Correcting for measurement error in assessing gestational age in a low-resource setting: a regression calibration approach

George O. Agogo, JR Verani, NA Otieno, BO Nyawanda, MA Widdowson, SS Chaves

Research output: Contribution to journalA1: Web of Science-articlepeer-review

Abstract

Introduction: Measurement error in gestational age (GA) may bias the association of GA with a health outcome. Ultrasound-based GA is considered the gold standard and is not readily available in low-resource settings. We corrected for measurement error in GA based on fundal height (FH) and date of last menstrual period (LMP) using ultrasound from the sub-cohort and adjusted for the bias in associating GA with neonatal mortality and low birth weight (< 2,500 grams, LBW).

Methods: We used data collected from 01/2015 to 09/2019 from pregnant women enrolled at two public hospitals in Siaya county, Kenya (N = 2,750). We used regression calibration to correct for measurement error in FH- and LMP-based GA accounting for maternal and child characteristics. We applied logistic regression to associate GA with neonatal mortality and low birth weight, with and without calibrating FH- and LMP-based GA.

Results: Calibration improved the precision of LMP (correlation coefficient, ρ
from 0.48 to 0.57) and FH-based GA ( ρ
from 0.82 to 0.83). Calibrating FH/LMP-based GA eliminated the bias in the mean GA estimates. The log odds ratio that quantifies the association of GA with neonatal mortality increased by 29% (from −0.159 to −0.205) by calibrating FH-based GA and by more than twofold (from −0.158 to −0.471) by calibrating LMP-based GA.

Conclusion: Calibrating FH/LMP-based GA improved the accuracy and precision of GA estimates and strengthened the association of GA with neonatal mortality/LBW. When assessing GA, neonatal public health and clinical interventions may benefit from calibration modeling in settings where ultrasound may not be fully available.
Original languageEnglish
JournalFrontiers in Medicine
Volume10
Number of pages9
ISSN2296-858X
DOIs
Publication statusPublished - 2023

Keywords

  • Attenuation
  • Fundal height
  • Gestational age
  • Last menstrual period
  • Measurement error
  • Preterm
  • Regression calibration

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