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Adoption Advocate No. 66: Recognizing FASD-Related Speech and Language Deficits in Internationally Adopted Children

Published December 2013 by Tatyana Elleseff

Nicole Callahan, Editor
Chuck Johnson, Editor

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Introduction

Fetal Alcohol Spectrum Disorder (FASD) is a syndrome that causes great controversy. Rather than a clinical diagnosis, it is an umbrella term for the range of neurological, cognitive, developmental, behavioral, communicative, and social deficits that can occur due to maternal alcohol consumption during pregnancy. A child with alcohol-related deficits will not receive a diagnosis of FASD, but rather will be diagnosed with one of the following: Fetal Alcohol Syndrome (FAS), Partial Fetal Alcohol Syndrome (pFAS), Alcohol Related Neurodevelopmental Disorders (ARND), Static Encephalopathy (SE), or Neurobehavioral Disorder (ND).

While it is recognized that alcohol-related disorders can cause a wide array of birth defects, the exact statistics on FASD as well as exact diagnostic criteria is a source of great debate among a variety of medical professionals. Unlike a number of other syndromes (such as Fragile X, Prader Willi, Angelman, etc.),presently no objective measures – such as blood tests or tissue analysis – exist to reliably diagnose alcohol-related deficits. To make a diagnosis, medical professionals primarily rely on observations: a pattern of growth deficits; central nervous system abnormalities;craniofacial malformations.Physicians also rely on records documenting maternal alcohol abuse during pregnancy and/or around the time of conception.1

With respect to statistical data, it is conservatively estimated that 1% of U.S. children are affected by FAS.2 However, the occurrence of FAS among internationally adopted children, especially those adopted from Eastern European countries, is estimated to be staggeringly higher.3,4

Further contributing to the public and professional confusion about FAS are various myths regarding its detection, such as the belief that FAS will be obvious as soon as the child is born, or that FAS is only present if there are clearly affected facial features. In fact, the specific facial features considered by many to be key diagnostic identifiers of FAS– e.g., features related to the shape of the eyes, ears, and lips; including short palpebral fissures, thin upper lip, and smooth philtrum – are only minor and inconsequential medical abnormalities which occur infrequently in children with alcohol-related deficits, and tend to change in appearance due to age-related structural skeletal changes.5 Consequently, according to current research, ARND, SE, and ND are far more prevalent but no less severe than diagnoses of FAS or pFAS.6

Despite all the available research, very limited information exists for parents and professionals regarding how alcohol-related speech and language deficits manifest in children. This article will provide an overview of how prenatal alcohol exposure affects social, communicative, and cognitive development. It will explain by whom alcohol-related deficits are diagnosed as well as which professionals can help create a comprehensive remediation plan for a child diagnosed with them. Finally, it will discuss how assessment and treatment approaches for alcohol-related deficits can improve a child’s optimum capacity for functioning in academic and social settings.

Effects of Alcohol on Brain and Speech Development

To begin, it is important to understand the impact of alcohol on developing brain structure and chemistry. Alcohol is a teratogen, or a substance which can potentially cause structural and functional congenital malformations. Exposure to alcohol in utero can significantly change brain formation, alter cortex development, disrupt neuronal quantity and pathways, and affect the production of neurotransmitters.7

Researchers have identified a number of brain differences in individuals with alcohol related deficits, including: thin/absent corpus callosum, change in fibers/reduction in cells of the hippocampus, reduction in volume or the frontal lobe, the basal ganglia, and the cerebellum as well as many other changes. These differences result in the following respective functional altercations: language and memory deficits;8, 9, 10 increased risk for chronic stress, anxiety, and depression;8, 11, 12 motor planning and control deficits;10 and executive function deficits.13, 14, 15

In addition to affecting the brain and other vital organs such as heart, eyes, etc., alcohol-induced malformations may also structurally affect various speech and language mechanisms16, 17 and may cause cleft palate,18 velopharyngeal insufficiency (nasal voice), or ear malformations that can increase the risk of conductive (fluid in the ear) or sensorineural (cranial nerve damage) hearing loss.19, 20 Other structural anomalies, such as undersized jaw (micrognathia), can cause teeth misalignment or malocclusions and affect speech production.21, 22

