A research by Lubo Zhang and his colleagues from Loma Linda University- School of Medicine in California presents the finding that cocaine exposure in utero has lasting and lifelong adverse effects on the heart in adulthood, particularly in the male.

Cocaine abuse is becoming increasingly prevalent among women of childbearing age, and is associated with numerous adverse perinatal outcomes.

Zhang's research group has been studying the effect of adverse intrauterine environment on fetal heart development and its lifelong pathophysiological consequences in the adult heart.

Using an animal model of the pregnant rat, they found that fetal exposure to cocaine during gestation resulted in an increase in heart susceptibility to ischaemia and reperfusion injury in late adult life.

The effect of prenatal cocaine exposure on cardiac vulnerability in adult offspring is gender-dependent, with the male heart being more susceptible to increased ischaemia/reperfusion injury induced by prenatal cocaine exposure.

Earlier work by Zhang's group showed that fetal chronic hypoxia also increased cardiac vulnerability to ischaemia and reperfusion injury in late adult life.

Epidemiological studies in humans have shown an association of fetal undernutrition in the womb and an increased risk of hypertension and ischaemic heart disease in adulthood.

In addition to undernutrition as originally proposed, Zhang's studies suggest that other adverse factors such as cocaine abuse and hypoxia during gestation also cause fetal programming in utero, which has lasting and lifelong effects on the cardiovascular system in later adult life.

Acute ischaemic injury and myocardial infarction resulting from coronary artery disease is the major cause of death among people in the western world. Despite years of research, the causes for ischaemic heart disease are incompletely understood. The new studies from Zhang's research group provide clear evidence in an animal model for the first time that ischaemic heart disease in adulthood can originate through fetal programming under an adverse intrauterine environment.

Source: The Journal of Physiology, 2005


XagenaMedicine2005