FETAL ALCOHOL SPECTRUM DISORDERS (FASDS) are a group of conditions that can occur in a person whose mother drank alcohol during pregnancy . Problems may include an abnormal appearance, short height, low body weight, small head size , poor coordination, low intelligence, behavior problems, and problems with hearing or seeing . Those affected are more likely to have trouble in school, legal problems, participate in high-risk behaviors, and have trouble with alcohol or other drugs . The most severe form of the condition is known as FETAL ALCOHOL SYNDROME (FAS). Other types include partial fetal alcohol syndrome (pFAS), alcohol-related neurodevelopmental disorder (ARND) and alcohol-related birth defects (ARBD). Some accept only FAS as a diagnosis, seeing the evidence as inconclusive with respect to other types.
Fetal alcohol spectrum disorders are caused by drinking alcohol
during pregnancy. Surveys from the
Fetal alcohol spectrum disorders are preventable by avoiding alcohol. For this reason, medical authorities recommend no alcohol during pregnancy or while trying to become pregnant. While the condition is permanent, treatment can improve outcomes. Interventions may include parent-child interaction therapy , efforts to modify child behavior, and possibly medications.
FASD is estimated to affect between 2% and 5% of people in the United
States and Western Europe. FAS is believed to occur in between 0.2
and 9 per 1000 live births in the United States. In
* 1 Types
* 2 Signs and symptoms
* 2.1 Growth * 2.2 Facial features
* 2.3 Central nervous system
* 2.3.1 Structural * 2.3.2 Neurological * 2.3.3 Functional
* 2.4 Related signs
* 3 Cause * 4 Mechanism
* 5 Diagnosis
Fetal alcohol syndrome
* 5.3 Fetal alcohol effects
* 5.3.1 Alcohol-related neurodevelopmental disorder * 5.3.2 Alcohol-related birth defects
* 5.4 Exposure
* 5.4.1 Confirmed exposure * 5.4.2 Unknown exposure * 5.4.3 Confirmed absence of exposure
* 5.5 Ten brain domains * 5.6 Differential diagnosis
* 6 Prevention
* 7 Treatment
* 8 Prognosis
* 8.1 Primary disabilities * 8.2 Secondary disabilities * 8.3 Protective factors and strengths
* 9 Epidemiology
* 9.1 Australia
* 10 History
* 10.1 Historical references * 10.2 Recognition as a syndrome
* 11 See also * 12 References * 13 External links
FASDs encompass a range of physical and neurodevelopmental problems that can result from prenatal alcohol exposure. The most severe condition is called fetal alcohol syndrome (FAS), which refers to individuals who have a specific set of birth defects and neurodevelopmental disorders characteristic of the diagnosis.
Some accept only FAS as a diagnosis, seeing the evidence as inconclusive with respect to other types. Partial fetal alcohol syndrome (pFAS) refers to individuals with a known, or highly suspected, history of prenatal alcohol exposure who have alcohol-related physical and neurodevelopmental deficits that don’t meet the full criteria for FAS. The subtypes of pFAS are alcohol-related neurodevelopmental disorder (ARND) and alcohol-related birth defects (ARBD). In addition to FAS, pFAS, ARND, and ARBD, any other conditions believed to be related to prenatal alcohol exposure, such as spontaneous abortion and sudden infant death syndrome (SIDS), are also considered to be on the spectrum of related disorders. It is unclear as of 2017 if identifying a FASD-related conditions benefits the individual.
SIGNS AND SYMPTOMS
Facial characteristics of a child with FAS
The key of FASD can vary between individuals exposed to alcohol during pregnancy. While consensus exists for the definition and diagnosis of FAS, minor variations among the systems lead to differences in definitions and diagnostic cut-off criteria for other diagnoses across the FASD continuum. The central nervous system damage criteria particularly lack clear consensus. A working knowledge of the key features is helpful in understanding FASD diagnoses and conditions, and each is reviewed with attention to similarities and differences across the four diagnostic systems. More than 400 problems, however, can occur with FASD.
In terms of FASD, growth deficiency is defined as significantly below average height , weight or both due to prenatal alcohol exposure, and can be assessed at any point in the lifespan . Growth measurements must be adjusted for parental height, gestational age (for a premature infant ), and other postnatal insults (e.g., poor nutrition ), although birth height and weight are the preferred measurements. Deficiencies are documented when height or weight falls at or below the 10th percentile of standardized growth charts appropriate to the population.
Criteria for FASD are least specific in the IOM diagnostic system ("low birth weight..., decelerating weight not due to nutrition..., disproportional low weight to height" p. 4 of executive summary), while the CDC and Canadian guidelines use the 10th percentile as a cut-off to determine growth deficiency. The "4-Digit Diagnostic Code" allows for mid-range gradations in growth deficiency (between the 3rd and 10th percentiles) and severe growth deficiency at or below the 3rd percentile. Growth deficiency (at severe, moderate, or mild levels) contributes to diagnoses of FAS and pFAS, but not ARND or static encephalopathy.
