|This article needs additional citations for verification. (October 2008)|
|التبويب والمصادر الخارجية|
|التخصص||خطأ لوا في package.lua على السطر 80: module 'Module:i18n' not found.|
|Patient UK||الأمراض الوراثية|
A genetic disorder is an illness caused by abnormalities in genes or chromosomes. While some diseases, such as cancer, are due in part to genetic disorders, they can also be caused by environmental factors. Most disorders are quite rare and affect one person in every several thousands or millions. Some types of recessive gene disorders confer an advantage in the heterozygous state in certain environments.
الاضطراب الجيني المفرد
|انتشار الاضطراب (approximate)|
|ارتفاع الكوليسترول العائلي||1 in 500|
|داء تكيس الكلية||1 in 1250|
|مرض كثرة الكريات الحمراء الموروث||1 in 5,000|
|Marfan syndrome||1 in 4,000 |
|Huntington disease||1 in 15,000 |
|فقر الدم المنجلي|| 1 in 625 |
|التليف الكيسي|| 1 in 2,000 |
|Tay-Sachs disease|| 1 in 3,000 |
|بيلة الفينيل كيتون||1 in 12,000|
|Mucopolysaccharidoses||1 in 25,000|
|مرض اختزان الغليكوجينs||1 in 50,000|
|Galactosemia||1 in 57,000|
|Duchenne muscular dystrophy||1 in 7,000|
|الناعور||1 in 10,000|
|Values are for liveborn infants|
A single gene disorder is the result of a single mutated gene. There are estimated to be over 4000 human diseases caused by single gene defects. Single gene disorders can be passed on to subsequent generations in several ways. Genomic imprinting and uniparental disomy, however, may affect inheritance patterns. The divisions between recessive and dominant types are not "hard and fast" although the divisions between autosomal and X-linked types are (since the latter types are distinguished purely based on the chromosomal location of the gene). For example, achondroplasia is typically considered a dominant disorder, but children with two genes for achondroplasia have a severe skeletal disorder that achondroplasics could be viewed as carriers of. Sickle-cell anemia is also considered a recessive condition, but heterozygous carriers have increased resistance to malaria in early childhood, which could be described as a related dominant condition.[بحاجة لمصدر] When a couple where one partner or both are sufferers or carriers of a single gene disorder and wish to have a child they can do so through IVF whichs means they can then have PGD (pre-implantation genetic diagnosis) to check whether the fertilised egg has had the genetic disorder passed on.
الاضطراب الوراثي الجسمي السائد
إن نسخة معدلة واحدة من الجين ستكون كافية للشخص ليصاب باضطراب وراثي جسمي سائد . كل مصاب عادة ما يكون ابناً لأحد والدين مصاب ، هناك فرصة تقدر بـ 50% للطفل أن يكون وارثاً للجين المعدل. الظروف التي يكون فيها الاضطراب الوراثي الجسمي السائد منخفضاً Only one mutated copy of the gene will be necessary for a person to be affected by an autosomal dominant disorder. Each affected person usually has one affected parent. There is a 50% chance that a child will inherit the mutated gene. Conditions that are autosomal dominant often have low penetrance, which means that although only one mutated copy is needed, a relatively small proportion of those who inherit that mutation go on to develop the disease. Examples of this type of disorder are Huntington's disease, neurofibromatosis type 1, Marfan syndrome, hereditary nonpolyposis colorectal cancer, and hereditary multiple exostoses, which is a highly penetrant autosomal dominant disorder. Birth defects are also called congenital anomalies.
Two copies of the gene must be mutated for a person to be affected by an autosomal recessive disorder. An affected person usually has unaffected parents who each carry a single copy of the mutated gene (and are referred to as carriers). Two unaffected people who each carry one copy of the mutated gene have a 25% chance with each pregnancy of having a child affected by the disorder. Examples of this type of disorder are cystic fibrosis, sickle-cell disease (also partial sickle-cell disease), Tay-Sachs disease, Niemann-Pick disease, spinal muscular atrophy, Roberts syndrome, and Dry (otherwise known as "rice-brand") earwax.
