手腕部与膝部骨龄之间的差异

本文分别用Fels和RWT法评定了4902对2—17岁儿童青少年的手腕部和膝部骨龄。男女各年龄组骨龄的平均绝对差值为0.34—0.87岁,标准差为0.31—0.68岁。8—11岁前,这两个值往往随年龄增加;14岁前,男性一般大于女性。最大差值范围为1.45—2.99岁,其年龄变化往往不规律,但11岁前(男)和9岁前(女)常常增加。手腕部和膝部骨龄之间所存在的较大的绝对差值不能完全用观察误差加以解释。两部位的骨龄不能互相替代。所以,用骨龄预测成人身高和确定干骺固定术的时间,至少在5％的儿童中明显地受到骨龄部位的影响。     

湖南土家族成人的皮褶厚度和体成分分析

本项目采用人体测量法,测量了976名（男性528人,女性448人）湖南土家族成人的身高、体质量以及肱三头肌、肩胛下、髂前上和小腿内侧皮褶的厚度,并根据公式计算体密度、体脂率、脂肪质量、脂肪质量指数、瘦体质量和瘦体质量指数。结果显示随年龄增长,小腿内侧皮褶厚度值逐渐减小,肱三头肌、肩胛下和髂前上棘皮褶以及体脂率、脂肪质量、瘦体质量、体质量指数、脂肪质量指数和瘦体质量指数值先增大后减小,体密度值先减小后增大;各年龄组中体密度、瘦体质量及其指数值女性明显低于男性,4项皮褶厚度值以及体脂率、脂肪质量及其指数值女性高于男性;与布朗族等24个族群比较,湖南土家族成人皮褶厚度处于中等水平,与门巴族、珞巴族、僜人、彝族等族群的亲缘关系较近。     

鄂西青少年体质发育初步研究

目前,研究青少年体质发育的方法较多,作者试图用逐步回归分析法对此作些研究。 按照我国正常儿童青少年体格发育调查研究实施方案(儿童体格发育调查研究工作学习班,1976)和活体测量方法(黄新美,1983)的有关规定,对鄂西7—17岁的1533名青少年(男863人,女670人)进行了直接测量:1.身高;2.体重;3.上肢长;4.下肢长(由地面至大转子尖的距离)(靳仕信,1981);5.上半身长(身高—下肢长);6.上半身长与下肢长的比值。以上各项均值和标准差见表1.另外,还计算了下肢长指数（下肢长/身高×100）和上半身长指数（上半身长/身高×100）。将以上数据按性别、年龄逐个输入AppleII电子计算机（Basic语言）,对数据进行分析处理,用回归分析法（上海第二医学院数学教研室,1979;杨树勤,1985）分析青少年体重的变化与年龄、身高等七个因素的相关关系（见表2）,并对已进入方程式中的各项指标进行反复检查,最后,建立了推算青少年体重变化与年龄、身高的多元回归方程。     

武陵山区苗族儿童少年体质发育

为了探讨武陵山区苗族儿童少年体质发育特征及其规律。本文采用人体测量学的方法 , 对武陵山区苗族儿童少年17项体质发育指标进行测量, 计算11项体质指数。结果表明: 1)苗族儿童少年生长发育的各项指标均值随年龄的增长而增加; 2)苗族男女性的生长发育曲线呈上升趋势并且有交叉现象; 3)苗族男性的身高突增年龄为12-14岁, 女性则为11-13岁; 4)苗族学生的身高均值低于同龄其他民族学生; 5)苗族学生的体质指数年龄变化规律与其他民族基本相似, 但身体各部分的发育程度不相同; 6)苗族学生的维尔维克指数均值高于同龄马山壮族学生。研究显示苗族儿童少年体质发育符合一般生长发育规律, 并有性别差异, 苗族男女生的体质发育相对落后于汉族等其他民族。     

中国高身材青少年的地区分布特点及体质现状研究

利用“１９９１年全国学生体质健康监测”中１３—２２岁汉族男女城乡１１４４３１名中小学生的资料,按马丁身高分类标准划分不同身高段。分析其中高身材者（男＞１８０ｃｍ、女＞１６８ｃｍ）的人群地区分布特点。通过与同龄一般身高段青少年的比较,在探讨高身材青少年体型、体力潜在优势的同时,分析了他们在体格和运动素质方面的不足,就此提出干预建议。     

