In the study of birth outcomes, going to extremes is not always necessary. While intense events such as heat waves, deep cold or famine can impact fetal development and play a major role in the health of newborns, scientists who study birth outcomes can learn a great deal from more moderate scenarios.
To illuminate this, Xi Chen, Ph.D., a health economist and assistant professor in the Department of Health Policy and Management, looked to the Muslim observance of Ramadan, which requires a month of fasting from sunrise until sunset, to understand how nutritional disruptions to an expectant mother can impact fetal development.
Studies of external factors such as fasting also can have greater influence on policymaking than the study of extreme factors such as famine, Chen said. Moderate factors affect far more people: the Ramadan fast potentially impacts the health of more than one billion Muslims worldwide.
Chen's study revealed that babies who were deprived of prenatal nutrition during Ramadan were more likely to be obese later in life. More generally, having been constrained during early life, Chen said, babies make more efficient use of the limited nutrients they receive during a time of fast and develop stronger digestive systems. As this generation ages with access to abundant food supply (high-fat and high-sugar diets), Chen said, the effect of this adaptation to the early environment of undernutrition begins to show. "When they are older, and richer, and they take the same dose of nutritious food as the cohort not exposed to under-nutrition in an early stage of life, biologically their stronger digestive systems tend to produce more surplus energy as regulated in part by peptide hormones in the brain and gut and they are more likely to be susceptible to developing obesity and other chronic diseases."
Birth outcomes can hold several clues to the adult that a newborn will someday become. By examining factors such as a newborn's birth weight, gestational size and birth defects, Chen looks to predict not only future health but also the potential for future economic success. In another study, for instance, he looked to poor, rural China and the effect that the practice of gift giving has on birth outcomes. "If you do not send a gift," during community festivals and observances such as births, marriages and funerals, "you become socially isolated," said Chen. In years with an abundance of such events, expectant parents are often forced to choose gifts over prenatal nutrition, to protect their social standing. The result, Chen said, is a negative impact on the height of children from birth to age 6 who were born during years of frequent festivals.
Prenatal care, said Chen, is an investment that parents make in their children. "Social scientists, like myself, often treat birth outcomes as the starting point for human capital," he said. The conditions that expectant parents live in, and the economic decisions they make, reflect their commitment to investing in the future health of their children. This prenatal care can help determine a child's success as he or she grows up and, ultimately, enters the workforce and contributes to the economy.
As telling as birth outcomes can be, Chen is part of a growing group of researchers going even further back to conception and the pregnancy to predict future health. Through data collected from prenatal ultrasounds, Chen is examining three measures: head circumference, femur length and abdominal circumference, all of which, he said, are indicators of long-term health and predictors of adult chronic disease. Ultrasound data enable Chen to track each ultrasound throughout a fetus's development, allowing his team to study trajectories of growth before birth.
"I know of only other one economist, the Nobel Laureate Professor James J. Heckman, who has been exploring early human health using an ultrasound data set," he said. While Heckman's data set counts information from 1,000 infants in the United Kingdom, Chen, together with Yawei Zhang, M.D., M.P.H.'03, Ph.D. '04, from YSPH's Department of Environmental Health Sciences, are working with a data set collected from 20,000 babies in hospitals in two Chinese provinces.
Next, Chen and his team plan to use ultrasound data to explore prenatal exposure to air pollution and climate change and how it interacts with an infant's genes to affect long-term development. Additionally, Chen hopes to not only continue going back in time, to fetal development, but to go forward as well.
"Ideally, we want to follow up on these infants all the way until they grow up and go into the labor market," he said. "Everyone wants to know the longer-term impact. Our eventual goal is to link the two ends of life course to better understand the role of early childhood circumstances in shaping health inequality in old age."
Provided by Yale University