X-linked dominant disorders are caused by mutations in genes on the X chromosome. Only a few disorders have this inheritance pattern, with a prime example being X-linked hypophosphatemic rickets. Males and females are both affected in these disorders, with males typically being more severely affected than females. Some X-linked dominant conditions such as Rett syndrome, incontinentia pigmenti type 2 and Aicardi syndrome are usually fatal in males either in utero or shortly after birth, and are therefore predominantly seen in females. Exceptions to this finding are extremely rare cases in which boys with Klinefelter syndrome (47,XXY) also inherit an X-linked dominant condition and exhibit symptoms more similar to those of a female in terms of disease severity. The chance of passing on an X-linked dominant disorder differs between men and women. The sons of a man with an X-linked dominant disorder will all be unaffected (since they receive their father's Y chromosome), and his daughters will all inherit the condition. A woman with an X-linked dominant disorder has a 50% chance of having an affected fetus with each pregnancy, although it should be noted that in cases such as incontinentia pigmenti only female offspring are generally viable. In addition, although these conditions do not alter fertility per se, individuals with Rett syndrome or Aicardi syndrome rarely reproduce.[بحاجة لمصدر]
X-linked recessive conditions are also caused by mutations in genes on the X chromosome. Males are more frequently affected than females, and the chance of passing on the disorder differs between men and women. The sons of a man with an X-linked recessive disorder will not be affected, and his daughters will carry one copy of the mutated gene. A woman who is a carrier of an X-linked recessive disorder (XRXr) has a 50% chance of having sons who are affected and a 50% chance of having daughters who carry one copy of the mutated gene and are therefore carriers. X-linked recessive conditions include the serious diseases Hemophilia A, Duchenne muscular dystrophy, and Lesch-Nyhan syndrome as well as common and less serious conditions such as male pattern baldness and red-green color blindness. X-linked recessive conditions can sometimes manifest in females due to skewed X-inactivation or monosomy X (Turner syndrome).
Y-linked disorders are caused by mutations on the Y chromosome. Because males inherit a Y chromosome from their fathers, every son of an affected father will be affected. Because females inherit an X chromosome from their fathers, female offspring of affected fathers are never affected.
Since the Y chromosome is relatively small and contains very few genes, there are relatively few Y-linked disorders.[بحاجة لمصدر] Often the symptoms include infertility, which may be circumvented with the help of some fertility treatments. Examples are male infertility and hypertrichosis pinnae.[بحاجة لمصدر]
This type of inheritance, also known as maternal inheritance, applies to genes in mitochondrial DNA. Because only egg cells contribute mitochondria to the developing embryo, only mothers can pass on mitochondrial conditions to their children. An example of this type of disorder is Leber's hereditary optic neuropathy.
Multifactorial and polygenic (complex) disorders
Genetic disorders may also be complex, multifactorial, or polygenic, meaning that they are likely associated with the effects of multiple genes in combination with lifestyle and environmental factors. Multifactorial disorders include heart disease and diabetes. Although complex disorders often cluster in families, they do not have a clear-cut pattern of inheritance. This makes it difficult to determine a person’s risk of inheriting or passing on these disorders. Complex disorders are also difficult to study and treat because the specific factors that cause most of these disorders have not yet been identified.
On a pedigree, polygenic diseases do tend to “run in families”, but the inheritance does not fit simple patterns as with Mendelian diseases. But this does not mean that the genes cannot eventually be located and studied. There is also a strong environmental component to many of them (e.g., blood pressure).
- autoimmune diseases such as multiple sclerosis
- cleft palate
- heart disease
- inflammatory bowel disease
- mental retardation
- mood disorder
- refractive error
Prognosis and treatment of genetic disorders
|هذهsection requires expansion. (August 2010)|
- Gauchers disease is a genetic disease affecting metabolism. It is more treatable then most other genetic diseases, and can be treated with enzyme replacement therapy, medication miglustat, and bone marrow transplantion.
- Genetic epidemiology
- Inborn errors of metabolism
- List of genetic disorders
- Medical genetics
- Population groups in biomedicine
- ^ WGBH Educational Foundation
- ^ خطأ لوا في ...nsions/Scribunto/engines/LuaCommon/lualib/mwInit.lua على السطر 17: bad argument #1 to 'old_pairs' (table expected, got nil).
- ^ Walker FO (2007). "Huntington's disease". Lancet. 369 (9557): 221. PMID 17240289. doi:10.1016/S0140-6736(07)60111-1.
- ^ Kuliev A, Verlinsky Y (2005). "Preimplantation diagnosis: A realistic option for assisted reproduction and genetic practice". Curr. Opin. Obstet. Gynecol. 17 (2): 179–83. PMID 15758612. doi:10.1097/01.gco.0000162189.76349.c5. Retrieved 2009-04-01.
- ^ Wade, Nicholas (January 29, 2006). "Japanese Scientists Identify Ear Wax Gene". New York Times.
- ^ Retinitis Pigmentosa: Treatment & Medication, eMedicine WebMD, 2009-09-19, accessed 2010-03-31.
- ^ Gaucher's disease:Treatments and drugs, eMedicine WebMD, 2009-07-11, accessed 2010-03-31.
- Public Health Genomics at CDC
- OMIM - Online Mendelian Inheritance in Man, a catalog of human genes and genetic disorders
- Genetic and Rare Diseases Information Center (GARD) Office of Rare Diseases (ORD), National Institutes of Health (NIH)
- CDC’s National Center on Birth Defects and Developmental Disabilities
- Genetic Disease Information from the Human Genome Project