Programming of body composition by early growth and nutrition.
about
The Elevated Susceptibility to Diabetes in India: An Evolutionary PerspectiveTowards sustainable partnerships in global health: the case of the CRONICAS Centre of Excellence in Chronic Diseases in PeruIn utero Undernutrition Programs Skeletal and Cardiac Muscle MetabolismThe Link between Fetal Programming, Inflammation, Muscular Strength, and Blood PressureInfant nutrition and later health: a review of current evidenceExercise as an intervention to improve metabolic outcomes after intrauterine growth restrictionThe pleiomorphic actions of vitamin D and its importance for childrenDairy and plant based food intakes are associated with altered faecal microbiota in 2 to 3 year old Australian childrenBetween Scylla and Charybdis: renegotiating resolution of the 'obstetric dilemma' in response to ecological changePre and post-natal risk and determination of factors for child obesityChronic disease outcomes after severe acute malnutrition in Malawian children (ChroSAM): a cohort study.Toward body composition reference data for infants, children, and adolescentsAssociation of early childhood abdominal circumference and weight gain with blood pressure at 36 months of age: secondary analysis of data from a prospective cohort study.Relationship between body mass index at age 3 years and body composition at age 11 years among Japanese children: the Shizuoka population-based studyA method for standardizing the fat content of human milk for use in the neonatal intensive care unitQMR: validation of an infant and children body composition instrument using piglets against chemical analysis.The Terneuzen birth cohort: BMI changes between 2 and 6 years correlate strongest with adult overweight.Higher neonatal growth rate and body condition score at 7 months are predictive factors of obesity in adult female Beagle dogs.Commentary: The paradox of body mass index in obesity assessment: not a good index of adiposity, but not a bad index of cardio-metabolic risk.First-borns carry a higher metabolic risk in early adulthood: evidence from a prospective cohort studyMaternal vitamin D status affects bone growth in early childhood--a prospective cohort study.Rapid recovery of fat mass in small for gestational age preterm infants after term.Preschoolers' parent-rated health disparities are strongly associated with measures of adiposity in the Lifeways cohort study children.Early-life determinants of total and HDL cholesterol concentrations in 8-year-old children; the PIAMA birth cohort study.Adaptive variability in the duration of critical windows of plasticity: Implications for the programming of obesity.Body composition analysis in the pediatric populationRapid weight gain in early infancy is associated with adult body fat percentage in young women.Is overweight in stunted preschool children in Cameroon related to reductions in fat oxidation, resting energy expenditure and physical activity?Testing a capacity-load model for hypertension: disentangling early and late growth effects on childhood blood pressure in a prospective birth cohort.Paternal and maternal influences on differences in birth weight between Europeans and Indians born in the UKWeight gain in pregnancy and childhood body composition: findings from the Southampton Women's Survey.Stunting, adiposity, and the individual-level "dual burden" among urban lowland and rural highland Peruvian children.Patterns of glycemia in normal pregnancy: should the current therapeutic targets be challenged?Low birth weight is associated with adiposity, impaired skeletal muscle energetics and weight loss resistance in mice.A web- and mobile phone-based intervention to prevent obesity in 4-year-olds (MINISTOP): a population-based randomized controlled trialBirth weight is associated with body composition in a multiethnic pediatric cohortThe intergenerational effects of war on the health of children.Early life nutrition modulates muscle stem cell number: implications for muscle mass and repair.Relationships of maternal and paternal anthropometry with neonatal body size, proportions and adiposity in an Australian cohort.Influence of pre- and peri-natal nutrition on skeletal acquisition and maintenance.
P2860
Q26741534-FAB9E2AE-FA45-4B50-9B85-D645AFBEC324Q26743692-920ECAA3-FFF2-4309-A31D-6A3DCD4F5A1BQ26771508-86551F30-2F98-48E6-BB0C-694AB2157921Q26778523-B60714AA-88CB-47EA-95D9-510AB058A51BQ26822415-74E73D87-A6F8-4DC9-9619-23FFA5890C39Q27021167-0B07FC25-CF20-4E4B-A24C-31C992D87E1EQ27023112-3967CA9C-1F6A-4EB6-A338-F057CA5B9A91Q28598069-C75D5905-EAD5-40C3-9A50-A75DB894FCE0Q28651568-DD215A79-4BA5-42EB-AEFC-D900583A51D1Q30240172-47B1EA88-5644-4084-A6A9-D973D72C2CFDQ30382186-472B5A12-3886-48BE-9FB3-FF43D596E733Q30820843-2C2D80D5-C5BF-42C2-B2C8-63ECCB5D296AQ30835055-016F6389-0784-4357-B88A-17D566D4C79AQ31063770-D039D61C-412F-4EBA-9577-B6B0892785B3Q33430549-5E03227D-DE83-4812-9B3E-72C97203DEC3Q33523267-E5C443BA-665E-4EE4-BE12-091CC67B8BB7Q33531813-1CD8268B-E8AA-4E00-92BA-3B1084EA1A4CQ33560378-BAB06B7D-ECC6-4D42-8380-0B732F2E4D03Q33736107-C9339E7C-C05C-415D-95C8-B5B7BEAAA2C5Q33750232-9EE24BA3-D5DE-496F-846B-435B2411AE46Q33770529-F1124614-08AA-4F19-B824-C2503089AB91Q33796569-548FCCA7-B5F2-497F-95FB-3217FFE5519DQ33995839-ED2A93F6-83C8-4A25-8B42-55A7A2D2EC2AQ34043333-D86AE5C9-9556-4B1B-9850-20BA302F97CFQ34106685-F588670A-CE39-4D93-A480-18BF6E825BE4Q34132963-DF726C95-EA77-4E7B-B540-B507DD7C1D8CQ34204552-CF5F65D2-E02C-45BE-9A20-92A00C7BD1D9Q34305863-8D6DFB67-BC73-4DD7-AA59-0025CF0712C5Q34584699-A46A047C-2CA0-4FB9-8FC6-F42559679282Q34716902-B6B3F645-A721-4477-8C3B-50D573A8CBECQ34962104-9325AB8A-8133-4E67-BFC9-FF5867CD845DQ35035030-C6CDC1AC-4213-45B3-B5A0-9AA7568E9882Q35060275-B248AF29-F188-43BF-B2C1-514F7259F5D2Q35078383-B6733A59-1C68-4996-B2C5-FE7E98EFD638Q35089588-275F278F-2229-494B-9E12-260001714BC6Q35135192-86DE6A8D-958C-4548-A22E-5B708B0C2A07Q35138090-ABD3A2ED-F8DE-4762-ABB4-D3D6565A0B5DQ35237414-B393E309-54D3-486F-BE19-085465F09A00Q35496150-FD2C1E1A-D205-4D94-9CA5-9B7A708FF22BQ35535590-1FF9D152-4F1B-4E29-B82C-0AC45641175E
P2860
Programming of body composition by early growth and nutrition.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Programming of body composition by early growth and nutrition.
@en
type
label
Programming of body composition by early growth and nutrition.
@en
prefLabel
Programming of body composition by early growth and nutrition.
@en
P2093
P2860
P1476
Programming of body composition by early growth and nutrition.
@en
P2093
Jonathan C K Wells
Mary S Fewtrell
Sirinuch Chomtho
P2860
P304
P356
10.1017/S0029665107005691
P577
2007-08-01T00:00:00Z