BMJ Global Health (Sep 2021)

Simplified models to assess newborn gestational age in low-middle income countries: findings from a multicountry, prospective cohort study

  • ,
  • Fyezah Jehan,
  • Mohammed Mohammed,
  • Pratibha Dhingra,
  • Usha Dhingra,
  • Arup Dutta,
  • Saikat Deb,
  • Sunil Sazawal,
  • Rajiv Bahl,
  • Salahuddin Ahmed,
  • Nazma Begum,
  • Muhammad Sajid,
  • Karen Edmond,
  • Lisa Hurt,
  • Caitlin Shannon,
  • Sachiyo Yoshida,
  • Alexander Manu,
  • Sayedur Rahman,
  • Abdullah H. Baqui,
  • Dipak Mitra,
  • Muhammad Imran Nisar,
  • Mohammad J Uddin,
  • Anne CC Lee,
  • Betty R Kirkwood,
  • Usma Mehmood,
  • Bowen Banda,
  • Davidson H Hamer,
  • Monica Lulu Kapasa,
  • Fahad Aftab,
  • Parvez Ahmed,
  • Said Mohammed Ali,
  • Corneille Bashagaluke Akonkwa,
  • Caroline Grogan,
  • Julie Herlihy,
  • Atiya Hussain,
  • Muhammad Ilyas,
  • Muhammad Karim,
  • Farzana Kausar,
  • Fern Mweene,
  • Naila Nadeem,
  • Rina Paul,
  • Mahmoodur Rahman,
  • Katherine E Semrau,
  • Marina Straszak-Suri,
  • Atifa Suleiman,
  • Jayson Wilbur,
  • Blair Wylie

DOI
https://doi.org/10.1136/bmjgh-2021-005688
Journal volume & issue
Vol. 6, no. 9

Abstract

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Introduction Preterm birth is the leading cause of child mortality. This study aimed to develop and validate programmatically feasible and accurate approaches to estimate newborn gestational age (GA) in low resource settings.Methods The WHO Alliance for Maternal and Newborn Health Improvement (AMANHI) study recruited pregnant women from population-based cohorts in five countries (Bangladesh, Ghana, Pakistan, Tanzania and Zambia). Women <20 weeks gestation by ultrasound-based dating were enrolled. Research staff assessed newborns for: (1) anthropometry, (2) neuromuscular/physical signs and (3) feeding maturity. Machine-learning techniques were used to construct ensemble models. Diagnostic accuracy was assessed by areas under the receiver operating curve (AUC) and Bland-Altman analysis.Results 7428 liveborn infants were included (n=536 preterm, <37 weeks). The Ballard examination was biased compared with ultrasound dating (mean difference: +9 days) with 95% limits of agreement (LOA) −15.3 to 33.6 days (precision ±24.5 days). A model including 10 newborn characteristics (birth weight, head circumference, chest circumference, foot length, breast bud diameter, breast development, plantar creases, skin texture, ankle dorsiflexion and infant sex) estimated GA with no bias, 95% LOA ±17.3 days and an AUC=0.88 for classifying the preterm infant. A model that included last menstrual period (LMP) with the 10 characteristics had 95% LOA ±15.7 days and high diagnostic accuracy (AUC 0.91). An alternative simpler model including birth weight and LMP had 95% LOA of ±16.7 and an AUC of 0.88.Conclusion The best machine-learning model (10 neonatal characteristics and LMP) estimated GA within ±15.7 days of early ultrasound dating. Simpler models performed reasonably well with marginal increases in prediction error. These models hold promise for newborn GA estimation when ultrasound dating is unavailable.