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Definição e significado de Down_syndrome

Definição

Down syndrome (n.)

1.a congenital disorder caused by having an extra 21st chromosome; results in a flat face and short stature and mental retardation

Down Syndrome (n.)

1.(MeSH)A chromosome disorder associated either with an extra chromosome 21 or an effective trisomy for chromosome 21. Clinical manifestations include hypotonia, short stature, brachycephaly, upslanting palpebral fissures, epicanthus, Brushfield spots on the iris, protruding tongue, small ears, short, broad hands, fifth finger clinodactyly, Simian crease, and moderate to severe MENTAL RETARDATION. Cardiac and gastrointestinal malformations, a marked increase in the incidence of LEUKEMIA, and the early onset of ALZHEIMER DISEASE are also associated with this condition. Pathologic features include the development of NEUROFIBRILLARY TANGLES in neurons and the deposition of AMYLOID BETA-PROTEIN, similar to the pathology of ALZHEIMER DISEASE. (Menkes, Textbook of Child Neurology, 5th ed, p213)

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Down syndrome (n.)

mongoloid

Dicionario analógico

Wikipedia

Down syndrome

                   
Down syndrome
Classification and external resources

Boy with Down syndrome assembling a bookcase
ICD-10 Q90
ICD-9 758.0
OMIM 190685
DiseasesDB 3898
MedlinePlus 000997
eMedicine ped/615
MeSH D004314

Down syndrome (DS) or Down's syndrome, also known as trisomy 21, is a chromosomal condition caused by the presence of all or part of a third copy of chromosome 21.[1] Down syndrome is the most common chromosome abnormality in humans. [2] It is typically associated with a delay in cognitive ability (mental retardation, or MR) and physical growth, and a particular set of facial characteristics.[1] The average IQ of young adults with Down syndrome is around 50, compared to children without the condition with an IQ of 100.[1][3] (MR has historically been defined as an IQ below 70.) A large proportion of individuals with Down syndrome have a severe degree of intellectual disability.[1]

Down syndrome is named after John Langdon Down, the British physician who described the syndrome in 1866.[4] The condition was clinically described earlier in the 19th century by Jean Etienne Dominique Esquirol in 1838 and Edouard Seguin in 1844.[5] Down syndrome was identified as a chromosome 21 trisomy by Dr. Jérôme Lejeune in 1959. Down syndrome can be identified in a baby at birth, or even before birth by prenatal screening.[6][1] Pregnancies with this diagnosis are often terminated.

The CDC estimates that about one of every 691 babies born in the United States each year is born with Down syndrome.[7] Down syndrome occurs in all human populations, and analogous conditions have been found in other species such as chimpanzees.[8]

Many children with Down syndrome graduate from high school and are able to do paid work,[9] and some participate in post-secondary education as well.[10] Education and proper care has been shown to improve quality of life significantly.[11]

Contents

Signs and symptoms

  A drawing of the facial features Down syndrome
  Feet of a boy with Down Syndrome

The signs and symptoms of Down syndrome are characterized by the neotenization of the brain and body to the fetal state.[12] Down syndrome is characterized by decelerated maturation (neoteny), incomplete morphogenesis (vestigia) and atavisms.[13] Individuals with Down syndrome may have some or all of the following physical characteristics: microgenia (abnormally small chin),[14] oblique eye fissures with epicanthic skin folds on the inner corner of the eyes (formerly known as a mongoloid fold),[15][16] muscle hypotonia (poor muscle tone), a flat nasal bridge, a single palmar fold, a protruding tongue (due to small oral cavity, and an enlarged tongue near the tonsils) or macroglossia,[15][16] "face is flat and broad",[17] a short neck, white spots on the iris known as Brushfield spots,[18] excessive joint laxity including atlanto-axial instability, excessive space between large toe and second toe, a single flexion furrow of the fifth finger, a higher number of ulnar loop dermatoglyphs and short fingers.[16]

Growth parameters such as height, weight, and head circumference are smaller in children with DS than with typical individuals of the same age. Adults with DS tend to have short stature and bowed legs[16]—the average height for men is 5 feet 1 inch (154 cm) and for women is 4 feet 9 inches (144 cm).[19] Individuals with DS are also at increased risk for obesity as they age.[20]

