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Osteogenesis imperfecta

Brittle bone disease; Congenital disease; OI

 

Osteogenesis imperfecta is a condition causing extremely fragile bones.

Causes

 

Osteogenesis imperfecta (OI) is present at birth. It is often caused by a defect in the gene that produces type 1 collagen, an important building block of bone. There are many defects that can affect this gene. The severity of OI depends on the specific gene defect.

If you have 1 copy of the gene, you will have the disease. Most cases of OI are inherited from a parent. However, some cases are the result of new genetic mutations.

A person with OI has a 50% chance of passing on the gene and the disease to his or her children.

 

Symptoms

 

All people with OI have weak bones, and fractures are more likely. People with OI are most often below average height ( short stature ). However, the severity of the disease varies greatly.

The classic symptoms include:

  • Blue tint to the whites of their eyes (blue sclera)
  • Multiple bone fractures
  • Early hearing loss ( deafness )

Because type I collagen is also found in ligaments, people with OI often have loose joints (hypermobility) and flat feet. Some types of OI also lead to the development of poor teeth.

Symptoms of more severe forms of OI may include:

  • Bowed legs and arms
  • Kyphosis
  • Scoliosis (S-curve spine)

 

Exams and Tests

 

OI is most often suspected in children whose bones break with very little force. A physical exam may show that the whites of their eyes have a blue tint.

A definitive diagnosis may be made using a skin punch biopsy . Family members may be given a DNA blood test.

If there is a family history of OI, chorionic villus sampling may be done during pregnancy to determine if the baby has the condition. However, because so many different mutations can cause OI, some forms cannot be diagnosed with a genetic test.

The severe form of type II OI can be seen on ultrasound when the fetus is as young as 16 weeks.

 

Treatment

 

There is not yet a cure for this disease. However, specific therapies can reduce the pain and complications from OI.

Drugs that can increase the strength and density of bone are used in people with OI. They have been shown to reduce bone pain and fracture rate (especially in the bones of the spine). They are called bisphosphonates.

Low impact exercises, such as swimming, keep muscles strong and help maintain strong bones. People with OI can benefit from these exercises and should be encouraged to do them.

In more severe cases, surgery to place metal rods into the long bones of the legs may be considered. This procedure can strengthen the bone and reduce the risk for fracture. Bracing can also be helpful for some people.

Surgery may be needed to correct any deformities. This treatment is important because deformities (such as bowed legs or a spinal problem) can interfere with a person's ability to move or walk.

Even with treatment, fractures will occur. Most fractures heal quickly. Time in a cast should be limited, because bone loss may occur when you do not use a part of your body for a period of time.

Many children with OI develop body image problems as they enter their teenage years. A social worker or psychologist can help them adapt to life with OI.

 

Outlook (Prognosis)

 

How well a person does depends on the type of OI they have.

  • Type I, or mild OI, is the most common form. People with this type can live a normal lifespan.
  • Type II is a severe form that often leads to death in the first year of life.
  • Type III is also called severe OI. People with this type have many fractures starting very early in life and can have severe bone deformities. Many people need to use a wheelchair and often have a somewhat shortened life expectancy.
  • Type IV, or moderately severe OI, is similar to type I, although people with type IV often need braces or crutches to walk. Life expectancy is normal or near normal. 

There are other types of OI, but they occur very rarely and most are considered subtypes of the moderately severe form (type IV).

 

Possible Complications

 

Complications are largely based on the type of OI present. They are often directly related to the problems with weak bones and multiple fractures.

Complications may include:

  • Hearing loss (common in type I and type III)
  • Heart failure (type II)
  • Respiratory problems and pneumonias due to chest wall deformities
  • Spinal cord or brain stem problems
  • Permanent deformity

 

When to Contact a Medical Professional

 

Severe forms are most often diagnosed early in life, but mild cases may not be noted until later in life. See your health care provider if you or your child have symptoms of this condition.

 

Prevention

 

Genetic counseling is recommended for couples considering pregnancy if there is a personal or family history of this condition.

 

 

References

Marini JC. Osteogenesis imperfecta In: Kliegman RM, Stanton BF, St. Geme JW, Schor NF, eds. Nelson Textbook of Pediatrics . 20th ed. Philadelphia, PA: Elsevier; 2016:chap 701.

 
  • Pectus excavatum - illustration

    Pectus excavatum is a condition in which the "breast bone" (sternum) appears sunken and the chest concave. It is sometimes called "funnel chest". The majority of these cases are not associated with any other condition (isolated findings). However, some genetic conditions include pectus excavatum.

    Pectus excavatum

    illustration

    • Pectus excavatum - illustration

      Pectus excavatum is a condition in which the "breast bone" (sternum) appears sunken and the chest concave. It is sometimes called "funnel chest". The majority of these cases are not associated with any other condition (isolated findings). However, some genetic conditions include pectus excavatum.

      Pectus excavatum

      illustration

    Tests for Osteogenesis imperfecta

     

       

      Review Date: 7/10/2015

      Reviewed By: Neil K. Kaneshiro, MD, MHA, Clinical Assistant Professor of Pediatrics, University of Washington School of Medicine, Seattle, WA. Also reviewed by David Zieve, MD, MHA, Isla Ogilvie, PhD, and the A.D.A.M. Editorial team.

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