健康与疾病的发育起源:一种识别早年营养不良成年人的新方法。
Developmental origins of health and disease: a new approach for the identification of adults who suffered undernutrition in early life.
作者信息
Ferreira Haroldo da Silva, Junior Antonio Fernando Silva Xavier, Assunção Monica Lopes, Uchôa Tainá Cardoso Caminha, Lira-Neto Abel Barbosa, Nakano Ricardo Paulino
机构信息
Faculty of Nutrition, Federal University of Alagoas, Maceió, Alagoas, Brazil,
Post-graduate Program in Health Sciences, Federal University of Alagoas, Maceió, Alagoas, Brazil.
出版信息
Diabetes Metab Syndr Obes. 2018 Sep 26;11:543-551. doi: 10.2147/DMSO.S177486. eCollection 2018.
BACKGROUND
Undernutrition in early life (UELife) is a condition associated with greater occurrence of chronic diseases in adulthood. Some studies on this relationship have used short stature as indicator of UELife. However, other non-nutritional factors can also determine short stature. Depending on the severity of UELife, the human body reacts primarily compromising weight and length gain, but prioritizing brain growth, resulting in disproportionate individuals. Based on this premise, this study aimed to validate a new anthropometric indicator of UELife.
DESIGN
Using stature and head circumference data from a probabilistic sample of 3,109 women, the Head-to-Height Index was calculated: HHI = (head × 2.898)/height. A HHI >1.028 (75th percentile) was the best cutoff for predicting obesity (best balance between sensitivity/ specificity, largest area under the receiver operating characteristic curve, and highest correlation coefficient) and was used to define the condition of body disproportionality. The strength of associations with several outcomes was tested for both disproportionality and short stature (height ≤25th percentile: 153.1 cm).
RESULTS
In adjusted analysis for confounding factors (age, smoking, and education level), the strength of the associations between body disproportionality and the analyzed outcomes was greater than that observed when short stature was used. Respectively, the observed prevalence ratios (95% CI) were (<0.05 for all comparisons): obesity: 2.61 (2.17-3.15) vs 1.09 (0.92-1.28); abdominal obesity: 2.11 (1.86-2.40) vs 1.42 (1.27- 1.59); high blood pressure: 1.24 (1.02-1.50) vs 0.90 (0.75-1.08); hypercholesterolemia: 2.98 (1.47-6.05) vs 1.65 (0.91-2.99); and hypertriglyceridemia: 1.47 (1.07-2.03) vs 0.91 (0.69-1.21).
CONCLUSION
Body disproportionality is a more accurate indicator of UELife than short stature. While short stature may be genetically determined, a high HHI is due to metabolic adaptations to undernutrition in early life.
背景
生命早期营养不良(UELife)是一种与成年期慢性疾病发生率较高相关的状况。一些关于这种关系的研究使用身材矮小作为生命早期营养不良的指标。然而,其他非营养因素也会导致身材矮小。根据生命早期营养不良的严重程度,人体主要通过影响体重和身高增长做出反应,但会优先保证大脑生长,从而导致个体身材比例失调。基于这一前提,本研究旨在验证一种新的生命早期营养不良的人体测量指标。
设计
利用来自3109名女性概率样本的身高和头围数据,计算头高指数:HHI =(头围×2.898)/身高。HHI>1.028(第75百分位数)是预测肥胖的最佳临界值(灵敏度/特异性之间的最佳平衡、受试者工作特征曲线下的最大面积以及最高相关系数),并用于定义身体比例失调的状况。对比例失调和身材矮小(身高≤第25百分位数:153.1厘米)与几种结果的关联强度进行了测试。
结果
在对混杂因素(年龄、吸烟和教育水平)进行调整分析后,身体比例失调与所分析结果之间的关联强度大于使用身材矮小作为指标时观察到的关联强度。观察到的患病率比值(95%CI)分别为(所有比较中P<0.05):肥胖:2.61(2.17 - 3.15)对1.09(0.92 - 1.28);腹型肥胖:2.11(1.86 - 2.40)对1.42(1.27 - 1.59);高血压:1.24(1.02 - 1.50)对0.90(0.75 - 1.08);高胆固醇血症:2.98(1.47 - 6.05)对1.65(0.91 - 2.99);以及高甘油三酯血症:1.47(1.07 - 2.03)对0.91(0.69 - 1.21)。
结论
身体比例失调是比身材矮小更准确的生命早期营养不良指标。虽然身材矮小可能由遗传决定,但高头高指数是由于生命早期对营养不良的代谢适应所致。
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