Characteristics Percentage[21] Characteristics Percentage[21]
mental retardation 99,8% small teeth 60%
stunted growth 100% flattened nose 60%
atypical fingerprints 90% clinodactyly 52%
separation of the abdominal muscles 80% umbilical hernia 51%
flexible ligaments 80% short neck 50%
hypotonia 80% shortened hands 50%
brachycephaly 75% congenital heart disease 45%
smaller genitalia 75% single transverse palmar crease 45%
eyelid crease 75% Macroglossia (larger tongue) 43%
shortened extremities 70% epicanthal fold 42%
oval palate 69% Strabismus 40%
low-set and rounded ear 60% Brushfield spots (iris) 35%

Individuals with Down syndrome have a higher risk for many conditions. The medical consequences of the extra genetic material in Down syndrome are highly variable, may affect the function of any organ system or bodily process, and can contribute to a shorter life expectancy for people with Down syndrome. Following improvements to medical care, particularly with heart problems, the life expectancy among persons with Down syndrome has increased from 12 years in 1912, to 60 years.[22] In March 2012 the Guinness Book of Records website listed Joyce Greenman, now 87, of London, who was born on March 14, 1925, as the oldest living person with Down syndrome, (recorded correct and checked as of 29/04/08). The causes of death have also changed, with chronic neurodegenerative diseases becoming more common as the population ages. Most people with Down syndrome who live into their 40s and 50s begin to suffer from an Alzheimer's disease-like dementia.[23]

The American Academy of Pediatrics, among other health organizations, has issued a series of recommendations for screening individuals with Down syndrome for particular diseases.[24]

Mental characteristics and neurology

Most individuals with Down syndrome have intellectual disability in the mild (IQ 50–70) to moderate (IQ 35–50) range,[25] with individuals having Mosaic Down syndrome typically 10–30 points higher.[26] The methodology of these the IQ tests has been criticised fo not taking into account accompanying physical disabilities, such as hearing and vision impairment that would slow the performance.[27]

Language skills show a difference between understanding speech and expressing speech, and commonly individuals with Down syndrome have a speech delay.[28] Fine motor skills are delayed[29] and often lag behind gross motor skills and can interfere with cognitive development. Effects of the condition on the development of gross motor skills are quite variable. Some children will begin walking at around 2 years of age, while others will not walk until age four. Physical therapy, and/or participation in a program of adapted physical education (APE), may promote enhanced development of gross motor skills in Down syndrome children.[30]

Children and adults with DS are at increased risk for developing epilepsy.[31][32] The risk for Alzheimer's disease is increased in individuals with DS, with 10–25% of individuals with DS showing signs of AD before age 50, up to 50% with clinical symptoms in the sixth decade, and up to 75% in the 7th decade. This sharp increase in the incidence and prevalence of dementia may be one of the factors driving the decreased life expectancy of persons with Down syndrome.

Congenital heart disease

The incidence of congenital heart disease in newborn babies with Down syndrome is up to 50%.[33] An atrioventricular septal defect also known as endocardial cushion defect is the most common form with up to 40% of patients affected. This is closely followed by ventricular septal defect that affects approximately 35% of patients.[33]

Cancer

Although the general incidence of cancer amongst individuals with Down syndrome is the same as the general population,[34] there are greatly reduced incidence of many common malignancies except leukemia and testicular cancer.[35] People with Down syndrome also have a much lower risk of hardening of the arteries and diabetic retinopathy.[36]

Hematologic malignancies such as leukemia are more common in children with DS.[37] In particular, the risk for acute lymphoblastic leukemiais at least 10 times more common in DS and for the megakaryoblastic form of acute myelogenous leukemia is at least 50 times more common in DS. Transient leukemia is a form of leukemia that is rare in individuals without DS but affects up to 20 percent of newborns with DS.[38] This form of leukemia is typically benign and resolves on its own over several months, though it can lead to other serious illnesses.[39] In contrast to hematologic malignancies, solid tumor malignancies are less common in DS, possibly due to increased numbers of tumor suppressor genes contained in the extra genetic material.[40]

Thyroid disorders

Individuals with DS are at increased risk for dysfunction of the thyroid gland, an organ that helps control metabolism. Low thyroid (hypothyroidism) is most common, occurring in almost a third of those with DS. This can be due to absence of the thyroid at birth (congenital hypothyroidism) or due to attack on the thyroid by the immune system.[41]