Growth deficiency is ranked as follows by the "4-Digit Diagnostic Code":
* Severe: Height and weight at or below the 3rd percentile. * Moderate: Either height or weight at or below the 3rd percentile, but not both. * Mild: Either height or weight or both between the 3rd and 10th percentiles. * None: Height and weight both above the 10th percentile.
In the initial studies that discovered FAS, growth deficiency was a requirement for inclusion in the studies; thus, all the original people with FAS had growth deficiency as an artifact of sampling characteristics used to establish criteria for the syndrome. That is, growth deficiency is a key feature of FASD because growth deficiency was a criterion for inclusion in the study that defined FAS. This suggests growth deficiency may be less critical for understanding the disabilities of FASD than the neurobehavioral sequelae to the brain damage.
Several characteristic craniofacial abnormalities are often visible in individuals with FAS. The presence of FAS facial features indicates brain damage , though brain damage may also exist in their absence. FAS facial features (and most other visible, but non-diagnostic, deformities) are believed to be caused mainly during the 10th and 20th week of gestation.
Refinements in diagnostic criteria since 1975 have yielded three distinctive and diagnostically significant facial features known to result from prenatal alcohol exposure and distinguishes FAS from other disorders with partially overlapping characteristics. The three FAS facial features are:
* A smooth philtrum : The divot or groove between the nose and upper lip flattens with increased prenatal alcohol exposure. * Thin vermilion: The upper lip thins with increased prenatal alcohol exposure. * Small palpebral fissures : Eye width decreases with increased prenatal alcohol exposure.
Measurement of FAS facial features uses criteria developed by the
University of Washington. The lip and philtrum are measured by a
trained physician with the Lip-
Ranking FAS facial features is complicated because the three separate facial features can be affected independently by prenatal alcohol. A summary of the criteria follows:
* Severe: All three facial features ranked independently as severe (lip ranked at 4 or 5, philtrum ranked at 4 or 5, and PFL two or more standard deviations below average). * Moderate: Two facial features ranked as severe and one feature ranked as moderate (lip or philtrum ranked at 3, or PFL between one and two standard deviations below average).
* Mild: A mild ranking of FAS facial features covers a broad range of facial feature combinations:
* Two facial features ranked severe and one ranked within normal limits, * One facial feature ranked severe and two ranked moderate, or * One facial feature ranked severe, one ranked moderate and one ranked within normal limits.
* None: All three facial features ranked within normal limits.
CENTRAL NERVOUS SYSTEM
Central nervous system (CNS) damage is the primary key feature of any FASD diagnosis. Prenatal alcohol exposure, which is classified as a teratogen , can damage the brain across a continuum of gross to subtle impairments, depending on the amount, timing, and frequency of the exposure as well as genetic predispositions of the fetus and mother. While functional abnormalities are the behavioral and cognitive expressions of the FASD disability, CNS damage can be assessed in three areas: structural, neurological, and functional impairments.
All four diagnostic systems allow for assessment of CNS damage in these areas, but criteria vary. The IOM system requires structural or neurological impairment for a diagnosis of FAS, but also allows a "complex pattern" of functional anomalies for diagnosing PFAS and ARND. The "4-Digit Diagnostic Code" and CDC guidelines allow for a positive CNS finding in any of the three areas for any FASD diagnosis, but functional anomalies must measure at two standard deviations or worse in three or more functional domains for a diagnoses of FAS, PFAS, and ARND. The "4-Digit Diagnostic Code" also allows for an FASD diagnosis when only two functional domains are measured at two standard deviations or worse. The "4-Digit Diagnostic Code" further elaborates the degree of CNS damage according to four ranks:
* Definite: Structural impairments or neurological impairments for FAS or static encephalopathy. * Probable: Significant dysfunction of two standard deviations or worse in three or more functional domains. * Possible: Mild to moderate dysfunction of two standard deviations or worse in one or two functional domains or by judgment of the clinical evaluation team that CNS damage cannot be dismissed. * Unlikely: No evidence of CNS damage.
Structural abnormalities of the brain are observable, physical damage to the brain or brain structures caused by prenatal alcohol exposure. Structural impairments may include microcephaly (small head size) of two or more standard deviations below the average, or other abnormalities in brain structure (e.g., agenesis of the corpus callosum , cerebellar hypoplasia ).
Evidence of a CNS structural impairment due to prenatal alcohol exposure will result in a diagnosis of FAS, and neurological and functional impairments are highly likely.
During the first trimester of pregnancy, alcohol interferes with the migration and organization of brain cells , which can create structural deformities or deficits within the brain. During the third trimester, damage can be caused to the hippocampus , which plays a role in memory, learning, emotion, and encoding visual and auditory information, all of which can create neurological and functional CNS impairments as well.
