of resistance training on insulin sensitivity in overweight Latino adolescent males | Q43505284 | ||
| Describing weight status and fitness in a community sample of children attending after-school programming. | Q43634218 | ||
| Relationships between skinfold thickness and performance of health related fitness test items | Q43750227 | ||
| Relationship between body composition measures and AAHPER test performances in young boys | Q43852105 | ||
| Physical fitness and physical activity during adolescence as predictors of cardiovascular disease risk in young adulthood. Danish Youth and Sports Study. An eight-year follow-up study | Q43994777 | ||
| Health-related fitness and academic achievement in middle school students | Q44076564 | ||
| Muscle strength in youth and cardiovascular risk in young adulthood (the European Youth Heart Study). | Q44084365 | ||
| Relationship of nutrition and physical activity behaviors and fitness measures to academic performance for sixth graders in a midwest city school district | Q44283612 | ||
| The impact of a 12-week resistance training program on strength, body composition, and self-concept of Hispanic adolescents | Q44399345 | ||
| Spinal mobility and trunk muscle strength in 15-year-old schoolchildren with and without low-back pain | Q44445328 | ||
| Physical inactivity is a risk factor for physical activity-related injuries in children | Q44656874 | ||
| Secular trends in health-related physical fitness in Spanish adolescents: the AVENA and HELENA studies | Q44795408 | ||
| Adiposity, aerobic fitness, muscle fitness, and markers of inflammation in children | Q45208291 | ||
| Muscular fitness, fatness and inflammatory biomarkers in adolescents | Q45225582 | ||
| Relationship of body mass index and fitness levels among schoolchildren | Q45259507 | ||
| Relationship of physical fitness to prevalence and incidence of overweight among schoolchildren | Q45297948 | ||
| Aerobic fitness and cognitive development: Event-related brain potential and task performance indices of executive control in preadolescent children | Q45423199 | ||
| Low muscle fitness is associated with metabolic risk in youth. | Q45974119 | ||
| Habitual physical activity and health-related physical fitness in fourth-grade children. | Q46002997 | ||
| Associations between aerobic and muscular fitness and cardiovascular disease risk: the northern Ireland young hearts study. | Q46020773 | ||
| Relations of body fatness and cardiovascular fitness to lipid profile in black and white adolescents. | Q46477597 | ||
| The association of physical fitness with body mass index and waist circumference in Filipino preadolescents | Q46819508 | ||
| Muscular strength and cardiorespiratory fitness is associated with higher insulin sensitivity in children and adolescents | Q46973317 | ||
| Percentile values for muscular strength field tests in children aged 6 to 17 years: influence of weight status. | Q47172312 | ||
| Physical fitness in adolescents with normal weight and overweight | Q47289145 | ||
| Physical activity, fitness, weight status, and cognitive performance in adolescents | Q47421440 | ||
| Physical self-perception and motor performance in normal-weight, overweight and obese children | Q47446514 | ||
| Associations of muscular fitness with psychological positive health, health complaints, and health risk behaviors in Spanish children and adolescents | Q48270149 | ||
| Physical fitness and academic achievement in third- and fifth-grade students | Q48396767 | ||
| Physical fitness and physical activity in obese and nonobese Flemish youth | Q49032662 | ||
| Isometric endurance of the back extensors in school-aged adolescents with and without low back pain. | Q50606509 | ||
| P433 | issue | 9 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | systematic review | Q1504425 |
| meta-analysis | Q815382 | ||
| teenager | Q1492760 | ||
| P304 | page(s) | 1209-1223 | |
| P577 | publication date | 2014-09-01 | |
| P1433 | published in | Sports Medicine | Q15762097 |
| P1476 | title | The health benefits of muscular fitness for children and adolescents: a systematic review and meta-analysis | |
| P478 | volume | 44 |
| Q58719657 | A Meta-Analysis to Determine Strength Training Related Dose-Response Relationships for Lower-Limb Muscle Power Development in Young Athletes |
| Q39987382 | A methodological approach to short-term tracking of youth physical fitness: the Oporto Growth, Health and Performance Study. |
| Q36110617 | A non-equivalent group pilot trial of a school-based physical activity and fitness intervention for 10-11 year old english children: born to move |
| Q30389907 | A school-based intervention incorporating smartphone technology to improve health-related fitness among adolescents: rationale and study protocol for the NEAT and ATLAS 2.0 cluster randomised controlled trial and dissemination study |