Gastrointestinal

Down syndrome increases the risk of Hirschsprung's disease, in which the nerve cells that control the function of parts of the colon are not present.[42] This results in severe constipation. Other congenital anomalies occurring more frequently in DS include duodenal atresia, annular pancreas, and imperforate anus. Gastroesophageal reflux disease and celiac disease are also more common among people with DS.[43]

Infertility

Males with Down syndrome are usually unable to father children, while females demonstrate significantly lower rates of conception relative to unaffected individuals.[44] Women with DS are less fertile and often have difficulties with miscarriage, premature birth, and difficult labor. Without preimplantation genetic diagnosis, approximately half of the offspring of someone with Down syndrome also have the syndrome themselves.[44] Men with DS are almost uniformly infertile, exhibiting defects in spermatogenesis.[45] There have been only three recorded instances of males with Down syndrome fathering children.[46][47]

Eye and hearing disorders

  Brushfield spots, visible in the irises of a baby with Down Syndrome.

Eye disorders are more common in people with DS. Almost half have strabismus, in which the two eyes do not move in tandem. Refractive errors requiring glasses or contacts are also common. Cataracts (opacity of the lens), keratoconus (thin, cone-shaped corneas), and glaucoma (increased eye pressures) are also more common in DS.[48] Brushfield spots (small white or grayish/brown spots on the periphery of the iris) may be present.

In general hearing impairment and otological problems are found in 38-78% of children with Down syndrome compared to 2.5% for normal children.[49][50][51] However, attentive diagnosis and aggressive treatment of chronic ear disease (e.g. otitis media, also known as glue-ear) in children with Down syndrome, can bring approximately 98% of the children up to normal hearing levels.[52]

The elevated occurrence of hearing loss for individuals with Down is not surprising. Every component in the auditory system is potentially adversely affected by Down syndrome.[51]

Otitis media with effusion is the most common cause of hearing loss in Down children,[50] the infections start at birth and continue throughout the children’s lives.[53] The ear infections are mainly associated with Eustachian tube dysfunction due to alterations in the skull base. However, excessive accumulation of wax can also cause obstruction of the outer ear canal as it is often narrowed in children with Down syndrome.[54] Middle ear problems account for 83% of hearing loss in children with Down syndrome.[54] The degree of hearing loss varies but even a mild degree can have major consequences on speech perception, language acquisition, development and academic achievement[53] if not detected in time and corrected.[50]

Early intervention to treat the hearing loss and adapted education is useful to facilitate the development of children with Down syndrome, especially during the preschool period. For adults, social independence depends largely on the ability to complete tasks without assistance, the willingness to separate emotionally from parents and access to personal recreational activities.[49] Given this background it is always important to rule out hearing loss as a contributing factor in social and mental deterioration.[51]

Other complications

Instability of the atlanto-axial joint occurs in approximately 15% of people with DS, probably due to ligamental laxity. It may lead to the neurologic symptoms of spinal cord compression.[55] Periodic screening, with cervical x-rays, is recommended to identify this condition.

Genetics

  Karyotype for trisomy Down syndrome. Notice the three copies of chromosome 21

Down syndrome disorders are based on having too many copies of the genes located on chromosome 21. In general, this leads to an overexpression of the genes.[56][57] Understanding the genes involved may help to target medical treatment to individuals with Down syndrome. It is estimated that chromosome 21 contains 200 to 250 genes.[58] Recent research has identified a region of the chromosome that contains the main genes responsible for the pathogenesis of Down syndrome.[59]

The extra chromosomal material can come about in several distinct ways. A typical human karyotype is designated as 46,XX or 46,XY, indicating 46 chromosomes with an XX arrangement typical of females and 46 chromosomes with an XY arrangement typical of males.[60]

Trisomy 21

Trisomy 21 (47,XX,+21) is caused by a meiotic nondisjunction event. With nondisjunction, a gamete (i.e., a sperm or egg cell) is produced with an extra copy of chromosome 21; the gamete thus has 24 chromosomes. When combined with a normal gamete from the other parent, the embryo now has 47 chromosomes, with three copies of chromosome 21. Trisomy 21 is the cause of approximately 95% of observed Down syndromes, with 88% coming from nondisjunction in the maternal gamete and 8% coming from nondisjunction in the paternal gamete.[61] The actual Down syndrome "critical region" encompasses chromosome bands 21q22.1-q22.3.[62]

