尼日利亚哈科特港看似健康的学龄儿童的超声检查肾脏尺寸与体重指数之间的关系

IF 0.1 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

West African Journal of Radiology Pub Date : 2020-07-01 DOI:10.4103/wajr.wajr_7_20

T. Uchenwa, I. Anochie, H. Okafor, Obinna Maduforo

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引用次数: 0

摘要

背景：肾脏大小是评估和治疗儿童肾脏疾病的一个重要参数。根据体测量参数建立标准化的肾脏大小的正常限度将是检测儿童可能的肾脏疾病的有用工具。目的：确定哈科特港明显健康的小学生的肾脏大小与体重指数（BMI）的关系。材料和方法：这是一项多阶段的横断面研究，涉及450名6-12岁的儿童。使用装有3.5MHz探头的便携式DP 1100 PLUS实时超声机进行肾脏超声检查。测量肾脏的长度、宽度和前后直径，并计算肾脏体积。获得了年龄和性别的BMI百分位数。肾脏大小与体格测量参数相关，并导出回归方程。结果：平均肾脏长度和体积百分位数从6岁时的77.7±5.6和49.2±13.7分别增加到12岁时的85.9±5.9和60.4±18.4。左右肾的长度和体积没有显著差异，男性和女性的肾脏尺寸也没有统计学差异。BMI与肾脏尺寸之间存在显著的正相关。肾脏长度和体积以每年1.372毫米和1.951立方厘米的速度增加，BMI每增加一个百分点，分别以0.067毫米和0.176立方厘米的速率增加。推导的回归模型用于预测肾长度，单位为mm=65.731+（1.372年龄X）+（0.067 BMI百分位数X），而肾体积，单位为cm3=26.386+（1.951年龄X）=（0.176 BMI百分位X），（其中X是自变量：年龄，单位为年，BMI，单位为百分位数）。结论：BMI与肾脏体积呈正相关。本研究提供了根据受试者的BMI和年龄推导肾脏长度和体积的预测模型。

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Relationship between renal dimensions using ultrasonography and body mass index in apparently healthy school children in Port Harcourt, Nigeria

Background: Renal size is an important parameter in evaluation and management of a child with kidney disease. Establishing the normal limits of renal sizes standardized against somatometric parameters will be a useful tool in detecting probable renal diseases in children. Aim: To determine renal sizes in relation to body mass index (BMI) in apparently healthy primary school children in Port Harcourt. Materials and Methods: This was a cross-sectional and multi-staged study involving 450 children aged 6-12 years. Renal ultrasonography was carried out using a portable DP 1100 PLUS real time ultrasound machine fitted with 3.5MHz probe. The length, width and anteroposterior diameter of the kidneys were measured, and renal volume calculated. The BMI percentile for age and sex were obtained. The renal sizes were correlated with somatometric parameters and regression equations derived. Results: The mean renal length and volume percentiles increased from 77.7 ± 5.6 and 49.2 ± 13.7 at 6years to 85.9 ± 5.9 and 60.4 ± 18.4 at 12years respectively. There were no significant differences in the length and volume between the right and left kidneys, and dimensions of the kidneys were not statistically different in males and females. There was a significant positive correlation between BMI and renal dimensions. The renal length and volume increased at a rate of 1.372mm and 1.951cm3 per year and at a rate of 0.067mm and 0.176cm3 per one percentile increase in BMI respectively. The regression model derived for predicting renal length in mm =65.731 + (1.372 Age X) + (0.067 BMI percentile X) while that for renal volume in cm3 =26.386 + (1.951 Age X) + (0.176 BMI percentile X), (Where X is the independent variables: age in years and BMI in percentile). Conclusion: BMI has a significant positive linear relationship with renal dimensions. This study has provided prediction models for deriving renal length and volume from subject's BMI and age.

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West African Journal of Radiology RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-

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