基于人群（超级儿童）的方法预测儿童维生素A全身储备和视黄醇动力学，通过将基于模型的房室分析应用于理论数据得到验证。

A Population-Based (Super-Child) Approach for Predicting Vitamin A Total Body Stores and Retinol Kinetics in Children Is Validated by the Application of Model-Based Compartmental Analysis to Theoretical Data.

作者信息

Ford Jennifer Lynn, Green Joanne Balmer, Green Michael H

机构信息

Department of Nutritional Sciences, College of Health and Human Development, The Pennsylvania State University, University Park, PA.

出版信息

Curr Dev Nutr. 2018 Nov 24;2(11):nzy071. doi: 10.1093/cdn/nzy071. eCollection 2018 Nov.

BACKGROUND

Public health nutritionists need accurate and feasible methods to assess vitamin A status and to evaluate efficacy of interventions, especially in children. The application of population-based designs to tracer kinetic data is an effective approach that reduces sample burden for each child.

OBJECTIVES

Objectives of the study were to use theoretical data to validate a population-based (super-child) approach for estimating group mean vitamin A total body stores (TBS) and retinol kinetics in children and to use population-based data to improve individual TBS predictions using retinol isotope dilution (RID).

METHODS

We generated plasma retinol kinetic data from 6 h to 56 d for 50 theoretical children with high vitamin A intakes, assigning values within physiologically reasonable ranges for state variables and kinetic parameters ("known values"). Mean data sets for all subjects at extensive ( = 36) and reduced ( = 11) sampling times, plus 5 data sets for reduced numbers (5/time, except all at 4 d) and times, were analyzed using Simulation, Analysis and Modeling software. Results were compared with known values; population RID coefficients were used to calculate TBS for individuals.

RESULTS

For extensive and reduced data sets including all subjects, population TBS predictions were within 1% of the known value. For 5 data sets reflecting numbers and times being used in ongoing super-child studies, predictions were within 1-17% of the known group value. Using RID equation coefficients from population modeling, TBS predictions at 4 d were within 25% of the known value for 66-80% of subjects and reflected the range of assigned values; when ranked, predicted and assigned values were significantly correlated ( = 0.93, < 0.0001). Results indicate that 7 d may be better than 4 d for applying RID in children. For all data sets, predictions for kinetic parameters reflected the range of known values.

CONCLUSION

The population-based (super-child) approach provides a feasible experimental design for quantifying retinol kinetics, accurately estimating group mean TBS, and predicting TBS for individuals reasonably well.

背景

公共卫生营养学家需要准确且可行的方法来评估维生素A状况并评估干预措施的效果，尤其是在儿童中。将基于人群的设计应用于示踪动力学数据是一种有效的方法，可减轻每个儿童的样本负担。

目的

本研究的目的是使用理论数据验证一种基于人群（超级儿童）的方法，用于估计儿童群体的平均维生素A全身储存量（TBS）和视黄醇动力学，并使用基于人群的数据通过视黄醇同位素稀释（RID）改进个体TBS预测。

方法

我们为50名高维生素A摄入量的理论儿童生成了从6小时到56天的血浆视黄醇动力学数据，为状态变量和动力学参数（“已知值”）分配了生理合理范围内的值。使用模拟、分析和建模软件分析了所有受试者在广泛（=36）和减少（=11）采样时间的平均数据集，以及减少数量（每次5个，4天除外）和时间的5个数据集。将结果与已知值进行比较；使用群体RID系数计算个体的TBS。

结果

对于包括所有受试者的广泛和减少数据集，群体TBS预测在已知值的1%以内。对于反映正在进行的超级儿童研究中使用的数量和时间的5个数据集，预测在已知群体值的1-17%以内。使用群体建模的RID方程系数，4天时TBS预测在66-80%的受试者中在已知值的25%以内，并反映了分配值的范围；排序时，预测值和分配值显著相关（=0.93，<0.0001）。结果表明，在儿童中应用RID时，7天可能比4天更好。对于所有数据集，动力学参数的预测反映了已知值的范围。