Mosaicism

Trisomy 21 is usually caused by nondisjunction in the gametes prior to conception, and all cells in the body are affected. However, when some of the cells in the body are normal and other cells have trisomy 21, it is called mosaic Down syndrome (46,XX/47,XX,+21).[63][64] This can occur in one of two ways: a nondisjunction event during an early cell division in a normal embryo leads to a fraction of the cells with trisomy 21; or a Down syndrome embryo undergoes nondisjunction and some of the cells in the embryo revert to the normal chromosomal arrangement. There is considerable variability in the fraction of trisomy 21, both as a whole and among tissues. This is the cause of 1–2% of the observed Down syndromes.[61]

Robertsonian translocation

The extra chromosome 21 material that causes Down syndrome may be due to a Robertsonian translocation in the karyotype of one of the parents. In this case, the long arm of chromosome 21 is attached to another chromosome, often chromosome 14 [45,XX,der(14;21)(q10;q10)]. A person with such a translocation is phenotypically normal. During reproduction, normal disjunctions leading to gametes have a significant chance of creating a gamete with an extra chromosome 21, producing a child with Down syndrome. Translocation Down syndrome is often referred to as familial Down syndrome. It is the cause of 2–3% of observed cases of Down syndrome.[61] It does not show the maternal age effect, and is just as likely to have come from fathers as mothers.[citation needed]

Prenatal testing

  Ultrasound of fetus with Down syndrome and megacystis
  Enlarged NT and absent nasal bone in fetus at 11 weeks with trisomy 21

In the United States, ACOG guidelines recommend that screening be offered to all women, regardless of their age[65] Many standard prenatal screens can discover Down syndrome. Genetic counseling along with genetic testing, such as amniocentesis, chorionic villus sampling (CVS), or percutaneous umbilical cord blood sampling (PUBS) can be offered to families who may have an increased chance of having a child with Down syndrome, or where normal prenatal exams indicate possible problems.

Noninvasive screening tests asses the risk of Down syndrome. Such tests include blood tests; the nuchal translucency test; and other ultrasound screens which look for certain abnormal features ('markers') in the fetus (such as absent nasal bone for example). When screening tests suggest a high risk of the fetus having Down syndrome, the woman is offered a diagnosis test (amniocentesis, CVS, PUB). Because screening tests only asses the risk, and while being accurate (and continuing to improve with medical advances) they still miss cases, some women, especially those of advanced age, choose to go directly to amniocentesis or CVS. These tests, however, are invasive, and, as such, carry a small risk of miscarriage (about 0.5% for amniocentesis and 1% for CVS).

A non-invasive prenatal test, MaterniT21, detected Down syndrome based on fetal DNA in a sample of the mother's blood in 209 of 212 cases (98.6%).[66][67] The International Society for Prenatal Diagnosis finds that this is an advanced screening test which may be of use, in conjunction with genetic counseling, in high-risk cases based upon existing screening strategies. While effective in the diagnosis of Down syndrome, it cannot assess other conditions which can be detected by invasive testing; (for pregnant women who are screen-positive using current screening protocols, Down syndrome represents about half of the fetal chromosomal abnormalities identified through amniocentesis and CVS).[68]


Common screening procedures for Down syndrome are given in Table 1.

Table 1: First and second trimester Down syndrome screens
Screen When performed (weeks gestation) Detection rate False positive rate Description
Quad screen 15–20 81%[36] 5% This test measures the maternal serum alpha feto protein (a fetal liver protein), estriol (a pregnancy hormone), human chorionic gonadotropin (hCG, a pregnancy hormone), and inhibin-Alpha (INHA).[69]
Nuchal translucency/free beta/PAPPA screen (aka "1st Trimester Combined Test") 10–13.5 85%[70] 5% Uses ultrasound to measure Nuchal Translucency in addition to the freeBeta hCG and PAPPA (pregnancy-associated plasma protein A). NIH has confirmed that this first trimester test is more accurate than second trimester screening methods.[71] Performing an NT ultrasound requires considerable skill; a Combined test may be less accurate if there is operator error, resulting in a lower-than-advertised sensitivity and higher false-positive rate, possibly in the 5–10% range.
Integrated test 10-13.5 and 15–20 95%[72] 5% The integrated test uses measurements from both the 1st trimester combined test and the 2nd trimester quad test to yield a more accurate screening result. Because all of these tests are dependent on accurate calculation of the gestational age of the fetus, the real-world false-positive rate is >5% and may be closer to 7.5%.