With respect to early development, many infants with FAS are born with low weight and show poor growth in utero and after birth.23 A large number will present with delayed developmental milestones, decreased muscle tone, and poor muscle coordination. Other issues often include failure to thrive, feeding and/or swallowing deficits, poor self regulation (e.g., increased levels of irritability; excessive crying), sleeping difficulties, increased sensitivity to sensory stimuli (e.g., hypersensitivity to light/sound), strong startle reflex, seizures and tremors,and attachment and bonding issues.24, 25

One of the more prominent deficits in children with alcohol-related deficits is delayed and impaired language ability. In early childhood, language impairment typically manifests via delayed language development and/or impaired language acquisition (e.g., delayed onset of babbling; delayed age of first words production and/or word combinations, etc.), which in some percentage of cases may be secondary to decreased/impaired cognitive functioning.26 As these children grow older, they experience slower and inconsistent language gains compared with unaffected children. Early developmental patterns, such as poor feeding skills and low muscle tone, also leads many children with alcohol-related deficits to struggle with speech production and articulation (e.g., poor pronunciation, etc).

Depending on the type and severity of alcohol-related nervous system damage (central and/or peripheral), language impairment may be evident across all domains (e.g., comprehension, expression, memory, etc.) or affect select few areas (e.g., verbal reasoning, social interactions, etc.). Alcohol-related language deficits often include reduced and immature vocabulary (understanding words as well as using words in sentences), reduced grammar skills, short sentence length, limited conversational skills, difficulty with word usage (such as an inability to make antonyms, synonyms, associations, etc.), difficulty with understanding abstract language (inability to comprehend idioms; words with multiple meanings),and immature storytelling abilities.

As these children reach preschool age, their language impairments become more apparent and parents begin to note memory, attention, and information processing deficits in addition to impaired expressive language abilities. Additional motor, cognitive, behavioral, and social-emotional warning signs begin to emerge, which may include but are not limited to: sensory integration deficits, excessive tantrums and emotional reactivity, hyperactivity, poor impulse control, and diminished judgment (e.g., child is too friendly with strangers).24, 25, 26

During school years, many children with FASD display impairments in the areas of reading, writing, and mathematics, and are subsequently diagnosed with learning disabilities. As they get older, significant challenges may also be noted in the other areas, such as problem-solving,social/emotional,and executive functioning.27, 28, 29

Diagnosis and Remediation: Multidisciplinary Approach

For accurate and comprehensive diagnosis, it is very important that this condition be diagnosed by a multidisciplinary team, especially because the subsequent management involves implementing and following through on the appropriate recommendations of various team members – including a physician, psychologist, a speech language pathologist, and an occupational therapist.30

The initial team member responsible for making the medical diagnosis is a physician, preferably one who specializes in working with medical issues common to internationally adopted children and is trained in FAS detection. The next team member is the psychologist, who can create a profile of the child’s deficits in the areas of cognitive, behavioral, and socio-emotional functioning and make recommendations regarding remediation strategies. In a vast majority of cases, it is also necessary to refer the child to a speech language pathologist (SLP) and an occupational therapist (OT) in order to understand and address the full extent of their deficits. The speech language pathologist will assess and document the child’s speech/language challenges, while the occupational therapist will be able to assess his or her adaptive functioning, fine and gross motor skills, and sensory integration.

Due to the controversy related to this diagnosis, oftentimes an education lawyer serves as an additional team member. A lawyer’s services may need to be retained in order to help the parents obtain appropriate support services within their child’s school system. Finally, for older youth with FAS, it is imperative that a transitional advocate be consulted regarding the best ways of assisting and supporting them with post-school transition.

Once the diagnosis of alcohol-related deficits has been confirmed and the necessary services have been obtained, only a small number of related multidisciplinary team professionals will need to see the child on a regular, long-term basis. These professionals are typically the psychologist, the speech language therapist, and possibly the occupational therapist. They are now the primary team members responsible for a design and implementation of a comprehensive remediation plan to assist the child with successful social and academic functioning.

