Alcohol Rehab Treatment

Drinking during Pregnancy

Fetal Alcohol Syndrome

Fetal Alcohol Exposure and the Brain

Nearly 30 years ago, scientists first coined the term "fetal alcohol syndrome" (FAS) to describe a pattern of birth defects found in children of mothers who consumed alcohol during pregnancy (1,2). Today, FAS remains the leading known preventable cause of mental retardation (3). Behavioral and neurological problems associated with prenatal alcohol exposure may lead to poor academic performance as well as legal and employment difficulties in adolescence and adulthood (4). Despite attempts to increase public awareness of the risks involved, increasing numbers of women are drinking during pregnancy (5). This Website updates previous information with new data on the prevalence and nature of the neurobehavioral problems associated with alcohol use during pregnancy, explores potential mechanisms underlying alcohol-induced damage to the developing brain, and discusses prevention research.

Do You Know Somebody That Needs Help With Drug Alcohol Addiction? Get Help Today.

Call For Free Consultation - 800 539-6474

Definitions and Incidence

FAS is defined by four criteria: maternal drinking during pregnancy; a characteristic pattern of facial abnormalities; growth retardation; and brain damage, which often is manifested by intellectual difficulties or behavioral problems (3). When signs of brain damage appear following fetal alcohol exposure in the absence of other indications of FAS, the condition is termed "alcohol-related neurodevelopmental disorder" (ARND) (3).

Investigators have used both passive and active methods to determine the overall incidence of FAS and ARND. The passive approach uses data collected from existing medical records, which are often based on information recorded at birth. However, the criteria required for these diagnoses may not be apparent at birth and often develop gradually from infancy through the first few years of grade school (6). In the active approach, investigators use a defined set of diagnostic criteria to screen all members of a selected population for FAS and other alcohol rehab-related problems. Although both strategies have limitations, active ascertainment provides more accurate prevalence data for the study population, especially if children are examined at elementary school age (3). For example, a comprehensive survey of 992 first-grade students in 12 of the 13 elementary schools in a South African community revealed an FAS incidence of more than 40 FAS cases per 1,000 births among children ages 5 to 9 (7). In the United States, a preliminary active ascertainment of FAS in a single county in Washington State yielded a minimum estimate of 3.1 per 1,000 first-grade students (8). By comparison, passive estimates of FAS rates range from 0.33 to 3 infants per 1,000 births (3,9).

Specific Cognitive and Behavioral Impairments

The broad range of cognitive and behavioral disabilities associated with prenatal alcohol exposure was attributed by many researchers to a generalized impairment of mental functioning. However, recent studies on FAS and ARND reveal that specific neurobehavioral functions are consistently impaired, whereas others are spared (10-13). Thus, the outlook for persons diagnosed with FAS or ARND should not be considered hopeless (14,15). Some specific neurobehavioral impairments associated with prenatal alcohol exposure are discussed below.

Verbal Learning. Children prenatally exposed to alcohol exhibit a variety of problems with language and memory (3,10). For example, Mattson and colleagues (11) found that children with FAS ages 5 to 16 learned fewer words compared with a group of children of comparable mental age who did not have FAS. However, both groups demonstrated equal ability to recall information learned previously. These findings indicate that FAS-related learning problems occur during the initial stages of memory formation (i.e., encoding). Once encoded, verbal information can be retained and recalled, subject to normal rates of forgetting (11,13). Clinically, this pattern helps distinguish FAS from Down's syndrome, in which learning and recall are equally impaired (16).

Visual-Spatial Learning. Children of mothers who drank heavily during pregnancy perform poorly on tasks that involve learning spatial relationships among objects. In one experiment, groups of children with and without FAS were equal in their ability to recall common, small household and schoolroom objects (e.g., a paper clip or spoon) that had been placed within sight on a table and then removed (17). However, children with FAS had greater difficulty subsequently restoring the objects to their original positions on the table (17).

Attention. Attention problems have been considered a hallmark of prenatal alcohol exposure (13). Consequently, FAS is often incorrectly diagnosed as attention deficit hyperactivity disorder (ADHD) and treated inappropriately (18). Coles and colleagues (18) found that children with ADHD exhibited difficulty focusing and sustaining attention over time. In contrast, children who were exposed to alcohol prenatally were able to focus and maintain attention, but displayed difficulty in shifting attention from one task to another (i.e., set shifting) (18).

Reaction Time. Individual differences in intelligence are based in part on how quickly the brain processes information. Prenatal alcohol exposure has been associated with slower, less efficient information processing in school-age children (19). Jacobson and colleagues (20) found similar problems in children as young as 6 1/2 months. These researchers recorded the eye movements of infants reacting to the appearance, movement, and disappearance of a repeating sequence of geometric designs and colors on a video screen. Maternal drinking during pregnancy was related to longer reaction times among the children, suggesting slower, less efficient information processing (20).

Executive Functions. Important deficits in FAS involve executive functions (i.e., activities that require abstract thinking, such as planning and organizing). For example, problems with set shifting are common, as noted earlier. Children prenatally exposed to alcohol respond poorly when asked to switch from naming animals to naming types of furniture, and then back to naming animals (21). They also have difficulty abandoning demonstrably ineffective strategies when approaching problem-solving tasks (21,22), a type of behavioral inflexibility referred to as perseveration. Perseveration and impaired set shifting are consistent with distractibility and impulsivity, factors that at least theoretically might contribute to attention and learning problems (11,22,23).

