Ogunlana Michael O, Oyewole Olufemi O, Lateef Adetutu I, Ayodeji Ayomikun F
Department of Physiotherapy, Federal Medical Centre Abeokuta, Abeokuta, Nigeria.
Department of Health Sciences, University of KwaZulu Natal, Durban, South Africa.
S Afr J Physiother. 2021 Jan 15;77(1):1509. doi: 10.4102/sajp.v77i1.1509. eCollection 2021.
Forced vital capacity (FVC) and peak expiratory flow rate (PEFR) are used to assess and monitor the management of lung pathology.
Our study documented spirometry reference values for apparently healthy Nigerians and developed predictive equations for pulmonary function.
A cross-sectional survey involving healthy adult Nigerians included anthropometric measurements of weight, height, waist, hip circumference (HC), sagittal abdominal diameter (SAD) and percentage body fat. Anthropometric indices (body mass index [BMI] and waist-to-hip ratio [WHR]) were estimated and pulmonary function tests (FVC, forced expiratory volume in 1 s [FEV1], PEFR, FEV1/FVC ratio) measured. The association amongst selected anthropometric and socio-demographic variables and pulmonary function test parameters were established using -tests and Pearson's product moment correlation tests. The predictors of pulmonary function were established using stepwise multiple linear regression models.
Four hundred and forty-four adults (156 [35.1%] men) were included, mean age 37.3 ± 8.25 (range 22-25) years. Male participants had significantly higher lung volumes than females ( < 0.05). Age, height, weight and percentage body fat had significant low correlations with lung function test parameters ( < 0.05). Fat-free mass (FFM), fat mass (FM), SAD, height and age of participants were main predictors of FVC and FEV1 ( = 0.43 and 0.41, respectively). Fat-free mass and SAD were main predictors of PEFR ( = 0.53). Sagittal abdominal diameter and age were main predictors of FEV1/FVC ratio ( = 0.34).
Fat-free mass, FM, height, age and SAD are important determinants of lung volumes and key variables for predictive equations of pulmonary function.
An accurate documentation of pulmonary function values for apparently healthy Nigerian adults may be useful in identifying deviations from normative values thereby giving an index of suspicion for the diagnosis of pulmonary dysfunction.
anthropometric; lung function; spirometry; fat-free mass; apparently healthy.
用力肺活量(FVC)和呼气峰值流速(PEFR)用于评估和监测肺部疾病的管理情况。
我们的研究记录了表面健康的尼日利亚人的肺量计参考值,并建立了肺功能的预测方程。
一项针对健康成年尼日利亚人的横断面调查包括对体重、身高、腰围、臀围(HC)、腹部矢状径(SAD)和体脂百分比的人体测量。估算人体测量指数(体重指数[BMI]和腰臀比[WHR])并测量肺功能测试(FVC、第1秒用力呼气量[FEV1]、PEFR、FEV1/FVC比值)。使用t检验和Pearson积矩相关检验确定所选人体测量和社会人口统计学变量与肺功能测试参数之间的关联。使用逐步多元线性回归模型确定肺功能的预测因素。
纳入444名成年人(156名[35.1%]男性),平均年龄37.3±8.25(范围22 - 65)岁。男性参与者的肺容积显著高于女性(P < 0.05)。年龄、身高、体重和体脂百分比与肺功能测试参数的相关性显著较低(P < 0.05)。参与者的去脂体重(FFM)、脂肪量(FM)、SAD、身高和年龄是FVC和FEV1的主要预测因素(R²分别为0.43和0.41)。去脂体重和SAD是PEFR的主要预测因素(R² = 0.53)。腹部矢状径和年龄是FEV1/FVC比值的主要预测因素(R² = 0.34)。
去脂体重、FM、身高、年龄和SAD是肺容积的重要决定因素,也是肺功能预测方程的关键变量。
准确记录表面健康的尼日利亚成年人的肺功能值可能有助于识别与正常数值的偏差,从而为诊断肺功能障碍提供可疑指标。
人体测量;肺功能;肺量计;去脂体重;表面健康