| Q57286060 | A systematic review on the effects of resistance and plyometric training on physical fitness in youth- What do comparative studies tell us? |
| Q40997611 | Adiposity, physical activity and neuromuscular performance in children |
| Q89682533 | Are There Any Differences between First Grade Boys and Girls in Physical Fitness, Physical Activity, BMI, and Sedentary Behavior? Results of HCSC Study |
| Q27303643 | Assessing the sustained impact of a school-based obesity prevention program for adolescent boys: the ATLAS cluster randomized controlled trial |
| Q53441326 | Assessment of handgrip strength in preschool children aged 3 to 5 years. |
| Q47866135 | Associations between physical activity, screen time, and fitness among 6- to 10-year-old children living in Edmonton, Canada |
| Q28543029 | BMI as a mediator of the relationship between muscular fitness and cardiometabolic risk in children: a mediation analysis |
| Q92748822 | Cardiorespiratory fitness, muscular fitness and mental health in older adolescents: A multi-level cross-sectional analysis |
| Q88610760 | Changes in muscular fitness and its association with blood pressure in adolescents |
| Q57778705 | Chiropractic in Global Health and wellbeing: a white paper describing the public health agenda of the World Federation of Chiropractic |
| Q38531866 | Citius, Altius, Fortius: beneficial effects of resistance training for young athletes: Narrative review |
| Q64244347 | Determinants of Diet and Physical Activity in Malaysian Adolescents: A Systematic Review |
| Q33441092 | Development and implementation of a smartphone application to promote physical activity and reduce screen-time in adolescent boys |
| Q47838470 | Effect of Physically Active Academic Lessons on Body Mass Index and Physical Fitness in Primary School Children |
| Q33855262 | Effectiveness of Traditional Strength vs. Power Training on Muscle Strength, Power and Speed with Youth: A Systematic Review and Meta-Analysis. |
| Q26744726 | Effects of Resistance Training in Youth Athletes on Muscular Fitness and Athletic Performance: A Conceptual Model for Long-Term Athlete Development |
| Q92871519 | Effects of the FIT Game on Physical Activity in Sixth Graders: A Pilot Reversal Design Intervention Study |
| Q93060135 | Energy balance-related factors associating with adolescent weight loss intent: evidence from the 2017 National Youth Risk Behavior Survey |
| Q33631213 | Exercise Modality Is Differentially Associated with Neurocognition in Older Adults |
| Q36294455 | Factor structure and internal reliability of an exercise health belief model scale in a Mexican population |
| Q97529025 | Fitness and Fatness as Health Markers through the Lifespan: An Overview of Current Knowledge |
| Q90481554 | Fitness and academic performance in adolescents. The mediating role of leptin: DADOS study |
| Q36307559 | Growth Charts for Muscular Strength Capacity With Quantile Regression |
| Q52660682 | Handgrip Strength and Blood Pressure in Children and Adolescents: Evidence from NHANES 2011-2014. |
| Q37640222 | Handgrip strength cutoff for cardiometabolic risk index among Colombian children and adolescents: The FUPRECOL Study. |
| Q48106119 | Handgrip strength is associated with insulin resistance and glucose metabolism in adolescents: Evidence from National Health and Nutrition Examination Survey 2011 to 2014. |
| Q58758429 | Impact of Exergaming on Children's Motor Skill Competence and Health-Related Fitness: A Quasi-Experimental Study |
| Q50554802 | Improving health-related fitness in adolescents: the CrossFit Teens™ randomised controlled trial. |
| Q93167709 | Inflammatory markers and bone mass in children with overweight/obesity: the role of muscular fitness |
| Q40921750 | Influence of physical fitness on cardio-metabolic risk factors in European children. The IDEFICS study |
| Q34481165 | International Olympic Committee consensus statement on youth athletic development |
| Q55347460 | Link between Motor Competence and Health Related Fitness in Children and Adolescents. |
| Q47900659 | Long-term effects of physically active academic lessons on physical fitness and executive functions in primary school children |
| Q36370132 | Longitudinal association between preschool fussy eating and body composition at 6 years of age: The Generation R Study |
| Q47368754 | Low-grade inflammation and muscular fitness on insulin resistance in adolescents: Results from LabMed Physical Activity Study |
| Q59806842 | Lower Performance in the Six-Minute Walk Test in Obese Youth With Cardiometabolic Risk Clustering |
| Q92006406 | MOVI-daFIT! Intervention: Rationale and design of a cluster randomized controlled trial testing the effects on improving adiposity, cognition, and subclinical atherosclerosis by increasing cardiorespiratory fitness in children |
| Q39283843 | Motor fitness and preschooler children obesity status. |
