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Osteogenesis Imperfecta

Osteogenesis imperfecta (OI), commonly known as brittle bone disease, is a group of genetic bone disorders. People with OI either have less collagen than normal or the quality is poorer than normal. As collagen is an important protein in bone structure this impairment causes those with the condition to have weak or fragile bones. more...

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As a genetic disorder, OI is a autosomal dominant defect. Most people with OI receive it from a parent but it can also be an individual (de novo or "sporadic") mutation.

Types

There are four types of OI, though the symptoms range from person to person. Type I is the most common and mildest form, followed by Type IV, Type III and Type II. A Type V has been proposed based on studies of Type IV.

Type I

  • OMIM 166200 - Type I
  • OMIM 166240 - Type IA

Collagen is normal but not of a high enough quantity:

  • Bones fracture easily, especially before puberty
  • Slight spinal curvature
  • Loose joints
  • Poor muscle tone
  • Discolouration of the sclera (whites of the eyes)
  • Early loss of hearing

Type II

  • OMIM 166210 - Type II

Collagen is not of a sufficient quality or quantity

  • Most cases die before adulthood
  • Severe respiratory problems due to underdeveloped lungs
  • Severe bone deformity and small stature

Type III

  • OMIM 259420 - Type III

Collagen quantity is sufficient but is not of a high enough quality

  • Bones fracture easily, sometimes even before birth
  • Bone deformity, often severe
  • Respiratory problems possible
  • Short stature, spinal curvature and barrel-shaped rib cage
  • Loose joints
  • Poor muscle tone in arms and legs
  • Discolouration of the sclera (whites of the eyes)
  • Early loss of hearing

Type IV

  • OMIM 166220 - Type IV

Collagen quantity is sufficient but is not of a high enough quality

  • Bones fracture easily, especially before puberty
  • Short stature, spinal curvature and barrel-shaped rib cage
  • Bone deformity is mild to moderate
  • Discolouration of the sclera (whites of the eyes)
  • Early loss of hearing

Treatment

At present there is no cure for OI so treatment is aimed at maintaining mobility and strengthening bones as much as possible.

Physiotherapy is used to strengthen muscles and improve motility in a gentle manner which minimises bone breakages. This often involves hydrotherapy and the use of support cushions to improve posture. Individuals are encouraged to change positions regularly throughout the day in order to balance the muscles which are being used and the bones which are under pressure. One of the biggest problems is that children often develop a fear of trying new ways of moving due to movement being associated with pain. This can make physiotherapy difficult to administer to young children.

Read more at Wikipedia.org


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Marrow transplant fights bone disease - osteogenesis imperfecta - Brief Article
From Science News, 3/6/99 by N. Seppa

Children born with a hereditary disease called osteogenesis imperfecta can face a lifetime of bone deformities, fractures, and short stature. These children produce faulty collagen--the white, fibrous protein that forms the framework for bone, tendons, and ligaments.

The skeletons of severely affected children are so weak that parents have been known to break a child's leg accidentally while changing a diaper. There is no known cure for osteogenesis imperfecta. Treatment consists of inserting metal rods into the largest bones as reinforcements.

Now, initial findings in a study of three children with the disease who received bone marrow transplants from healthy siblings reveal sharp increases in the recipients' bone mass, fewer fractures, and some height gain. The work, reported in the March NATURE MEDICINE, raises the prospect of a treatment that attacks osteogenesis imperfecta at its core.

Three months after receiving the marrow transplants, only 1.5 to 2.0 percent of the patients' osteoblasts--cells that make collagen--stemmed from donated marrow. Yet that small amount seems to have made a difference, says study coauthor Edwin M. Horwitz, a pediatric hematologist and oncologist at St. Jude Children's Research Hospital in Memphis, Tenn.

Horwitz admits to being "a bit surprised" when analysis showed that the three children had added 21, 28, and 29 grams of bone in the 100 days after the transplant. Healthy children of these ages--two of the patients were 13 months old and the other 32 months old--showing the same modest weight gain would have been expected to add less than 4 g of bone, he says.

The children chosen for this study were shockingly fragile. One of the 13-month-old infants had already had at least 37 fractures. This baby had only 3 fractures during the 6 months following the marrow transplant. The other 13-month-old baby had had at least 20 fractures before treatment but only 2 during the follow-up period. The third child had had 3 fractures in the 6 months preceding transplant and none during the next 6 months.

During the 6-month follow-up period, the two younger children grew 8.0 and 6.5 centimeters, roughly on a par with healthy babies that age. The older child, who hadn't grown at all during the 6 preceding months, grew 1.5 cm--38 percent of the normal rate.

One in 20,000 babies born in the United States has osteogenesis imperfecta. Those with severe cases--such as the children in the new study--usually don't survive beyond their 20s, Horwitz says. Some with less severe disease live longer, but many need wheelchairs to get around.

Marrow transplants--most commonly used to fight blood cancers and certain genetic diseases--had never been tried against osteogenesis imperfecta for fear that the procedure would place too great a strain on the children. Better transplant techniques have made marrow donation safer, says Stanton L. Gerson, a hematology oncologist at Case Western Reserve University in Cleveland. The treatment seems to work, but until doctors give it to more children, it is "premature to talk about this as a clinical success," he says.

COPYRIGHT 1999 Science Service, Inc.
COPYRIGHT 2000 Gale Group

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