Mode of action: angiotensin-converting enzyme inhibition--developmental effects associated with exposure to ACE inhibitors.

Relative to species tested in laboratory studies, the human fetus displays higher vulnerability to enalapril and other angiotensin-converting enzyme inhibitors (ACEI) exhibiting a malformative syndrome that does not appear to have a similar counterpart in experimental animals. An important reason for this higher vulnerability is the earlier intrauterine development of the kidney and the renin-angiotensin-aldosterone (RAS) system in humans, organ systems that are specific targets of ACEI's pharmacological effect. In humans, these systems begin developing prior to the onset of skeletal ossification at the end of the first trimester, with continuing vulnerability throughout the pregnancy.

Overview: Using mode of action and life stage information to evaluate the human relevance of animal toxicity data.

A complete mode of action human relevance analysis--as distinct from mode of action (MOA) analysis alone--depends on robust information on the animal MOA, as well as systematic comparison of the animal data with corresponding information from humans. In November 2003, the International Life Sciences Institute's Risk Science Institute (ILSI RSI) published a 2-year study using animal and human MOA information to generate a four-part Human Relevance Framework (HRF) for systematic and transparent analysis of MOA data and information. Based mainly on non-DNA-reactive carcinogens, the HRF features a "concordance" analysis of MOA information from both animal and human sources, with a focus on determining the appropriate role for each MOA data set in human risk assessment.

Adverse pregnancy outcomes associated with maternal enalapril antihypertensive treatment.

Background: Adverse pregnancy outcomes following the use of angiotensin-converting enzyme (ACE) inhibitors, including enalapril, have been reported in descriptive studies. However, no analytical studies on the relationship between the adverse outcomes and enalapril gestational exposures are available.

Objectives: To explore the association between enalapril exposure and adverse outcomes in pregnancy, taking into account other possible risk factors.

Off to a good start: the influence of pre- and periconceptional exposures, parental fertility, and nutrition on children's health.

The scientific community is developing a compelling body of evidence that shows the importance of the in utero environment (including chemical and hormonal levels) to the ultimate health of the child and even of the aging adult. This article summarizes the evidence that shows this impact begins with conception. Only a full life-cycle evaluation will help us understand these impacts, and only such an understanding will produce logically prioritized mitigation strategies to address the greatest threats first.

Atenolol developmental toxicity: animal-to-human comparisons.

Background: Atenolol, 4-2'-hydroxy-3'-isopropyl-aminopropoxy) phenylacetamide, is a beta-adrenoreceptor blocker used for treatment of hypertension in pregnancy. Beta-blockers are reported to cause fetal harm (such as decreased birth weight) when administered to a pregnant woman. We evaluate published human and animal evidence of atenolol developmental toxicity and compare the manifestations in humans and in routinely-used animal models.