As of 2002, there were 25 reports of autopsies on infants known to have FAS. The first was in 1973, on an infant who died shortly after birth. The examination revealed extensive brain damage, including microcephaly, migration anomalies, callosal dysgenesis, and a massive neuroglial , leptomeningeal heterotopia covering the left hemisphere.
In 1977, Dr. Clarren described a second infant whose mother was a binge drinker. The infant died ten days after birth. The autopsy showed severe hydrocephalus , abnormal neuronal migration, and a small corpus callosum (which connects the two brain hemispheres ) and cerebellum . FAS has also been linked to brainstem and cerebellar changes, agenesis of the corpus callosum and anterior commissure , neuronal migration errors, absent olfactory bulbs , meningomyelocele , and porencephaly .
When structural impairments are not observable or do not exist, neurological impairments are assessed. In the context of FASD, neurological impairments are caused by prenatal alcohol exposure which causes general neurological damage to the central nervous system (CNS), the peripheral nervous system , or the autonomic nervous system . A determination of a neurological problem must be made by a trained physician, and must not be due to a postnatal insult, such as a high fever , concussion , traumatic brain injury , etc.
All four diagnostic systems show virtual agreement on their criteria for CNS damage at the neurological level, and evidence of a CNS neurological impairment due to prenatal alcohol exposure will result in a diagnosis of FAS or pFAS, and functional impairments are highly likely.
Neurological problems are expressed as either hard signs, or diagnosable disorders, such as epilepsy or other seizure disorders , or soft signs. Soft signs are broader, nonspecific neurological impairments, or symptoms, such as impaired fine motor skills , neurosensory hearing loss , poor gait , clumsiness , poor eye-hand coordination. Many soft signs have norm-referenced criteria , while others are determined through clinical judgment. "Clinical judgment" is only as good as the clinician, and soft signs should be assessed by either a pediatric neurologist, a pediatric neuropsychologist, or both.
When structural or neurological impairments are not observed, all four diagnostic systems allow CNS damage due to prenatal alcohol exposure to be assessed in terms of functional impairments. Functional impairments are deficits, problems, delays, or abnormalities due to prenatal alcohol exposure (rather than hereditary causes or postnatal insults) in observable and measurable domains related to daily functioning, often referred to as developmental disabilities . There is no consensus on a specific pattern of functional impairments due to prenatal alcohol exposure and only CDC guidelines label developmental delays as such, so criteria (and FASD diagnoses) vary somewhat across diagnostic systems.
The four diagnostic systems list various CNS domains that can qualify for functional impairment that can determine an FASD diagnosis:
* Evidence of a complex pattern of behavior or cognitive abnormalities inconsistent with developmental level in the following CNS domains – Sufficient for a pFAS or ARND diagnosis using IOM guidelines
* Learning disabilities , academic achievement, impulse control , social perception , communication , abstraction , math skills, memory , attention , judgment
* Performance at two or more standard deviations on standardized testing in three or more of the following CNS domains – Sufficient for an FAS, pFAS or static encephalopathy diagnosis using 4-Digit Diagnostic Code
* Executive functioning , memory , cognition , social/adaptive skills , academic achievement, language , motor skills , attention , activity level
* General cognitive deficits (e.g., IQ ) at or below the 3rd percentile on standardized testing – Sufficient for an FAS diagnosis using CDC guidelines
* Performance at or below the 16th percentile on standardized testing in three or more of the following CNS domains – Sufficient for an FAS diagnosis using CDC guidelines
* Cognition , executive functioning , motor functioning , attention and hyperactive problems , social skills , sensory processing disorder , social communication , memory , difficulties responding to common parenting practices
* Performance at two or more standard deviations on standardized testing in three or more of the following CNS domains – Sufficient for an FAS diagnosis using Canadian guidelines
* Cognition, communication , academic achievement, memory , executive functioning , adaptive behavior , motor skills , social skills , social communication
Other conditions may commonly co-occur with FAS, stemming from prenatal alcohol exposure. However, these conditions are considered alcohol-related birth defects and not diagnostic criteria for FAS.
* Heart: A heart murmur that frequently disappears by one year of
Ventricular septal defect
Fetal alcohol syndrome
Evidence of harm from less than two drinks per day or 10 drinks per week is not clear. While small amounts of alcohol do not cause an abnormal appearance it may cause behavioral issues. There is conflicting evidence regarding whether drinking by fathers before conception can cause FAS.
Despite intense research efforts, it has not been possible to identify a single clear-cut mechanism for development of FAS or FASD. On the contrary, clinical and animal studies have identified a broad spectrum of pathways through which maternal alcohol can negatively affect the outcome of a pregnancy. Clear conclusions with universal validity are difficult to draw, since different ethnic groups show considerable genetic polymorphism for the hepatic enzymes responsible for ethanol detoxification.