Abortion rates

A 2002 literature review of elective abortion rates found that 91–93% of pregnancies in the United Kingdom and Europe with a diagnosis of Down syndrome were terminated.[73] Data from the National Down Syndrome Cytogenetic Register in the United Kingdom indicates that from 1989 to 2006 the proportion of women choosing to terminate a pregnancy following prenatal diagnosis of Down syndrome has remained constant at around 92%.[74][75]

In the United States a number of studies have examined the abortion rate of fetuses with Down syndrome. Three studies estimated the termination rates at 95%, 98%, and 87% respectively.[73]

Ethical issues

Medical ethicist Ronald Green argues that parents have an obligation to avoid 'genetic harm' to their offspring,[76] and Claire Rayner, then a patron of the Down's Syndrome Association, defended testing and abortion saying "The hard facts are that it is costly in terms of human effort, compassion, energy, and finite resources such as money, to care for individuals with handicaps... People who are not yet parents should ask themselves if they have the right to inflict such burdens on others, however willing they are themselves to take their share of the burden in the beginning."[77]

Some physicians and ethicists are concerned about the ethical ramifications of the high abortion rate for this condition.[78] Conservative commentator and father of a son with Down syndrome George Will called it "eugenics by abortion".[79][80] British peer Lord Rix stated that "alas, the birth of a child with Down's syndrome is still considered by many to be an utter tragedy" and that the "ghost of the biologist Sir Francis Galton, who founded the eugenics movement in 1885, still stalks the corridors of many a teaching hospital".[81] Doctor David Mortimer has argued in Ethics & Medicine that "Down's syndrome infants have long been disparaged by some doctors and government bean counters."[82] Some members of the disability rights movement "believe that public support for prenatal diagnosis and abortion based on disability contravenes the movement's basic philosophy and goals."[83] Peter Singer argued that "neither haemophilia nor Down's syndrome is so crippling as to make life not worth living from the inner perspective of the person with the condition. To abort a fetus with one of these disabilities, intending to have another child who will not be disabled, is to treat fetuses as interchangeable or replaceable. If the mother has previously decided to have a certain number of children, say two, then what she is doing, in effect, is rejecting one potential child in favour of another. She could, in defence of her actions, say: the loss of life of the aborted fetus is outweighed by the gain of a better life for the normal child who will be conceived only if the disabled one dies."[84]

Management

Many children with Down syndrome graduate from high school and are able to do paid work,[85] or participate in university education.[86] Management stratergies such as Early childhood intervention, screening for common problems, medical treatment where indicated, a conducive family environment, and vocational training can improve the overall development of children with Down syndrome. Education and proper care will improve quality of life significantly.[11]

Plastic surgery

Plastic surgery has sometimes been advocated and performed on children with Down syndrome, based on the assumption that surgery can reduce the facial features associated with Down syndrome, therefore decreasing social stigma, and leading to a better quality of life.[87] Plastic surgery on children with Down syndrome is uncommon,[88] and continues to be controversial. Researchers have found that for facial reconstruction, "...although most patients reported improvements in their child's speech and appearance, independent raters could not readily discern improvement...."[89] For partial glossectomy (tongue reduction), one researcher found that 1 out of 3 patients "achieved oral competence," with 2 out of 3 showing speech improvement.[90] Len Leshin, physician and author of the ds-health website, has stated, "Despite being in use for over twenty years, there is still not a lot of solid evidence in favor of the use of plastic surgery in children with Down syndrome."[91] The U.S. National Down Syndrome Society has issued a "Position Statement on Cosmetic Surgery for Children with Down Syndrome",[92] which states "The goal of inclusion and acceptance is mutual respect based on who we are as individuals, not how we look."

