National Organization for Rare Disorders, Inc.
It is possible that the main title of the report Hutchinson-Gilford Progeria is not the name you expected.
Progeria, or Hutchinson-Gilford progeria syndrome (HGPS), is a rare, fatal, genetic condition of childhood with striking features resembling premature aging. Children with progeria usually have a normal appearance in early infancy. At approximately nine to 24 months of age, affected children begin to experience profound growth delays, resulting in short stature and low weight. They also develop a distinctive facial appearance characterized by a disproportionately small face in comparison to the head; an underdeveloped jaw (micrognathia); malformation and crowding of the teeth; abnormally prominent eyes; a small nose; prominent eyes and a subtle blueness around the mouth. In addition, by the second year of life, the scalp hair, eyebrows, and eyelashes are lost (alopecia), and the scalp hair may be replaced by small, downy, white or blond hairs. Additional characteristic features include generalized atherosclerosis, cardiovascular disease and stroke, hip dislocations, unusually prominent veins of the scalp, loss of the layer of fat beneath the skin (subcutaneous adipose tissue), defects of the nails, joint stiffness, skeletal defects, and/or other abnormalities. According to reports in the medical literature, individuals with HGPS develop premature, widespread thickening and loss of elasticity of artery walls (arteriosclerosis), which result in life-threatening complications during childhood, adolescence, or early adulthood. Children with progeria die of heart disease (atherosclerosis) at an average age of 13 years, with a range of about eight to 21 years. As with any person suffering from heart disease, the common events as heart disease advances for children with progeria can include high blood pressure, strokes, angina (chest pain due to poor blood flow to the heart itself), enlarged heart, and heart failure, all conditions associated with aging.
Progeria is caused by a mutation of the gene LMNA, or lamin A. The lamin A protein, is the scaffolding that holds the nucleus of a cell together. Researchers now believe that the defective lamin A protein, makes the nucleus unstable. That cellular instability appears to lead to the process of premature aging in progeria.
Genetic and Rare Diseases (GARD) Information Center
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Progeria Research Foundation, Inc.
- P.O. Box 3453
- Peabody, MA 01961-3453
- Tel: (978)535-2594
- Fax: (978)535-5849
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- Website: http://www.progeriaresearch.org
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Last Updated: 4/2/2014
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