Effects on Brain Structure

The behavioral and cognitive impairments associated with FAS reflect underlying structural or functional changes in the brain (24). Techniques for viewing the living brain, such as magnetic resonance imaging (MRI), reveal reduced overall brain size in persons with FAS and disproportionate reductions in the size of specific brain structures (24).

One such area is the deep-brain structure called the basal ganglia (25,26). Damage to the basal ganglia impairs spatial memory and set shifting in animals (26,27) and various cognitive processes in humans (28). Another common finding is reduced size of the cerebellum (25,29), a structure involved in balance, gait, coordination, and cognition (30). Finally, prenatal alcohol exposure is the major cause of impaired development (30) or complete absence (30,31) of the corpus callosum, a band of nerve fibers that forms the major communication link between the right and left halves of the brain. Approximately 7 percent of children with FAS may lack a corpus callosum, an incidence rate 20 times higher than that in the general population (30).

Potential Causal Mechanisms

The mechanisms that underlie alcohol-induced fetal brain damage have been studied in experimental animals and in nerve cells (i.e., neurons) grown in culture (32). Within the fetus, embryonic cells destined to become brain neurons grow in number, move to their ultimate locations, and mature into a wide variety of functionally distinct neuronal cell types, eventually forming connections with other brain cells in a predetermined pattern. Alcohol metabolism is associated with increased susceptibility to cell damage caused by potentially harmful substances called free radicals. Free radical damage can kill sensitive populations of brain cells at critical times of development in the first trimester of pregnancy (33,34). Other animal experiments suggest that the third trimester may also represent a particularly sensitive period for brain cell damage associated with FAS (35).

Alcohol or its metabolic breakdown products can also interfere with brain development by altering the production or function of natural regulatory substances that help promote the orderly growth and differentiation of neurons (32). Research using animals or cell cultures show that many of alcohol's adverse effects on brain cells can be prevented by treatments aimed at restoring the balance of regulatory substances upset by alcohol (36,37). Promising results have also been obtained in similar experiments by administering substances (i.e., antioxidants) that help protect cells against free radical-induced cell damage (38). This is only one of several potential mechanisms that may contribute to alcohol-related fetal injury. Further research is needed to determine if such an approach might prove both effective and safe in humans during pregnancy.

Effect of Maternal Drinking Levels

The minimum quantity of alcohol required to produce adverse fetal consequences is unknown (22). Clinically significant deficits are not common in children whose mothers drank less than approximately five drinks per occasion once per week (39). However, vulnerability to a given alcohol level during pregnancy varies markedly from person to person, possibly reflecting genetic factors, nutritional status, environmental factors, co-occurring diseases, and maternal age (40). Prospects for Prevention FAS and ARND could be completely eliminated if pregnant women did not consume alcohol. Therefore, recent FAS prevention research has focused on finding and treating women who drink during pregnancy. For example, TWEAK (41)-a brief questionnaire for assessing alcohol problems in women-shows promise as a screening instrument for identifying risk drinking by pregnant women (42).

Pregnant women who are consuming alcohol but are not "problem" drinkers may decrease their drinking level following such an assessment without subsequent treatment (43). An overall decline in alcohol consumption has also been noted among pregnant women following a brief intervention, which can be conducted by a primary care provider (43). Such sessions may include a discussion of the risks of maternal drinking and suggested alternatives to alcohol use. Pregnant women with higher drinking levels may benefit from a 1-hour motivational interview focusing on the health of the unborn child (44). Women who are alcohol dependent require intensive alcoholism treatment (44).

Fetal Exposure and the Brain-A Commentary by NIAAA Director Enoch Gordis, M.D.

Since our last paper on FAS, published in 1991, the pace of research on the effects of alcohol on the fetus has accelerated appreciably. Progress has been made most notably in research aimed at understanding the basic mechanisms involved in the neurobiological damage that occurs in alcohol-exposed fetuses and in developing potential new therapies to prevent that damage. We also have increased our understanding of the long-term cognitive and physical challenges of children who were exposed to alcohol in the womb. As a result, clinicians and behavioral scientists are finding ways to identify these children early and ways to help.

Despite the many gains in knowledge, we still do not know if there is a "safe" dose of alcohol that can be consumed by pregnant women without risking damage to their unborn children. Until such a safe dose, if it exists, can be determined, the only responsible advice to women who wish to become pregnant and to those who are pregnant is to avoid alcohol use entirely. Unfortunately, many women continue to drink during pregnancy. Furthermore, many of the women who continue to drink during pregnancy are at highest risk for having children with fetal alcohol syndrome and related problems. Thus, finding potent new ways to reach populations at risk and to influence changes in their behavior remains a challenge for alcohol research.

Useful Links

Binge Drinking

Drug Addiction

Alcohol and Prescription Drugs

Alcoholism

Alcohol Cravings

Dangers of Drinking

Alcohol and Brain Cells