Cognitive development

The identification of the best methods of teaching each particular child ideally begins soon after birth through early intervention programs.[93]

Individuals with Down syndrome differ considerably in their language and communication skills. It is routine to screen for middle ear problems and hearing loss; low gain hearing aids or other amplification devices can be useful for language learning. Early communication intervention fosters linguistic skills. Language assessments can help profile strengths and weaknesses; for example, it is common for receptive language skills to exceed expressive skills. Individualized speech therapy can target specific speech errors, increase speech intelligibility, and in some cases encourage advanced language and literacy. Augmentative and alternative communication (AAC) methods, such as pointing, body language, objects, or graphics are often used to aid communication. Relatively little research has focused on the effectiveness of communications intervention strategies.[94]

Children with Down syndrome may not age emotionally/socially and intellectually at the same rates as children without Down syndrome, so over time the intellectual and emotional gap between children with and without Down syndrome may widen. Complex thinking as required in sciences but also in history, the arts, and other subjects can often be beyond the abilities of some, or achieved much later than in other children. Children with Down syndrome may benefit from mainstreaming (whereby students of differing abilities are placed in classes with their chronological peers) provided that some adjustments are made to the curriculum.[95]

Speech delay may require speech therapy to improve expressive language.[28]

Epidemiology

  Graph showing probability of Down syndrome as a function of maternal age.

The CDC estimates that about 1 of every 691 babies born in the United States each year is born with Down syndrome.[96] Each year about 6,000 babies in the United States are born with this condition. Approximately 95% of these are trisomy 21. Down syndrome occurs in all ethnic groups and among all economic classes.[citation needed]

Maternal age influences the chances of conceiving a baby with Down syndrome. At maternal age 20 to 24, the probability is one in 1562; at age 35 to 39 the probability is one in 214, and above age 45 the probability is one in 19.[97] Although the probability increases with maternal age, 80% of children with Down syndrome are born to women under the age of 35,[98] reflecting the overall fertility of that age group. Recent data also suggest that paternal age, especially beyond 42,[99] also increases the risk of Down syndrome manifesting.[100]

History

English physician John Langdon Down first characterized Down syndrome as a distinct form of mental disability in 1862, and in a more widely published report in 1866.[101] Due to his perception that children with Down syndrome shared physical facial similarities (epicanthal folds) with those of Blumenbach's Mongolian race, Down used the term mongoloid, derived from prevailing ethnic theory;[17] while the term "mongoloid" (also "mongol" or "mongoloid idiot") continued to be used until the early 1970s, it is now considered to be pejorative (as well as inaccurate) and is no longer in common use.[102]

By the 20th century, Down syndrome had become the most recognizable form of mental disability. Most individuals with Down syndrome were institutionalized, few of the associated medical problems were treated, and most died in infancy or early adult life. With the rise of the eugenics movement, 33 of the (then) 48 U.S. states and several countries began programs of forced sterilization of individuals with Down syndrome and comparable degrees of disability. "Action T4" in Nazi Germany made public policy of a program of systematic murder. [103]

Until the middle of the 20th century, the cause of Down syndrome remained unknown. However, the presence in all races, the association with older maternal age, and the rarity of recurrence had been noticed. Standard medical texts assumed it was caused by a combination of inheritable factors that had not been identified. Other theories focused on injuries sustained during birth.[104]

With the discovery of karyotype techniques in the 1950s, it became possible to identify abnormalities of chromosomal number or shape. In 1958, Jérôme Lejeune discovered that Down syndrome resulted from an extra chromosome.[105] and, as a result, the condition became know as trisomy 21.[103]

In 1961, 18 geneticists wrote to the editor of The Lancet suggesting that Mongolian idiocy had "misleading connotations," had become "an embarrassing term," and should be changed.[106] The Lancet supported Down's Syndrome. The World Health Organization (WHO) officially dropped references to mongolism in 1965 after a request by the Mongolian delegate.[102] Advocacy groups adapted and parents groups welcomed the elimination of the Mongoloid label that had been a burden to their children. The first parents group in the United States, the Mongoloid Development Council, changed its name to the National Association for Down Syndrome in 1972.[107]

In 1975, the United States National Institutes of Health convened a conference to standardize the nomenclature of malformations. They recommended eliminating the possessive form: "The possessive use of an eponym should be discontinued, since the author neither had nor owned the condition."[108] Although both the possessive and non-possessive forms are used in the general population, Down syndrome is the accepted term among professionals in the U.S., Canada and other countries; Down's syndrome is still used in the UK and other areas.[109]