黎族人的瘦体与脂肪质量指数

2014年11月在海南省五指山市5个黎族村寨测量了607例(男为308例,女为299例)黎族人体质量、身高等6项体成分指标值,计算了黎族人的体脂率(P_(bf))、瘦体质量(m_l)、脂肪质量(m_f)、瘦体质量指数(I_(lm))、脂肪质量指数(I_(fm))。研究发现,女性体脂率、脂肪质量、脂肪质量指数都明显大于男性,瘦体质量、瘦体质量指数均明显小于男性。随年龄增长,黎族人身高、瘦体质量逐渐减小,体脂率、脂肪质量、脂肪质量指数逐渐增大。受试者特征曲线显示身体质量指数、脂肪质量指数都可以适宜评价黎族人的体脂率,而且脂肪质量指数对体脂率的估算准确性比身体质量指数更高。这也提示脂肪质量指数是比身体质量指数评价肥胖更好的指标。     

第二掌骨长度与身高

本文通过对青藏高原海拔3000—4000米地区藏族、汉族7—18岁青少年1468人第二掌骨长度与身高的调查,探讨了二者的内在联系及规律。结果表明:第二掌骨长度与身高的增长近乎平行趋势,该二者之间存在着较高程度的正相关。第二掌骨长度/身高指数比较恒定,以第二掌骨长度推算身高是简便可行的。     

2016-2017年中国12-17岁儿童青少年能量及宏量营养素摄入状况

目的：分析2016—2017年中国12～17岁儿童青少年能量及宏量营养素摄入状况,为引导中国12~17岁儿童平衡膳食和合理营养提供科学依据。 方法：数据来源于2016—2017年中国儿童与乳母营养健康监测数据,采用多阶段分层随机抽样方法,在全国31省抽取275个监测点开展营养健康监测。膳食调查采用连续3 d 24 h膳食回顾法收集食物摄入信息,采用食物秤称重记录家庭或学校食堂连续3 d食用油和调味品的摄入量,依据《中国食物成分表》计算能量和三大宏量营养素的摄入量。结果：2016—2017年中国12～17岁儿童青少年膳食能量、碳水化合物、脂肪和蛋白质的平均每人日摄入量分别为1 995.0 kcal、253.8 g、84.5 g、61.4 g。碳水化合物、脂肪和蛋白质的供能比分别为50.6%、37.1%、12.3%。72.9%的儿童青少年脂肪供能比高于推荐值30%、48.0%的儿童青少年碳水化合物供能比低于推荐值50%、22.6%的儿童青少年蛋白质供能比低于推荐值10%。儿童青少年膳食脂肪来源于食用油、动物性食物和植物性食物的比例分别为43.9%、36.6%、19.6%。12～17岁儿童青少年平均每人日膳食能量、碳水化合物、脂肪和蛋白质的摄入量均随年龄的增长而增加,男生高于女生,能量、蛋白质和脂肪摄入量存在城乡差异,城市高于农村（P<0.01）。城市儿童青少年蛋白质供能比达到中国居民膳食宏量营养素可接受范围（AMDR）的比例高于农村（P<0.01）。结论：中国12～17岁儿童青少年每人日膳食能量基本满足,三大宏量营养素供能比不合理。能量、蛋白质和脂肪摄入量存在城乡差异,农村儿童脂肪供能比增幅过快亟待关注。     

西藏藏族青少年体型

为了探讨藏族青少年体型发育特征及其规律, 本文应用Heath-Carter体型法对2530名藏族青少年体型进行评价。结果发现, 藏族青少年的平均体型男性为偏中胚层的外胚层型(2.40—3.29—3.72),女性为中间型(3.65—2.87—3.32); 男性的体型以外胚层系体型为主(58.52%), 女性体型以内胚层系(32.62%)和外胚层系为主(35.40%); 随着年龄的增长, 藏族青少年的体型发展有一定的规律, 男性由中胚层-外胚层均衡型经偏中胚层的外胚层型又发展回中胚层-外胚层均衡型, 女性由中胚层-外胚层均衡型经历均衡的外胚层型发展为均衡的内胚层型。因此, 本文认为,藏族男性青少年身体的线性程度高、外形上比较瘦削、肌肉较发达; 藏族女性青少年较男性身体的脂肪含量多、线性程度相对较高。     

江西与上海青少儿体质状况比较及影响因素分析

目的比较江西和上海儿童青少年生长发育差异及其影响因素。方法利用2000年全国学生体质调研数据,对江西和上海城乡6—22岁青少儿的身高、体重、BMI指数、肺活量体重指数等均值进行比较并作统计检验。结果上海学生体格发育水平明显好于江西学生,城、乡男生身高最大差距分别达7.6cm和10.7cm,城、乡女生身高最大差距分别为5.7cm和8.0cm;BMI指数显示上海学生身体充实度更好,但江西女生成年时体型相对粗壮;肺活量体重发育水平则上海学生显著低于江西学生。结论上海学生的青春期生长突增的开始时间早于江西学生,突增幅度大,增长时间也比后者长;而上海学生应加强户外活动以促进其肺功能。     

