When was Down Syndrome Discovered?
For centuries, people with Down syndrome have been alluded to in art, literature and science. It wasn’t until the late nineteenth century, however, that John Langdon Down, an English physician, published an accurate description of a person with Down syndrome. It was this scholarly work, published in 1866, that earned Down the recognition as the “father” of the syndrome. Although other people had previously recognized the characteristics of the syndrome, it was Down who escribed the condition as a distinct and separate entity. In recent history, advances in medicine and science have enabled researchers to investigate the haracteristics of people with Down syndrome. In 1959, the French physician Jerome Lejeune identified Down syndrome as a chromosomal anomaly. Instead of the usual 46 chromosomes present in each cell, Lejeune observed 47 in the cells of individuals with Down syndrome. It was later determined that an extra partial or complete chromosome 21 results in the characteristics associated with Down syndrome. In May of 2000, an international team of scientists successfully
identified and catalogued each of the approximately329 genes on chromosome 21. This accomplishment opened the door to great advances in Down syndrome research.
Why is Down Syndrome Referred to as a Genetic Condition?
The human body is made of cells; all cells contain a center, called a nucleus, in which genetic material is stored. This genetic material, known as genes, carries the odes responsible for all our inherited characteristics. Genes are grouped along rod-like structures called chromosomes. Normally, the nucleus of each cell contains 23 pairs of chromosomes, half of which are inherited from each parent. In individuals with Down syndrome, however, the cells usually contain 47, not 46, romosomes; the extra chromosome is the 21st. This excess genetic material, in the form of additional genes along chromosome 21, results in Down syndrome. The extra 21st chromosome is detected by using a procedure called a karyotype. A karyotype is a visual display of the chromosomes grouped by size, number and shape. Chromosomes may be studied by examining blood or tissue cells. Individual chromosomes are identified, stained and numbered from largest to smallest. Ninety-five percent of occurrences of Down syndrome result from the presence of an extra (third) chromosome, a condition described as Trisomy 21.
What Causes Down Syndrome?
Down syndrome is usually caused by an error in cell division called nondisjunction. However, two other types of chromosomal abnormalities, mosaicism and ranslocation, are also implicated in Down syndrome — although to a much lesser extent. Regardless of the type of Down syndrome a person may have, all people with Down syndrome have an extra, critical portion of chromosome 21 present in all or some of their cells. This additional genetic material alters the course of evelopment and causes the characteristics associated with the syndrome.
Nondisjunction
Nondisjunction is a faulty cell division that results in an embryo with three copies of chromosome 21 instead of the usual two. Prior to or at conception, a pair of 21st chromosomes in either the sperm or the egg fails to separate. As the embryo develops, the extra chromosome is replicated in every cell of the body. This error in cell division is responsible for 95 percent of all cases of Down syndrome.
Why nondisjunction occurs is currently unknown, although research has shown that it increases in frequency as a woman ages. However, many people are surprised to find out that 80 percent of children born with Down syndrome are born to women under 35 years of age. This occurs because younger women have higher fertility rates. It does not contradict the fact that the incidence of births of children with Down syndrome dramatically increases with the age of the mother.
Once a woman has given birth to a baby with Down syndrome, it is estimated that the risk of having a second child with Down syndrome is about one in 100. However, the age of the mother may also be a risk factor.
Although nondisjunction can be of paternal origin, it is much less common. It has been suggested that environmental factors may cause nondisjunction. However, despite years of research, the cause (or causes) of nondisjunction is still unknown. There is no scientific evidence that environmental factors or the parents’ activities before or during pregnancy have an effect on any of the three types of Down syndrome.
Mosaicism
Mosaicism occurs when nondisjunction of chromosome 21 takes place in one of the initial cell divisions after fertilization. When this occurs, there is a mixture of two types of cells, some containing 46 chromosomes and some containing 47. Those cells with 47 chromosomes contain an extra chromosome 21. Because of the “mosaic” pattern of the cells, the term mosaicism is used. Mosaicism is rare, responsible for only one to two percent of all cases of Down syndrome.
Research has indicated that individuals with mosaic Down syndrome may be less affected by the physical and mental characteristics of Down syndrome than those with nondisjunction or translocation; however, broad generalizations are not possible due to the wide range of abilities that people with Down syndrome possess.
Translocation
Translocation accounts for only three to four percent of cases of Down syndrome. In translocation, part of chromosome 21 breaks off during cell division and attaches to another chromosome. While the total number of chromosomes in the cells remain 46, the presence of an extra part of chromosome 21 causes the characteristics of Down syndrome. As with nondisjunction, translocation occurs either prior to or at conception. But, unlike nondisjunction, maternal age is not linked to the risk of translocation. Most cases are sporadic, chance events. However, in about one third of translocation incidents, one parent is a carrier of a translocated chromosome. For this reason, the risk of recurrence of translocation in a subsequent child is higher than that of nondisjunction. Genetic counseling can determine the origin of translocation.