Speech-Language Assessment of Children with Alcohol-Related Deficits in the Schools

According to a study published in the journal Developmental Disabilities Research Reviews, the prevalence of FAS among younger (e.g., 6- to 7-year-olds) school-aged children in the United States “may be as high as 2-5%.”31 However, children with alcohol-related deficits tend to “slip between the cracks” when it comes to qualifying for and receiving services.32 Public school professionals commonly report lack of knowledge on FASD and do not know how to appropriately plan for affected children.33 As the result these children tend to be underserved because their learning and behavioral difficulties are not always recognized and understood by educators.34

So how can we ensure that these children receive the appropriate diagnosis and services? For starters, it is important to collect detailed background information on the child, which can help determine the potential presence of alcohol related deficits.35 Speech-language professionals assessing the children in question should gather all available background information,including prenatal risk factors as well as growth and developmental milestones,in order to create a behavioral and linguistic deficits profile based on caregiver and teacher reports.After determining consistency of deficits, they can then select relevant language assessment instruments based on their preliminary findings. Less cognitively demanding tests may be chosen for children with severe language deficits, while specific deficits areas (e.g., problem-solving, social skills, etc.) may be assessed in higher functioning children via targeted instruments. Based on the testing results, a comprehensive remediation plan needs to be developed to improve the child’s functioning in affected areas while accounting for behavioral and linguistic deficits.

Many children with alcohol-related disorders present with complex behavior symptoms, which include but are not limited to inattention, hyperactivity, impulsivity, anxiety, poor self-control, and social immaturity. Consequently, an effective remediation plan must also account for the child’s behavioral manifestations, with relevant modifications that may include changes in the child’s physical space, session structure, session materials,and targeted management techniques for inappropriate behaviors.36 Similarly, an effective language remediation plan must identify the child’s strengths, weaknesses, and learning style(s), as well as account for “maintaining factors” – those variables that are maintaining the language disorder – which may include cognitive (e.g., intellectual disability), linguistic (e.g., word-finding problems), sensorimotor (e.g., poor hearing), and psychosocial (e.g., psychiatric diagnosis) deficits.37

Parental/caregiver education about FASD is another critical piece of the remediation plan. Not only do parents and all caregivers need to be educated on how alcohol-related deficits affect children,they must also learn how to effectively engage their child in learning at home despite these deficits.

Conclusion

Recognizing alcohol-related speech-language deficits is the first critical step in determining the appropriate diagnosis and ultimately identifying and providing relevant services for children with these disabilities. It is important to understand that the best treatment for any child with an alcohol-related diagnosis involves a focus on functionality, as well as on building up the child’s existing strengths while teaching them how to effectively compensate for their alcohol-related deficits. It is also important to understand that, depending on the severity of the child’s condition, the ultimate long-term goals may not always focus solely on academic achievement, but on the best possible outcomes for independent daily functioning.



 Tatyana Elleseff, MA, CCC-SLP is a New Jersey-based bilingual speech language pathologist who specializes in working with multicultural, internationally, and domestically adopted as well as at-risk children with complex communication disorders. Her articles have been published in several journals and magazines, including ASHA Perspectives on Global Issues in Communication Sciences and Related Disorders, Adoption Today, Adoption Australia, and Advance for Speech Language Pathologists and Audiologists. Tatyana has presented for a number of medical, academic, and nonprofit organizations, including Speechpathology.com; the American Academy of Pediatrics: Council on Foster Care, Adoption and Kinship Care;the New Jersey Taskforce on Child Abuse and Neglect;and the North American Council on Adoptable Children (NACAC). For more information, visit her Blog, Store, or find her on Facebook.


1 Stratton, K., Howe, C., and Battaglia, F. (Eds.) (1996). Fetal Alcohol Syndrome: Diagnosis, Epidemiology, Prevention, and Treatment. Institute of Medicine. National Academy Press. Washington, D.C.

2 May, P.A., & Gossage, J.P. (2001). Estimating the prevalence of fetal alcohol syndrome: A summary. Alcohol Research & Health 25(3):159-167.

3 Landgren et al. (2010).Prenatal Alcohol Exposure and Neurodevelopmental Disorders in Children Adopted From Eastern Europe. Pediatrics 125 (5) 1178-1185.