Tracing the response of subcutaneous fat accumulation in two generations of males

The present study included 414 adolescent boys aged 11-17 years and their fathers who volunteered as subjects. All the subjects belonged to Punjabi speaking Khatri, an endogamous urban population residing in Delhi, India. A set of five skinfold thicknesses: biceps, triceps, subscapular, suprailiac and medial calf along with body weight and stature were taken on all the subjects to report the pattern of subcutaneous fat distribution and responsiveness of different skinfold sites to fat deposition with variation in total body fat content. It has been noticed that 16- and 17-year-old sons assumed the pattern of subcutaneous fat distribution of their fathers, which was in favour of trunkal fat. Responsiveness of the five skinfold sites towards deposition of fat varied from site to site in various age groups with suprailiac skinfold sites found to be the most responsive followed by subscapular site. The sensitivity of skinfold sites to fat deposition with increase in weight was found to be greater in middle aged men (fathers) than growing boys (adolescent sons).     

Fatness and skeletal maturity of Belgian boys 12 through 17 years of age

Relationships between fatness and skeletal maturity are considered in a nationwide sample of 14,259 Belgian boys 12 through 17 years of age (The Leuven Growth Study of Belgian Boys). Absolute fatness was estimated from four skinfolds using the Drinkwater and Ross technique and from the sum of four skinfolds, and was related to skeletal maturity assessed by the Tanner-Whitehouse method (I and II). In addition, comparisons were made between the fattest 5% and leanest 5% of the boys at each age level. Correlations between the indices of fatness and skeletal age and relative skeletal age (the difference between skeletal and chronological ages) are positive and generally low, ranging from 0.12 to 0.39. They tend to decrease with age from 12 to 17 years. Comparisons between the extreme groups indicate that the leanest boys are more delayed in skeletal maturity, by about 0.8 years, than the fattest boys are advanced, by about 0.5 years. Stature data for the same boys are consistent with the skeletal maturity data and thus suggest that the size differences between the extreme groups are due in part to maturity differences. Over the age span 12 through 20 years, the leanest boys are reduced in stature by about – 1.2 standard deviations, while the fattest boys are larger in stature by about +0.6 standard deviation units. The size differences, however, persist after skeletal maturity is attained so that there may be a specific role for fatness in influencing statural growth.     

Body composition and fat distribution pattern of urban elderly females, Delhi, India

The present study was conducted on females (n = 279) in the age range of 51-89 year, living in the urban dwellings of Delhi, India. Another group of 21-25 years old young adult females was taken as a control group. A total of 14 anthropometric measurements were taken: stature, sitting height, weight, skinfold thickness at nine different sites over the body and body girths such as upper arm, waist and hip circumference. Indices like body mass index, grand mean thickness, waist-hip ratio were computed to assess the body composition. Fat profile and responsiveness of different skinfold sites towards fat accumulation were studied to find out the regional fat distribution with advancing age. Redistribution of body fat was found to take place with increasing age. A relative preponderance of upper body fat was visible among elderly subjects. However, a clear reverse trend was observed in the young control group females. Significant differences were observed with regards to the body composition and fat profile between young adult females and test group females. Abdomen and the sub-scapular area were reported to be the most sensitive sites for fat deposition as the age advanced. The stature and sitting height showed significant decline with age. All the indices of adiposity i.e. grand mean thickness, waist-hip ratio and body mass index revealed significant changes in elderly females when compared with young adult control group females.     

Parent-child correlation for various indices of adiposity in an endogamous Indian population

The study was conducted on 1,042 Punjabi adults and adolescent boys and girls (11-17 years) belonging to middle class families residing in Delhi, India. To study the relative influence of genetic and environmental factors on various fat measures, a set of 7 body measurements namely weight, stature and skinfold thickness at biceps, triceps, subscapular, suprailiac and medial calf measurements was taken on each subject. There was a redistribution of fat away from extremity towards the trunk, a rapid occurring process in males than in females. Increase in body mass index (BMI) with age was more pronounced in females than in males, both at adolescence and adult stage. There was an increase in grand mean thickness (GMT) calculated as mean of all five skinfold thicknesses, in adolescent girls where as in adolescent boys it fluctuated with age. The trunk/extremity ratios reflected a trend in favor of increase in trunk fat, more marked in boys than in girls. The correlations were of low magnitude, however, some skin folds displayed relatively higher value of correlation indicating that these could be determinant of adult obesity.     