Genetic examinations have revealed a continuum of long-lasting molecular effects that are not only timing specific but are also dosage specific; with even moderate amounts being able to cause alterations.
A human fetus appears to be at triple risk from maternal alcohol consumption:
* The placenta allows free entry of ethanol and toxic metabolites like acetaldehyde into the fetal compartment. The so-called placental barrier is no barrier with respect to ethanol. * The developing fetal nervous system appears particularly sensitive to ethanol toxicity. The latter impacts negatively on proliferation, differentiation, neuronal migration, axonic outgrowth, integration and fine tuning of the synaptic network. In short, all major processes in the developing central nervous system appear compromised. * Fetal tissues are quite different from adult tissues in function and purpose. For example, the main detoxicating organ in adults is the liver , whereas fetal liver is incapable of detoxicating ethanol as the ADH and ALDH enzymes have not yet been brought to expression at this early stage. Up to term, fetal tissues do not have significant capacity for the detoxification of ethanol, and the fetus remains exposed to ethanol in the amniotic fluid for periods far longer than the decay time of ethanol in the maternal circulation.
Generally, fetal tissues have far less antioxidant protection than adult tissues as they express no significant quantities ADH or ALDH, and far less antioxidant enzymes like SOD , glutathione transferases or glutathion peroxidases .
Because admission of alcohol use during pregnancy can stigmatize birth mothers, many are reluctant to admit drinking or to provide an accurate report of the quantity they drank. This complicates diagnosis and treatment of the syndrome. As a result, diagnosis of the severity of FASD relies on protocols of observation of the child's physiology and behavior rather than maternal self-reporting. Presently, four FASD diagnostic systems that diagnose FAS and other FASD conditions have been developed in North America:
Institute of Medicine 's guidelines for FAS, the first system
to standardize diagnoses of individuals with prenatal alcohol
University of Washington 's "The 4-Digit Diagnostic Code,"
which ranks the four key features of FASD on a
Likert scale of one to
four and yields 256 descriptive codes that can be categorized into 22
distinct clinical categories, ranging from FAS to no findings;
Centers for Disease Control 's "Fetal Alcohol Syndrome:
Guidelines for Referral and Diagnosis," which established consensus on
the diagnosis FAS in the U.S. but deferred addressing other FASD
* Canadian guidelines for FASD diagnoses, which established criteria
for diagnosing FASD in
Each diagnostic system requires that a complete FASD evaluation includes an assessment of the four key features of FASD, described below. A positive finding on all four features is required for a diagnosis of FAS. However, prenatal alcohol exposure and central nervous system damage are the critical elements of the spectrum of FASD, and a positive finding in these two features is sufficient for an FASD diagnosis that is not "full-blown FAS".
While the four diagnostic systems essentially agree on criteria for fetal alcohol syndrome (FAS), there are still differences when full criteria for FAS are not met. This has resulted in differing and evolving nomenclature for other conditions across the spectrum of FASD, which may account for such a wide variety of terminology. Most individuals with deficits resulting from prenatal alcohol exposure do not express all features of FAS and fall into other FASD conditions. The Canadian guidelines recommend the assessment and descriptive approach of the "4-Digit Diagnostic Code" for each key feature of FASD and the terminology of the IOM in diagnostic categories, excepting ARBD.
Thus, other FASD conditions are partial expressions of FAS. However, these other FASD conditions may create disabilities similar to FAS if the key area of central nervous system damage shows clinical deficits in two or more of ten domains of brain functioning . Essentially, even though growth deficiency and/or FAS facial features may be mild or nonexistent in other FASD conditions, yet clinically significant brain damage of the central nervous system is present. In these other FASD conditions, an individual may be at greater risk for adverse outcomes because brain damage is present without associated visual cues of poor growth or the "FAS face" that might ordinarily trigger an FASD evaluation. Such individuals may be misdiagnosed with primary mental health disorders such as ADHD or oppositional defiance disorder without appreciation that brain damage is the underlying cause of these disorders, which requires a different treatment paradigm than typical mental health disorders. While other FASD conditions may not yet be included as an ICD or DSM-IV-TR diagnosis, they nonetheless pose significant impairment in functional behavior because of underlying brain damage.
FETAL ALCOHOL SYNDROME
The following criteria must be fully met for an FAS diagnosis:
* Growth deficiency: Prenatal or postnatal height or weight (or both) at or below the 10th percentile * FAS facial features: All three FAS facial features present * Central nervous system damage: Clinically significant structural neurological, or functional impairment * Prenatal alcohol exposure: Confirmed or Unknown prenatal alcohol exposure
Fetal alcohol syndrome
Partial FAS (pFAS), previously known as atypical FAS in the 1997 edition of the "4-Digit Diagnostic Code". People with pFAS have a confirmed history of prenatal alcohol exposure, but may lack growth deficiency or the complete facial stigmata. Central nervous system damage is present at the same level as FAS. These individuals have the same functional disabilities but "look" less like FAS.