Society and culture

In most developed countries, since the early 20th century many people with Down syndrome were housed in institutions or colonies and excluded from society. However, since the early 1960s parents and their organizations, educators and other professionals have generally advocated a policy of inclusion,[110] bringing people with any form of mental or physical disability into general society as much as possible. Such organizations included the National Association for Down Syndrome, the first known organization advocating for Down syndrome individuals in the United States founded by Kathryn McGee in 1960;[111] MENCAP advocating for all with mental disabilities, which was founded in the UK in 1946 by Judy Fryd;[112] and the National Down Syndrome Congress, the first truly national organization in the U.S. advocating for Down syndrome families, founded in 1973 by Kathryn McGee and others.[113]

  Scottish award-winning film and TV actress Paula Sage receives her BAFTA award with Brian Cox.

World Down Syndrome Day

The first World Down Syndrome Day (WDSD) was held on 21 March 2006. The day and month were chosen to correspond with 21 and trisomy respectively. It was proclaimed by European Down Syndrome Association during their European congress in Palma de Mallorca (February 2005). In the United States, the National Down Syndrome Society observes Down Syndrome Month every October as "a forum for dispelling stereotypes, providing accurate information, and raising awareness of the potential of individuals with Down syndrome."[114] In South Africa, Down Syndrome Awareness Day is held every October 20.[115]

Notable individuals

Footnotes

  1. ^ a b c d e Gordon Grant; Peter Goward; Paul Ramcharan; Malcolm Richardson (1 May 2010). Learning Disability: A Life Cycle Approach to Valuing People. McGraw-Hill International. p. 43-44. ISBN 978-0-335-21439-6. 
  2. ^ http://www.americanpregnancy.org/prenataltesting/amniocentesis.html
  3. ^ Liptak, Gregory S (December 2008). "Down Syndrome (Trisomy 21; Trisomy G)". Merck Manual. http://www.merckmanuals.com/home/sec23/ch266/ch266b.html. Retrieved 2010-12-04. "Symptoms" 
  4. ^ Janet Carr; Janet H. Carr (24 November 1995). Down's Syndrome: Children Growing Up. Cambridge University Press. p. 1. ISBN 978-0-521-46933-3. http://books.google.com/books?id=dOnRCjfS7V4C. Retrieved 10 April 2012. 
  5. ^ Genes, Nicholas. "Down Syndrome Through the Ages". the good old days.... med Gadget. http://medgadget.com/2005/11/down_syndrome_t.html. Retrieved 11 February 2012. 
  6. ^ Lennard J. Davis (26 February 2010). The Disability Studies Reader. Routledge. p. 125. ISBN 978-0-415-87374-1. http://books.google.com/books?id=ed6BPwAACAAJ. Retrieved 10 April 2012. 
  7. ^ http://www.cdc.gov/ncbddd/birthdefects/DownSyndrome.html
  8. ^ McClure, HM; Belden, KH; Pieper, WA; Jacobson, CB (September 1969). "Autosomal trisomy in a chimpanzee: resemblance to Down's syndrome". Science 165 (3897): 1010–12. doi:10.1126/science.165.3897.1010. PMID 4240970. 
  9. ^ "Facts About Down Syndrome". National Association for Down Syndrome. http://www.nads.org/pages_new/facts.html. Retrieved 20 March 2012. 
  10. ^ Calefati, Jessica (13 February 2009). "College Is Possible for Students With Intellectual Disabilities". US News and World Report. http://www.usnews.com/education/articles/2009/02/13/college-is-possible-for-students-with-intellectual-disabilities. Retrieved 20 March 2012. 
  11. ^ a b Roizen, NJ; Patterson, D (April 2003). "Down's syndrome" (Review). Lancet 361 (9365): 1281–89. doi:10.1016/S0140-6736(03)12987-X. PMID 12699967. 
  12. ^ Opitz John M., Gilbert-Barness Enid F. (1990). "Reflections on the Pathogenesis of Down Syndrome". American Journal of Medical Genetics 7: 38–51. doi:10.1002/ajmg.1320370707. PMID 2149972. 
  13. ^ Optiz, J.M. (1990). Reflections on the pathogenesis of Down syndrome. In American Journal of Medical Genetics Supplement. 7:38.
  14. ^ Meira Weiss (1994-02). Conditional love: parents' attitudes toward handicapped children. p. 94. ISBN 978-0-89789-324-4. http://books.google.com/?id=a62J5GPHd3cC&pg=PA94&lpg=PA94&dq=%22down%27s+syndrome%22+chin+face. Retrieved 2009-07-22. 
  15. ^ a b This discussion by Myron Belfer, MD, book by Gottfried Lemperie, MD, and Dorin Radu, MD (1980). "Facial Plastic Surgery in Children with Down's Syndrome (preview page, with link to full content on plasreconsurg.com)". p. 343. http://scholar.google.com/scholar?q=info:Nt6asksVAiYJ:scholar.google.com/&hl=en&output=viewport. Retrieved 2009-07-22. 
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  111. ^ NADS Honors our Founder: Kay McGee
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References