Socioeconomic status, sex, age, and ethnicity as determinants of body fat distribution for Guatemalan children

The distribution of subcutaneous fat at the triceps and subscapular skinfold sites is described for four groups of children living in Guatemala. These groups are high socioeconomic status (SES) children of Ladino (mixed Spanish and Indian) ancestry, high SES children of European ancestry, low SES Ladino children, and very low SES Indian children. The method of Healy and Tanner (1981) is used, employing regression and principal components analysis of log transformed skinfold values to divide "fatness" into two uncorrelated variables: size (amount of fat) and shape (fat pattern). Significant differences exist between groups in size, with lower SES groups having less fat than higher SES groups. No significant difference in fat pattern exists between the high SES Ladino and high SES European children. Significant differences do exist between the high SES groups and the low SES groups. The relative amount of subscapular fat increases from the high SES Ladinos and high SES Europeans, to the low SES Ladinos, to the very low SES Indians. In the high SES European and high SES Ladino samples, girls have significantly more arm fat than boys. There is no significant difference in fat patterning between boys and girls in the two low SES samples. Finally, the relative amount of subscapular fat tends to increase with age in all four samples. These results indicate that fatness and fat patterning are independent anatomical characteristics, SES influences fat patterning; low SES children of both Ladino and Indian ancestry show greater reductions in arm fat than in trunk fat compared to high SES children, sexual dimorphism in fat patterning is SES dependent.(ABSTRACT TRUNCATED AT 250 WORDS)     

The Diabetes Alert study: growth, fatness, and fat patterning, adolescence through adulthood in Mexican Americans

Diabetes Alert is a multidisciplinary genetic and epidemiological study of Type II (non insulin-dependent) diabetes in Texas Mexican Americans. We report the anthropometry of 1,155 individuals 10 to 70 or more years with particular reference to overweight, fatness, and anatomical fat patterning in the sample. Children ages 10-18 of both sexes are growing at the 50th percentile of the reference data (U.S. Health and Nutrition Examination Survey-1) for height, Wt/Ht2, and triceps and subscapular skinfolds. Adults are well below median height but well above median Wt/Ht2 and skinfolds. Prevalence of obesity (Wt/Ht2 greater than or equal to 30) among adults is typically 30% or higher by age 30. Diabetics compared to age/sex-matched non diabetics have shorter sitting heights, have more upper body fat (subscapular skinfold), have less lower body fat (lateral calf skinfold), and were heavier at maximum weight and at age 18. The ratio of lower to upper body fat distribution decreases over the life cycle, being highest at adolescence and lowest at ages 40-50 in both sexes. Our results show a precipitous weight gain after maturity in the sample and an association of diabetes with differences in anatomical fat patterning. The age-related changes in fat patterning need to be explained in terms of their ecological and genetic influences.     

Fatness and fat patterning in relation to age changes and menarche

The present study assesses changes with age in fatness and fat patterning in a cross-sectional sample of Spanish schoolgirls from 6 to 16 years of age living in an urban area (Madrid). Arm muscle area and arm fat area were derived from middle-upper arm anthropometry. Body mass index (weight/height²) and the sum of the skinfold thicknesses at three sites (triceps, subscapular and suprailiac) were computed as indices of adiposity; and two indices of subcutaneous fat distribution were also defined: the natural logarithms of subscapular/triceps and suprailiac/triceps skinfold thickness ratios. Changes with age in these variables are described, including some pattern changes found in amount of fatness as well as in fat distribution at pubescence. At this time, there is a plateau in fat deposition, and even a fat loss the average (at triceps site). Prior to pubescence, subcutaneous fat distribution changes from «pheripheral» to a more generalized pattern, but no well-defined pattern of change is found after the onset of menarche. Furthermore, the effect of the onset of puberty on all these variables is analyzed.     