The following criteria must be fully met for a diagnosis of Partial FAS:
* Growth deficiency: Growth or height may range from normal to deficient * FAS facial features: Two or three FAS facial features present * Central nervous system damage: Clinically significant structural, neurological, or functional impairment in three or more of the Ten Brain Domains * Prenatal alcohol exposure: Confirmed prenatal alcohol exposure
FETAL ALCOHOL EFFECTS
Fetal alcohol effects (FAE) is a previous term for alcohol-related neurodevelopmental disorder and alcohol-related birth defects. It was initially used in research studies to describe humans and animals in whom teratogenic effects were seen after confirmed prenatal alcohol exposure (or unknown exposure for humans), but without obvious physical anomalies. Smith (1981) described FAE as an "extremely important concept" to highlight the debilitating effects of brain damage, regardless of the growth or facial features. This term has fallen out of favor with clinicians because it was often regarded by the public as a less severe disability than FAS, when in fact its effects can be just as detrimental.
Alcohol-related Neurodevelopmental Disorder
Alcohol-related neurodevelopmental disorder (ARND) was initially suggested by the Institute of Medicine to replace the term FAE and focus on central nervous system damage, rather than growth deficiency or FAS facial features. The Canadian guidelines also use this diagnosis and the same criteria. While the "4-Digit Diagnostic Code" includes these criteria for three of its diagnostic categories, it refers to this condition as static encephalopathy . The behavioral effects of ARND are not necessarily unique to alcohol however, so use of the term must be within the context of confirmed prenatal alcohol exposure. ARND may be gaining acceptance over the terms FAE and ARBD to describe FASD conditions with central nervous system abnormalities or behavioral or cognitive abnormalities or both due to prenatal alcohol exposure without regard to growth deficiency or FAS facial features.
The following criteria must be fully met for a diagnosis of ARND or static encephalopathy:
* Growth deficiency: Growth or height may range from normal to minimally deficient * FAS facial features: Minimal or no FAS facial features present * Central nervous system damage: Clinically significant structural, neurological, or functional impairment in three or more of the Ten Brain Domains * Prenatal alcohol exposure: Confirmed prenatal alcohol exposure;0
Alcohol-related Birth Defects
Alcohol-related birth defects (ARBD), formerly known as possible fetal alcohol effect (PFAE), was a term proposed as an alternative to FAE and PFAE The IOM presents ARBD as a list of congenital anomalies that are linked to maternal alcohol use but have no key features of FASD. PFAE and ARBD have fallen out of favor because these anomalies are not necessarily specific to maternal alcohol consumption and are not criteria for diagnosis of FASD. The Canadian guidelines recommend that ARBD should not be used as an umbrella term or diagnostic category for FASD.
Prenatal alcohol exposure is determined by interview of the biological mother or other family members knowledgeable of the mother's alcohol use during the pregnancy (if available), prenatal health records (if available), and review of available birth records, court records (if applicable), chemical dependency treatment records (if applicable), or other reliable sources.
Exposure level is assessed as confirmed exposure, unknown exposure, and confirmed absence of exposure by the IOM, CDC and Canadian diagnostic systems. The "4-Digit Diagnostic Code" further distinguishes confirmed exposure as High Risk and Some Risk:
* High Risk: Confirmed use of alcohol during pregnancy known to be at high blood alcohol levels (100 mg/dL or greater) delivered at least weekly in early pregnancy. * Some Risk: Confirmed use of alcohol during pregnancy with use less than High Risk or unknown usage patterns. * Unknown Risk: Unknown use of alcohol during pregnancy. * No Risk: Confirmed absence of prenatal alcohol exposure.
Amount, frequency, and timing of prenatal alcohol use can dramatically impact the other three key features of FASD. While consensus exists that alcohol is a teratogen, there is no clear consensus as to what level of exposure is toxic. The CDC guidelines are silent on these elements diagnostically. The IOM and Canadian guidelines explore this further, acknowledging the importance of significant alcohol exposure from regular or heavy episodic alcohol consumption in determining, but offer no standard for diagnosis. Canadian guidelines discuss this lack of clarity and parenthetically point out that "heavy alcohol use" is defined by the National Institute on Alcohol Abuse and Alcoholism as five or more drinks per episode on five or more days during a 30-day period.
"The 4-Digit Diagnostic Code" ranking system distinguishes between levels of prenatal alcohol exposure as high risk and some risk. It operationalizes high risk exposure as a blood alcohol concentration (BAC) greater than 100 mg/dL delivered at least weekly in early pregnancy. This BAC level is typically reached by a 55 kg female drinking six to eight beers in one sitting.