4 Miller et al. (2006).Fetal Alcohol Spectrum Disorders in Children Residing in Russian Orphanages: A Phenotypic Survey. Alcoholism: Clinical and Experimental Research, 30 (3): 531–538.

5 Astley, S. et al. (1999). Fetal Alcohol Syndrome: Changes with craniofacial Form with Age, Cognition and Timing of Ethanol Exposure in the Macaque. Teratology 59, 163-172.

6 Click to view resource.

7 Shore, R. (1997). Rethinking the brain. New York: Families and Work Institute.

8 Guerri, C., Bazinet, A., & Riley, E. P. (2009). Fetal Alcohol Spectrum Disorders and alterations in brain and behavior. Alcohol & Alcoholism, 44, 108–114.

9 Mattson, S.N. et al. (1994). MRI and prenatal alcohol exposure: Images provide insight into FAS. Alcohol Health & Research World 18(1):49–52.

10 Riley, E.P., McGee, C.L., and Sowell, E.R. (2004) Teratogenic effects of alcohol: A decade of brain imaging. American Journal of Medical Genetics Part C. Seminars in Medical Genetics, 127C:35-41.

11 Bermanm, R.F.& Hannigan, J.. (2000). Effects of Prenatal Alcohol Exposure on the Hippocampus: Spatial Behavior, Electrophysiology, and Neuroanatomy. Hippocampus 10:94–110.

12 Norman, A.L., Crocker, N., Mattson, S.N., & Riley, E.P. (2009). Neuroimaging and fetal alcohol spectrum disorders. Developmental Disabilities Research Reviews, 15(3), 209-217.

13 Spadoni, A.D., McGee, C.L., Fryer, S.L., & Riley, E.P. (2007). Neuroimaging and fetal alcohol spectrum disorders. Neuroscience and Biobehavioral Reviews, 31(2), 239-245.

14 Teicher, M.H., Andersen, S. L., Polcari, A., Anderson, C.M., & Navalta, C.P. (2002). Developmental neurobiology of childhood stress and trauma. Psychiatric Clinics of North America, 25, 397–426.

15 Executive Functions (EF) are higher level cognitive processes involved in inhibition of thought, action and emotion. They include self-regulation, task initiation, task organization and planning, cognitive flexibility, working memory and recall.

16 Stromland, K. & Pinazo-Duran, M. (2001). Ophthalmic Involvement in the Fetal Alcohol Syndrome: Clinical and Animal Model Studies. Alcohol and Alcoholism 37 (1):2-8.

17 Stromland, K. (2004). Visual impairment and ocular abnormalities in children with Fetal Alcohol Syndrome. Addiction Biology, 9:153-157.

18 Munger, R., Romitti, P., Daack-Hirsch, S., et al. (1998).Maternal alcohol use and risk of orofacial cleft birth defects. Teratology 54(1): 27–33.

19 Church, M., & Gerkin, K. (1988). Hearing disorders in children with fetal alcohol syndrome: findings from case reports. Pediatrics, 82:147-154.

20 Church, M., & Kaltenbach, H. (1997).Hearing, Speech, Language, and Vestibular Disorders in the Fetal Alcohol Syndrome: A Literature Review. Alcoholism: Clinical and Experimental Research 21 (3): 495-512.

21 Church, M. et al (1997). Hearing, Language, Speech, Vestibular and Dentofacial Disorders in the Fetal Alcohol Syndrome, Alcoholism: Clinical and Experimental Research 21 (2): 227-237.

22 Jackson I, & Hussain K. (1990). Craniofacial and oral manifestations of fetal alcohol syndrome. Journal of Plastic and Reconstructive Surgery 85(4):505-12.

23 Abel, E.L., & Sokol, R.J. (1987). Incidence of fetal alcohol syndrome and economic impact of FAS-related anomalies: Drug alcohol syndrome and economic impact of FAS-related anomalies. Drug and Alcohol Dependency, 19(1), 51–70.

24 Carmichael Olson, H., Jirikowic, T., Kartin, D., & Astley, S. (2007). Responding to the challenge of early intervention for fetal alcohol spectrum disorders. Infants and Young Children, 20, 172-189.