| Q99415649 | Motor performance and back pain in children and adolescents: a systematic review and meta-analysis protocol |
| Q28078124 | Muscle Strength and Fitness in Pediatric Obesity: a Systematic Review from the European Childhood Obesity Group |
| Q40713032 | Muscular Grip Strength Estimates of the U.S. Population from the National Health and Nutrition Examination Survey 2011-2012. |
| Q61802426 | Muscular fitness and cardiorespiratory fitness are associated with health-related quality of life: Results from labmed physical activity study |
| Q48200015 | Muscular fitness and metabolic and inflammatory biomarkers in adolescents: Results from LabMed Physical Activity Study |
| Q47228170 | Muscular fitness, Southern European Atlantic Diet and inflammation in adolescents. Azorean Physical Activity and Health Study II. |
| Q61439592 | Optimal Adherence to a Mediterranean Diet May Not Overcome the Deleterious Effects of Low Physical Fitness on Cardiovascular Disease Risk in Adolescents: A Cross-Sectional Pooled Analysis |
| Q55278826 | Optimal Adherence to a Mediterranean Diet and High Muscular Fitness Are Associated with a Healthier Cardiometabolic Profile in Collegiate Students. |
| Q98386622 | Percentile values of the standing broad jump in children and adolescents aged 6-18 years old |
| Q40736313 | Physical Activity and Fitness of First Nations Youth in a Remote and Isolated Northern Ontario Community: A Needs Assessment |
| Q36257658 | Physical Fitness Percentiles of German Children Aged 9-12 Years: Findings from a Longitudinal Study |
| Q90399090 | Physical Fitness and Peer Relationships in Spanish Preadolescents |
| Q97904877 | Physical fitness and white matter microstructure in children with overweight or obesity: the ActiveBrains project |
| Q60046128 | Poor Skeletal Robustness on Lower Extremities and Weak Lean Mass Development on Upper Arm and Calf: Normal Weight Obesity in Middle-School-Aged Children (9 to 12) |
| Q47290360 | Prevalence and correlates of resistance training skill competence in adolescents |
| Q95841210 | Primary Prevention: No Associations of Strength and Cardiorespiratory Fitness Status With Arterial Stiffness in Young School Children |
| Q90454528 | Profile Resemblance in Health-Related Markers: The Portuguese Sibling Study on Growth, Fitness, Lifestyle, and Health |
| Q91585112 | Prophylactic pinning should be considered in patients at risk for slipped capital femoral epiphysis |
| Q89447396 | Relation between physical fitness and executive function variables in a preschool sample |
| Q91585100 | Relationship between exercise time and musculoskeletal problems in children |
| Q58712760 | Relationships Between Accuracy in Predicting Direction of Gravitational Vertical and Academic Performance and Physical Fitness in Schoolchildren |
| Q39266612 | Resistance Training in Youth: Laying the Foundation for Injury Prevention and Physical Literacy |
| Q39421029 | Roles of Vitamins D and K, Nutrition, and Lifestyle in Low-Energy Bone Fractures in Children and Young Adults |
| Q35914737 | Screen-based sedentary behavior and associations with functional strength in 6-15 year-old children in the United States |
| Q36152701 | Strong or Weak Handgrip? Normative Reference Values for the German Population across the Life Course Stratified by Sex, Age, and Body Height |
| Q38265028 | Systematic review and proposal of a field-based physical fitness-test battery in preschool children: the PREFIT battery |
| Q91596713 | The Effect of Resistance Training Interventions on 'The Self' in Youth: a Systematic Review and Meta-analysis |
| Q90123358 | The Longitudinal Associations of Fitness and Motor Skills with Academic Achievement |
| Q56643373 | The NBA and Youth Basketball: Recommendations for Promoting a Healthy and Positive Experience |
| Q64077514 | The association between physical fitness and health in a nationally representative sample of Canadian children and youth aged 6 to 17 years |
| Q58765556 | The effect of resistance training interventions on weight status in youth: a meta-analysis |
| Q91782348 | The relationship between screen-based sedentary behaviors and symptoms of depression and anxiety in youth: a systematic review of moderating variables |
| Q90642031 | The role of age, sex, anthropometry, and body composition as determinants of physical fitness in nonobese children aged 6-12 |
| Q54996520 | Tracking of Physical Fitness of Primary School Children in Trier: A 4-Year Longitudinal Study. |
| Q27311270 | Two years of school-based intervention program could improve the physical fitness among Ecuadorian adolescents at health risk: subgroups analysis from a cluster-randomized trial |
| Q50753943 | Validity of field assessments to predict peak muscle power in preschoolers. |
| Q64243745 | What Do We Know about Diet and Markers of Cardiovascular Health in Children: A Review |
Search more.