Are Prenatal Tests Available to Detect
Down Syndrome?
There are two types of tests available to pregnant women: screening and diagnostic. Screening tests estimate the risk of the fetus having Down syndrome; iagnostic tests tell whether or not the fetus actually has the condition. Currently, the most common screening test is the Triple Screen, a combination of three tests that measure quantities of various substances in the blood (alpha-fetoprotein, human chorionic gonadotropin and unconjugated estriol) and together with the woman’s age, estimate her risk of having a child with Down syndrome. These screening tests are typically offered between 15 and 20 weeks of gestation.
A “quad” test that measures an additional substance, inhibin-A, has recently been introduced in an attempt to provide a more accurate screening. Screenings are often performed in conjunction with a detailed sonogram. Sonograms can show some physical or developmental traits that are helpful in calculating the risk of Down syndrome. However, these tests alone cannot provide a sufficient diagnosis of Down syndrome. It is important to note that screening tests are of limited value. Some women who undergo these tests will be given false positive readings, and some will be given false negative readings. The Triple Screen test has a five to eight percent false positive rate and also has a false negative rate of 35 to 40 percent, detecting about 60 to 65 percent of all incidences of Down syndrome.
The procedures available for prenatal diagnosis of Down syndrome are amniocentesis, chorionic villus sampling (CVS) and percutaneous umbilical blood sampling PUBS). Each of these procedures carries a small risk of miscarriage because tissue must be extracted from the placenta or the umbilical cord to examine the fetal chromosomes. The procedures are 98 to 99 percent accurate in the detection of Down syndrome. Amniocentesis is usually performed between 12 and 20 weeks of gestation, CVS between eight and 12 weeks and PUBS after 20 weeks. Improvements in the sensitivity and predictive value of prenatal tests are ongoing. It is important to consult a medical professional or genetic counselor for the most up-to-date and appropriate information.
How is Down Syndrome Diagnosed in a Newborn?
The diagnosis of Down syndrome is usually suspected after birth as a result of the baby’s appearance. There are many physical characteristics that form the basis for suspecting an infant has Down syndrome. Many of these characteristics are found to some extent in the general population. Therefore, if Down syndrome is suspected, a karyotype will be performed to determine the diagnosis.
Some infants with Down syndrome have only a few of these traits, while others have many. Among the most common traits are:
• Muscle hypotonia – low muscle tone
• Flat facial profile – a somewhat depressed nasal bridge and a small nose
• Oblique palpebral fissures – an upward slant to the eyes
• Dysplastic ear – an abnormal shape of the ear
• Single palmar crease – a single deep crease across the center of the palm
• Hyper-flexibility – an excessive ability to extend the joints
• Curvature of the fifth finger, caused by under development of the middle phalanx (bone)
• Epicanthal folds – small skin folds on the inner corner of the eyes
• Excessive space between first and second toe
• Large tongue in relation to size of mouth Coupled with the natural stresses of childbirth, awaiting a diagnosis can be a particularly difficult time for parents. lthough there is no easy way to be informed, most families agree that the best way to proceed includes having the baby and family members present, and being told as soon as possible. Local Down syndrome support groups can be a valuable resource for families during this time. Please contact NDSS to find the closest support group.
Do People with Down Syndrome have Health Problems?
People with Down syndrome are at increased risk for certain health problems. While there is an increased risk for certain medical conditions compared to the eneral population, advances in medicine have rendered most of these health problems treatable and most people with Down syndrome lead healthy lives.
How Does Down Syndrome Affect Development?
All people with Down syndrome experience cognitive delays, however, the effect is usually mild to moderate and is not indicative of the many strengths and talents that each individual possesses. Children with Down syndrome learn to sit, walk, talk, play, toilet train and do most other activities — only somewhat later than their peers without Down syndrome.
About the National Down Syndrome Society
Our Vision: The National Down Syndrome Society envisions a world in which all people with Down syndrome have the opportunity to realize their life aspirations. DSS is committed to being the national leader in supporting and enhancing the quality of life, and realizing the potential, of all people with Down syndrome.
Our Constituents: Today, there are 350,000 people in the United States living with Down syndrome. Each of these individuals touches the lives of family members, educators, employers, health care professionals, peers and others. This network of people who are affected by Down syndrome numbers in the millions. Our rograms: Education. Through our model programs, award-winning Web site, national conferences, Information and Referral Center and more, NDSS provides argeted, in-depth information that meets the diverse needs of our constituents. Research. The Society hosts international research conferences and funds research both independently and through a partnership with the NIH. NDSS is the largest private funder of Down syndrome research in the U.S. Advocacy. In cooperation with our more than 165 affiliate groups, NDSS influences important local and federal legislation, established October as National Down Syndrome Awareness Month, organizes the national Buddy Walk program and much more.