25 Carmichael Olson, H., & Montaque, R. (2011). An innovative look at early intervention for children affected by prenatal alcohol exposure. In S. Adubato & D. Cohen (Eds.), Prenatal alcohol use and FASD: Diagnosis, assessment and new directions in research and multimodal treatment (pp. 64-107). Oak Park, IL: Bentham Science.

26 Mattson, S.N. and Riley, E.P. (1998). A review of the neurobehavioral deficits in children with fetal alcohol syndrome or prenatal exposure to alcohol. Alcoholism: Clinical and Experimental Research 22, 279–294.

27 Coggins, T., Olswang, L., Carmichael Olson, H., & Timler, G. (2003). On becoming socially competent communicators: The challenge for children with fetal alcohol exposure. International Review of Research in Mental Retardation, 27, 121-150.

28 Olswang, L., Coggins, T., & Timler, G. (2001). Outcome measures for school-age children with social communication problems. Topics in Language Disorders, 22, 50-73.

29 Timler, G., Olswang, L., & Coggins, T. (2005). “Do I know what I need to do?”: A social communication intervention for children with complex clinical profiles. Language, Speech, and Hearing Services in Schools, 36, 73-84.

30 Lang, J. (2006). Ten Brain Domains: A Proposal for Functional Central Nervous System Parameters for Fetal Alcohol Spectrum Disorder Diagnosis and Follow-up. Journal of the FAS Institute, 4, 1–11.

31 May, P.A., Gossage, J. P., Kalberg, W. O., Robinson, L. K., Buckley, D., Manning, M., & Hoyme, H. E. (2009). Prevalence and epidemiologic characteristics of FASD from various research methods with an emphasis on recent in-school studies. Developmental Disabilities Research Reviews, 15(3), 176-192.

32 Kjellmer, L.& Olswang, L. (2013). Variability in classroom social communication: Performance of children with fetal alcohol spectrum disorders and typically developing peers. Journal of Speech, Language, and Hearing Research. (56), 982-993.

33 Koren, G.I., Fantus, E., & Nulman, I. (2010). Managing fetal alcohol spectrum disorder in the public school system: a needs assessment pilot. Canadian Journal of Clinical Pharmacology, 17(1), e79-89.

34 Watson, S.M.R., & Westby, C.E. (2003). Prenatal drug exposure: Implications for personnel preparation. Remedial and Special Education, 24(4), 204-214.

35 Elleseff, T. (2013, Aug. 1). FASD and Background History Collection: Asking the Right Questions. Adoption Today, pp 32-35.

36 Click to view resource.

37 Klein, H., & Moses, N. (1999). Intervention planning for children with communication disorders: A guide to the clinical practicum and professional practice.(2nd Ed.). Boston, MA.: Allyn & Bacon.

Additional Resources:

Astley, S. et al. (2009). Magnetic resonance imaging outcomes from a comprehensive magnetic resonance study of children with fetal alcohol spectrum disorders. Alcoholism: Clinical and Experimental Research, 33 (10), 1671-1689.

Bruce, B., Dean, A.L., Newman, N.J., & Biousse, V. (2009). Neurologic and ophthalmic manifestations of Fetal Alcohol Syndrome. Reviews in Neurological Diseases, 6, 13-20.

Coggins, T. (2011). Toward Understanding and Treating Children with Prenatal Alcohol Exposure and Fetal Alcohol Syndrome Disorders. Perspectives on Language Learning and Education, 18 (3): 78-86.

Lebel, C. et al. (2008).Brain Diffusion Abnormalities in Children With Fetal Alcohol Spectrum Disorder. Alcoholism: Clinical and Experimental Research, 32 (10): 1732-1740.

Sant’Anna, M., Tosello, D. (2006). Fetal alcohol syndrome and developing craniofacial and dental structures--a review. Orthodontics and Craniofacial Research, 9(4):172-85.

Swayze, V. et al. (1997).Magnetic Resonance Imaging of Brain Anomalies in Fetal Alcohol Syndrome. Pediatrics, 99(2): 232-240.

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