For many adopted or adults and children in foster care, records or other reliable sources may not be available for review. Reporting alcohol use during pregnancy can also be stigmatizing to birth mothers, especially if alcohol use is ongoing. In these cases, all diagnostic systems use an unknown prenatal alcohol exposure designation. A diagnosis of FAS is still possible with an unknown exposure level if other key features of FASD are present at clinical levels.
Confirmed Absence Of Exposure
Confirmed absence of exposure would apply to planned pregnancies in which no alcohol was used or pregnancies of women who do not use alcohol or report no use during the pregnancy. This designation is relatively rare, as most people presenting for an FASD evaluation are at least suspected to have had a prenatal alcohol exposure due to presence of other key features of FASD.
TEN BRAIN DOMAINS
A recent effort to standardize assessment of functional CNS damage has been suggested by an experienced FASD diagnostic team in Minnesota. The proposed framework attempts to harmonize IOM, 4-Digit Diagnostic Code, CDC, and Canadian guidelines for measuring CNS damage vis-à-vis FASD evaluations and diagnosis. The standardized approach is referred to as the Ten Brain Domains and encompasses aspects of all four diagnostic systems' recommendations for assessing CNS damage due to prenatal alcohol exposure. The framework provides clear definitions of brain dysfunction, specifies empirical data needed for accurate diagnosis, and defines intervention considerations that address the complex nature of FASD with the intention to avoid common secondary disabilities.
The proposed Ten Brain Domains include:
* Achievement , adaptive behavior , attention , cognition , executive functioning , language , memory , motor skills , multisensory integration or soft neurological problems, social communication
The Fetal Alcohol Diagnostic Program (FADP) uses unpublished Minnesota state criteria of performance at 1.5 or more standard deviations on standardized testing in three or more of the Ten Brain Domains to determine CNS damage. However, the Ten Brain Domains are easily incorporated into any of the four diagnostic systems' CNS damage criteria, as the framework only proposes the domains, rather than the cut-off criteria for FASD.
The CDC reviewed nine syndromes that have overlapping features with FAS; however, none of these syndromes include all three FAS facial features, and none are the result of prenatal alcohol exposure:
* Aarskog syndrome * Williams syndrome * Noonan syndrome * Dubowitz syndrome * Brachman-DeLange syndrome * Toluene syndrome * Fetal hydantoin syndrome * Fetal valproate syndrome * Maternal PKU fetal effects
The only certain way to prevent FAS is to avoid drinking alcohol during pregnancy. In the United States, the Surgeon General recommended in 1981, and again in 2005, that women abstain from alcohol use while pregnant or while planning a pregnancy, the latter to avoid damage even in the earliest stages (even weeks) of a pregnancy, as the woman may not be aware that she has conceived . In the United States, federal legislation has required that warning labels be placed on all alcoholic beverage containers since 1988 under the Alcoholic Beverage Labeling Act .
There is some controversy surrounding the "zero-tolerance" approach taken by many countries when it comes to alcohol consumption during pregnancy. The assertion that moderate drinking causes FAS is said to lack strong evidence and, in fact, the practice of equating a responsible level of drinking with potential harm to the fetus may have negative social, legal, and health impacts. In addition, special care should be taken when considering statistics on this disease, as prevalence and causation is often linked with FASD, which is more common and causes less harm, as opposed to FAS.
There is no cure for FASD, but treatment is possible. Because CNS damage, symptoms, secondary disabilities, and needs vary widely by individual, there is no one treatment type that works for everyone.
Psychoactive drugs are frequently tried on those with FASD as many FASD symptoms are mistaken for or overlap with other disorders, most notably ADHD .
Behavioral interventions are based on the learning theory , which is the basis for many parenting and professional strategies and interventions. Along with ordinary parenting styles , such strategies are frequently used by default for treating those with FAS, as the diagnoses oppositional defiance disorder (ODD), conduct disorder , reactive attachment disorder (RAD) often overlap with FAS (along with ADHD ), and these are sometimes thought to benefit from behavioral interventions. Frequently, a person's poor academic achievement results in special education services, which also utilizes principles of learning theory , behavior modification , and outcome-based education .
Many books and handouts on FAS recommend a developmental approach, based on developmental psychology , even though most do not specify it as such and provide little theoretical background. Optimal human development generally occurs in identifiable stages (e.g., Jean Piaget 's theory of cognitive development , Erik Erikson 's stages of psychosocial development , John Bowlby 's attachment framework , and other developmental stage theories ). FAS interferes with normal development, which may cause stages to be delayed, skipped, or immaturely developed. Over time, an unaffected child can negotiate the increasing demands of life by progressing through stages of development normally, but not so for a child with FAS.
By knowing what developmental stages and tasks children follow, treatment and interventions for FAS can be tailored to helping a person meet developmental tasks and demands successfully. If a person is delayed in the adaptive behavior domain, for instance, then interventions would be recommended to target specific delays through additional education and practice (e.g., practiced instruction on tying shoelaces), giving reminders, or making accommodations (e.g., using slip-on shoes) to support the desired functioning level. This approach is an advance over behavioral interventions, because it takes the person's developmental context into account while developing interventions.