Research bibliography

  • Arron, JR; Winslow, MM; Polleri A (2006). "NFAT dysregulation by increased dosage of DSCR1 and DYRK1A on chromosome 21". Nature 441 (7093): 595–600. doi:10.1038/nature04678. PMID 16554754. 
  • Epstein CJ (June 2006). "Down's syndrome: critical genes in a critical region". Nature 441 (7093): 582–83. doi:10.1038/441582a. PMID 16738647. 
  • Ganong, WJ (2005). Review of Medical Physiology (21st ed.). New York: Mc-Graw Hill. ISBN 0-07-140236-5. 
  • Nelson, DL; Gibbs, RA (2004). "Genetics. The critical region in trisomy 21". Science 306 (5696): 619–21. doi:10.1126/science.1105226. PMID 15499000. 
  • Olson, LE; Richtsmeier, JT; Leszl, J; Reeves, RH (2004). "A chromosome 21 critical region does not cause specific Down syndrome phenotypes". Science 306 (5696): 687–90. doi:10.1126/science.1098992. PMID 15499018. 
  • Hattori, M; Fujiyama, A; Taylor, TD (2000). "The DNA sequence of human chromosome 21". Nature 405 (6784): 311–19. doi:10.1038/35012518. PMID 10830953. 
  • Underwood, JCE (2004). General and Systematic Pathology (4th ed.). Edinburgh: Churchill Livingstone. ISBN 0-443-07334-1. 

General bibliography

  • Beck, MN (1999). Expecting Adam. New York: Berkley Books. ISBN 0-425-17448-4. 
  • Buckley, S (2000). Living with Down Syndrome. Portsmouth, UK: The Down Syndrome Educational Trust. ISBN 1-903806-01-1. http://books.google.com/?id=__5wB08U2hMC. 
  • Down's Syndrome Research Foundation (2005). Bright Beginnings: A Guide for New Parents. Buckinghamshire, UK: Down's Syndrome Research Foundation. http://www.dsrf-uk.org/PDF/BrightBeginnings_3.pdf. 
  • Dykens EM (2007). "Psychiatric and behavioral disorders in persons with Down syndrome". Ment Retard Dev Disabil Res Rev 13 (3): 272–78. doi:10.1002/mrdd.20159. PMID 17910080. 
  • Hassold, TJ; Patterson, D eds. (1999). Down Syndrome: A Promising Future, Together. New York: Wiley Liss.
  • Kingsley, J; Levitz M (1994). Count Us In: Growing up with Down Syndrome. San Diego: Harcourt Brace. ISBN 0-15-622660-X. 
  • Koch, Richard; De La Cruz, Felix F, eds. (1975). Downs Syndrome...: Research, Prevention and Management. Proceedings of a Conference on Down's Syndrome. New York: Brunner/Mazel. ISBN 0-87630-093-X 
  • Pueschel, SM; Sustrova, M eds. (1997). Adolescents with Down Syndrome: Toward a More Fulfilling Life. Baltimore, MD: Brookes Paul H
  • Selikowitz, M (1997). Down Syndrome: The Facts (2nd ed.). Oxford, UK: Oxford University Press. ISBN 0-19-262662-0. 
  • Van Dyke, DC; Mattheis, PJ; Schoon Eberly, S; Williams, J (1995). Medical and Surgical Care for Children with Down Syndrome. Bethesda, MD: Woodbine House. ISBN 0-933149-54-9. 
  • Zuckoff, M (2002). Choosing Naia: A Family's Journey. New York: Beacon Press. ISBN 0-8070-2817-7. 

External links

   
               

 

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