Body composition and fat distribution among older Jat females: A rural–urban comparison

The aim of the present cross-sectional study is to describe and compare age related changes in body composition and fat patterning among rural and urban Jat females of Haryana State, India. A total of 600 females (rural = 300, urban = 300), ranging in age from 40 to 70 years were selected by the purposive sampling method. Body weight, height, two circumferences (waist and hip) and skinfold thickness at five different sites (biceps, triceps, calf, subscapular, and supra-iliac) were taken on each participant. To study total adiposity, indices such as body mass index (BMI), grand mean thickness (GMT), total body fat and percentage fat were analyzed statistically. The fat distribution pattern was studied using waist/hip ratio, subscapular/triceps ratio and responsiveness of five skinfold sites towards accumulation of fat at different sites with advancing age. Results indicate a decline in almost every dimension including level of fatness between the mid-fourth and mid-fifth decades of life in both rural and urban females. Urban Jat females were heavier (57.36 kg vs. 56.07 kg, p > 0.05) and significantly taller (1553.3 mm vs. 1534.5 mm, p < 0.001) than their rural counterparts. Urban females also exhibited higher mean values for both the circumferences, five skinfold thicknesses as well as for lean body mass, total fat and percentage fat than the rural females. This is also evident from their higher mean values for body mass index and grand mean thickness. Waist/hip ratio values in rural and urban females showed upper body fat predominance, with urban females having relatively more abdominal fat. Results of subscapular/triceps ratio showed that rural and urban females gained proportionally similar amounts of subcutaneous fat at trunk and extremity sites until 45 years of age. Subsequently trunk skinfolds increased relatively more in thickness. The magnitude of this increase was comparatively greater in rural females up to 55 years and among urban females from 55 to 70 years. The profiles of subcutaneous fat accumulation and sensitivity of each skinfold site also revealed more fat deposition in the trunk region compared to extremities in both rural and urban females. The present study demonstrated differential rates of fat redistribution among rural and urban females.     

Evidence of genetic influence on central body fat in middle-aged twins

The heritability of centrally and peripherally deposited subcutaneous body fat, as measured by thickness of subscapular and triceps skinfolds respectively, was examined in 173 monozygotic and 178 dizygotic pairs of white male twins, ages 54 to 65 years, who participated in the second examination of the National Heart, Lung, and Blood Institute's Twin Study. The heritability of two indices of body fat distribution (subscapular/triceps ratio and subscapular-triceps difference) and two indices of overall obesity (body mass index and sum of skinfolds) were also assessed. Evidence for a genetic influence on central deposition of body fat was suggested in that the classical estimate of heritability for subscapular skinfold thickness was 0.77 (p less than 0.0001). After adjusting subscapular skinfold for the overall level of obesity, heritability was reduced but remained highly significant (0.40, p = 0.003). Heritability estimates for triceps skinfold thickness and for the two fat distribution indices were substantially lower and were not statistically significant after adjustment for overall obesity. High classical estimates of heritability were also observed for both measures of overall obesity: 0.70 for BMI and 0.73 for sum of skinfolds. However, these two estimates were biased upward because of lower total variances among monozygotic compared to dizygotic twins in this sample. The more conservative and unbiased among-component estimates also suggested substantial heritability for each measure (0.35, p = 0.08 and 0.53, p = 0.01, respectively). The heritability of overall obesity emphasizes the importance of adjusting measures of fat distribution for overall obesity before assessing its heritability.     

Birth Weight and Its Relationship to Size Attained and Relative Fat Distribution at 7 to 12 Years of Age

The relationship between birth weight and relative subcutaneous fat distribution at school age was considered in 131 boys and 106 girls 7 to 12 years of age. Relative fat distribution at school age was estimated with the ratio of the subscapular to triceps skinfolds (S/T) for the total sample, and with the ratio of the sum of two trunk (subscapular, midaxillary) to the sum of two extremity (triceps, medial calf) skinfolds (T/E) for subsamples of 102 boys and 63 girls. There were no sex differences in the S/T ratio (mm/mm), boys 0.62 ± 0.15, girls 0.63 ± 0.18; T/E ratio (mm/mm), boys 0.58 ± 0.13, girls 0.59 ± 0.16; and BMI (kg/m²), boys 17.1 ± 2.4, girls 16.9 ± 2.2. Second order partial correlations, controlling for age and the BMI or age and sum of skinfolds, between birth weight and the skinfold ratios are, respectively, ?0.22 and ?0.20 (p<0.01) for S/T and ?0.29 and ?032 (p<0.01) for T/E in girls, and ?0.18 and ?0.17 (p<0.05) for S/T and ?0.06 and ?0.6 for T/E in boys. Though low, the correlations suggest that as birth weight decreases proportionally more subcutaneous fat is accumulated on the trunk than on the extremities, more so in females than in males. Results of stepwise multiple regression analyses indicate that birth weight accounts for from 2% to 8% of the variance in relative subcutaneous fat distribution at school age.