The advocacy model takes the point of view that someone is needed to actively mediate between the environment and the person with FAS. Advocacy activities are conducted by an advocate (for example, a family member, friend, or case manager ) and fall into three basic categories. An advocate for FAS: (1) interprets FAS and the disabilities that arise from it and explains it to the environment in which the person operates, (2) engenders change or accommodation on behalf of the person, and (3) assists the person in developing and reaching attainable goals.
The advocacy model is often recommended, for example, when developing an Individualized Education Program (IEP) for the person's progress at school.
An understanding of the developmental framework would presumably inform and enhance the advocacy model, but advocacy also implies interventions at a systems level as well, such as educating schools, social workers, and so forth on best practices for FAS. However, several organizations devoted to FAS also use the advocacy model at a community practice level as well.
PUBLIC HEALTH AND POLICY
Treating FAS at the public health and public policy level promotes FAS prevention and diversion of public resources to assist those with FAS. It is related to the advocacy model but promoted at a systems level (rather than with the individual or family), such as developing community education and supports, state or province level prevention efforts (e.g., screening for maternal alcohol use during OB/GYN or prenatal medical care visits), or national awareness programs. Several organizations and state agencies in the U.S. are dedicated to this type of intervention.
Centers for Disease Control estimates 3 million women in the
The primary disabilities of FAS are the functional difficulties with which the child is born as a result of CNS damage due to prenatal alcohol exposure. Often, primary disabilities are mistaken as behavior problems, but the underlying CNS damage is the originating source of a functional difficulty, rather than a mental health condition, which is considered a secondary disability.
The exact mechanisms for functional problems of primary disabilities are not always fully understood, but animal studies have begun to shed light on some correlates between functional problems and brain structures damaged by prenatal alcohol exposure. Representative examples include:
* Learning impairments are associated with impaired dendrites of the
* Impaired motor development and functioning are associated with
reduced size of the cerebellum
Functional difficulties may result from CNS damage in more than one domain, but common functional difficulties by domain include: Note that this is not an exhaustive list of difficulties.
* Achievement: Learning disabilities
* Adaptive behavior: Poor impulse control , poor personal boundaries
, poor anger management , stubbornness, intrusive behavior, too
friendly with strangers, poor daily living skills , developmental
* Attention: Attention-Deficit/
The secondary disabilities of FAS are those that arise later in life secondary to CNS damage. These disabilities often emerge over time due to a mismatch between the primary disabilities and environmental expectations; secondary disabilities can be ameliorated with early interventions and appropriate supportive services.
Six main secondary disabilities were identified in a University of Washington research study of 473 subjects diagnosed with FAS, PFAS (partial fetal alcohol syndrome), and ARND (alcohol-related neurodevelopmental disorder):
* Mental health problems: Diagnosed with ADHD , Clinical Depression , or other mental illness , experienced by over 90% of the subjects * Disrupted school experience: Suspended or expelled from school or dropped out of school, experienced by 60% of the subjects (age 12 and older) * Trouble with the law: Charged or convicted with a crime, experienced by 60% of the subjects (age 12 and older) * Confinement: For inpatient psychiatric care, inpatient chemical dependency care, or incarcerated for a crime, experienced by about 50% of the subjects (age 12 and older) * Inappropriate sexual behavior: Sexual advances, sexual touching, or promiscuity, experienced by about 50% of the subjects (age 12 and older) * Alcohol and drug problems: Abuse or dependency, experienced by 35% of the subjects (age 12 and older)
Two additional secondary disabilities exist for adults:
* Dependent living: Group home, living with family or friends, or some sort of assisted living, experienced by 80% of the subjects (age 21 and older) * Problems with employment: Required ongoing job training or coaching, could not keep a job, unemployed, experienced by 80% of the subjects (age 21 and older)
PROTECTIVE FACTORS AND STRENGTHS
Eight factors were identified in the same study as universal protective factors that reduced the incidence rate of the secondary disabilities:
* Living in a stable and nurturing home for over 73% of life * Being diagnosed with FAS before age six * Never having experienced violence * Remaining in each living situation for at least 2.8 years * Experiencing a "good quality home" (meeting 10 or more defined qualities) from age 8 to 12 years old * Having been found eligible for developmental disability (DD) services * Having basic needs met for at least 13% of life * Having a diagnosis of FAS (rather than another FASD condition)
Malbin (2002) has identified the following areas of interests and talents as strengths that often stand out for those with FASD and should be utilized, like any strength, in treatment planning:
* Music, playing instruments, composing, singing, art, spelling, reading, computers, mechanics, woodworking, skilled vocations (welding, electrician, etc.), writing, poetry * Participation in non-impact sport or physical fitness activities
FASD is estimated to affect between 2% and 5% of people in the United States and Western Europe. FAS is believed to occur in between 0.2 and 9 per 1000 live births in the United States. The lifetime cost of an individual with FAS were estimated to be two million USD in 2002.
