Abstract
Objective: The purpose of this work is to clarify by path analysis which of the predictor factors of mortality in a cohort of 423 singletons VLBW infants born at Beilinson Medical Center during the years 1980–1990 (pre-surfactant era) exert direct or indirect effect on mortality. A direct risk factor was defined as a factor having an immediate effect on the outcome without working through an intermediate variable. By contrast, an indirect risk factor was defined as a factor that does not have a direct effect on the risk of mortality but instead works through an intermediate variable. Evaluation of mortality was done at three points over time (pre-delivery, at birth and post-delivery). Results: In the pre-delivery model, gestational age, appropriateness for gestational age, mother's age and fetal distress work directly on mortality in VLBW infants. At birth, mother's age, birth weight and Apgar score at the fifth minute work directly on the risk of mortality. When the assessment of the risk of death was done post-delivery, mother's age, birth weight, Apgar score at the fifth minute and seizures influence directly on mortality risk, and fetal distress, gestational age and pre-natal induced hypertension (PIH) operate indirectly on the risk of mortality. Conclusion: The methodology we have used can be adopted in other investigations to distinguish and measure the effect of prognostic factors on the risk of an outcome.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Wright S. Correlation and causation. J Agricul Res 1921; 20: 557–585.
Wright S. Theory of path coeffcients: A reply to Niles criticism. Genetics 1923; 8: 239–255.
Wright S. Path coeffcients and path regressions: Alternative or complementary concepts? Biometrics 1960; 16: 189–202.
Li CC. Path Analysis-A Primer. California: Pacific Grove, 1975.
Duncan OD. Path analysis: Sociological examples. Am J Soc 1966; 72: 1–16.
Sokal RS, Rohlf FJ. Biometry. San Francisco: W.H. Freeman and Company, 1981, pp 642–656.
Li CC. Method of path coeffcients: A trademark of Sewall Wright. Hum Biol 1991; 63: 1–17.
Fields S, Livshits G, Sirota L, Merlob P. Path analysis of the risk of premature birth. Am J Human Biol 1996; 8: 433–443.
Usher R, McLean F. Intrauterine growth of live-born Caucasian infants at sea level: Standards obtained for measurements in 7 dimensions of infants born between 25 and 44 weeks of gestation. J Pediatr 1969; 74: 901–910.
Sulkes J, Gabbay U, Hod M, Merlob P. Mortality in very low birth weight infants. The Beilinson Medical Center Experience, 1980–1990. Is J Obst Gynecol 1998; 9(4): 248–256.
Simpson SP. Causal analysis of infants deaths in Hawaii. Am J Epidemiol 1984; 119(6): 1024–1029.
Hack M, Breslau N. Very low birth weight infants: Effects of brain growth during infancy on intelligence quotient at 3 years of age. Pediatrics 1986; 77(2): 196–202.
Poland ML, Ager JW, Olson KL, Sokol RJ. Quality of prenatal care; selected social, behavioral, and biomedical factors; and birth weight. Obstet Gynecol 1990; 75(4): 607–612.
Fields SJ, Frisancho AR. Selection on maternal and neonate size at birth. Hum Biol 1993; 65(4): 579–591.
Fields SJ, Livshits G, Merlob P, Sirota L. On the relationship between pregnancy weight gain and chorioamnionitis. Am J Human Biol 1997; 9: 545–554.
Vasconcelos AG, Almeida RM, Nobre FF. The path analysis approach for the multivariate analysis of infant mortality data. Ann Epidemiol 1998; 8(4): 262–271.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Sulkes, J., Fields, S., Gabbay, U. et al. Path analysis on the risk of mortality in very low birth weight infants. Eur J Epidemiol 16, 337–341 (2000). https://doi.org/10.1023/A:1007634926066
Issue Date:
DOI: https://doi.org/10.1023/A:1007634926066