See also: Drinking culture in Australia
From the 1960s to the 1980s, alcohol was commonly used as a tocolytic , a method to stop preterm labor. The method originated with Dr. Fritz Fuchs, the chairman of the department of obstetrics and gynecology at Cornell University Medical College. Doctors recommended a small amount of alcohol to calm the uterus during contractions in early pregnancy or Braxton Hicks contractions. In later stages of pregnancy, the alcohol was administered intravenously and often in large amounts. "Women experienced similar effects as occur with oral ingestion, including intoxication, nausea and vomiting, and potential alcohol poisoning, followed by hangovers when the alcohol was discontinued." Vomiting put the mother at a high risk for aspiration and was "a brutal procedure for all involved." Because the alcohol was being given intravenously, the doctor could continue giving the treatment to the mother long after she had passed out, resulting in her being more intoxicated than would otherwise be possible. Such heavy intoxication is highly likely to contribute to FASD.
Anecdotal accounts of prohibitions against maternal alcohol use from
Biblical , ancient Greek , and ancient Roman sources imply a
historical awareness of links between maternal alcohol use and
negative child outcomes. For example, in the King James' Version of
the Bible, Judges 13:4 reads: "Now therefore beware, I pray thee, and
drink not wine nor strong drink, and eat not any unclean thing". In
1725 British physicians petitioned the House of Commons on the effects
of strong drink when consumed by pregnant women saying that such
drinking is “…too often the cause of weak feeble and distempered
children, who must be, instead, of an advantage and strength, a charge
to their country.” There are many other such historical references.
The earliest recorded observation of possible links between maternal
alcohol use and fetal damage was made in 1899 by Dr. William Sullivan,
Prior to fetal alcohol syndrome being specifically identified and named in 1973, a few studies had noted differences between the children of mothers who used alcohol during pregnancy or breast-feeding and those who did not, but identified alcohol use as a possible contributing factor rather than heredity.
RECOGNITION AS A SYNDROME
Syndrome was named in 1973 by two dysmorphologists ,
Drs. Kenneth Lyons Jones and
David Weyhe Smith of the University of
Washington Medical School in
Dr. Paul Lemoine of
Within nine years of the Washington discovery, animal studies, including non-human monkey studies carried out at the University of Washington Primate Center by Dr. Sterling Clarren , had confirmed that alcohol was a teratogen . By 1978, 245 cases of FAS had been reported by medical researchers, and the syndrome began to be described as the most frequent known cause of intellectual disability .
While many syndromes are eponymous , i.e. named after the physician first reporting the association of symptoms, Dr. Smith named FAS after the causal agent of the symptoms. He reasoned that doing so would encourage prevention, believing that if people knew maternal alcohol consumption caused the syndrome, then abstinence during pregnancy would follow from patient education and public awareness. At the time, nobody was aware of the full range of possible birth defects from FAS or its rate of prevalence. Over time, as subsequent research and clinical experience suggested that a range of effects (including physical, behavioral, and cognitive) could arise from prenatal alcohol exposure, the term Fetal Alcohol Spectrum Disorder (FASD) was developed to include FAS as well as other conditions resulting from prenatal alcohol exposure. Currently, FAS is the only expression of prenatal alcohol exposure defined by the International Statistical Classification of Diseases and Related Health Problems and assigned ICD-9 and diagnoses.
* ^ A B C D E F G H I J K L M N O "Facts about FASDs". April 16,
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* ^ A B C D E F G H I J K Chudley; et al. (2005). "Fetal alcohol
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* ^ A B Rasmussen, Carmen; Andrew, Gail; Zwaigenbaum, Lonnie;
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* ^ A B "Alcohol Use in Pregnancy". 17 April 2014. Retrieved 10
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* ^ Coriale, G; Fiorentino, D; Di Lauro, F; Marchitelli, R;
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* ^ A B C Swedish Agency for Health Technology Assessment and
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* ^ A B Vice Admiral Richard H. Carmona (2005). "A 2005 Message to
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* ^ A B C D E F G H I J K L M N O P Q R S T Committee to Study
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Fetal alcohol syndrome
* MEDLINEPLUS : 000911 * EMEDICINE : ped/767
Wikimedia Commons has media related to FETAL ALCOHOL SYNDROME .
* v * t * e
Pregnancy and childbirth
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* Diabetes mellitus
Adaptation to extrauterine life
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Psychoactive substance-related disorder (F10–F19 , 291–292; 303–305 )
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Fetal alcohol syndrome
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Sedative / hypnotic
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Congenital malformation due to exogenous toxicity (Q86 , 760.7 )
* Fetal alcohol spectrum disorder
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