Achondroplasia Health Article

Demographics

Because individuals with other forms of dwarfism are often misdiagnosed with achondroplasia, the exact incidence of achondroplasia is unknown. Estimates of the incidence of achondroplasia vary between 1/10,000 to 1/40,000 births. It is estimated that there are approximately 15,000 individuals with achondroplasia in the United States and 65,000 worldwide. Achondroplasia affects males and females in equal numbers.

Signs and symptoms

Individuals with achondroplasia have disproportionate short stature, large heads with characteristic facial features, and rhizomelic shortening of their limbs. Rhizomelic means "root limb." Rhizomelic shortening of the limbs means that those segments of a limb closest to the body (the root of the limb) are more severely affected. In individuals with achondroplasia, the upper arms are shorter than the forearms and the upper leg (thigh) is shorter than the lower leg.

In addition to shortened limbs, individuals with achondroplasia have other characteristic limb differences. People with achondroplasia have a limited ability to rotate and extend their elbows. They generally develop bowed legs and may have in-turned toes. Their hands and feet are short and broad, as are their fingers and toes. Their hands have been described as having a "trident" configuration. This term is based upon the trident fork used in Greek mythology and describes the unusual separation of their middle fingers. This unusual separation gives their hands a "three-pronged" appearance with the thumb and two small fingers on the side and the index and middle finger in the middle.

Individuals with achondroplasia have similar facial features and a large head (megalencephaly) due to the difference in the growth of the bones of the face and head. The exact reason for the increase in head size is not known, but it reflects increased brain size and can sometimes be due to hydrocephalus. People with achondroplasia have a protruding forehead (frontal bossing) and a relatively prominent chin. The prominent appearance of the chin is in part due to the relative flatness of their midface. While people with achondroplasia do resemble one another, they also resemble their family of origin.

Individuals with achondroplasia have shortening of their long bones. Women with achondroplasia have an average adult height of 48 in (122 cm). Men have an average adult height of 52 in (132 cm).

Diagnosis

Achondroplasia is generally diagnosed by physical examination at birth. The characteristic findings of short stature, rhizomelic shortening of the limbs, and specific facial features become more pronounced over time. In addition to being diagnosed by physical examination, individuals with achondroplasia have some specific bone changes that can be seen on an x ray. These include a smaller spinal canal and a small foramen magnum. The foramen magnum is the opening at the base of the skull. The spinal cord runs from the spinal canal through the foramen magnum and connects with the brain.

The diagnosis of achondroplasia can also be made prenatally either by ultrasound (sonogram) or by prenatal DNA testing. Sonograms use sound waves to provide an image of a fetus. The physical findings of achondroplasia (shortened long bones, trident hand) can be detected in the third trimester (last three months) of a pregnancy. Prior to the last three months of pregnancy, it is difficult to use a sonogram to diagnose achondroplasia because the physical features may not be obvious. Because of the large number of skeletal dysplasias, it can be very difficult to definitively diagnose achondroplasia by sonogram. Many other dwarfing syndromes can look very similar to achondroplasia on a sonogram.

Prenatal testing can also be done using DNA technology. A sample of tissue from a fetus is obtained by either chorionic villi sampling (CVS) or by amniocentesis. Chorionic villi sampling is generally done between 10-12 weeks of pregnancy and amniocentesis is done between 16-18 weeks of pregnancy. Chorionic villi sampling involves removing a small amount of tissue from the developing placenta. The tissue in the placenta contains the same DNA as the fetus. Amniocentesis involves removing a small amount of fluid from around the fetus. This fluid contains some fetal skin cells. DNA can be isolated from these skin cells. The fetal DNA is then tested to determine if it contains either of the two mutations responsible for achondroplasia.

Prenatal DNA testing for achondroplasia is not routinely performed in low-risk pregnancies. This type of testing is generally limited to high-risk pregnancies, such as those in which both parents have achondroplasia. It is particularly helpful in determining if a fetus has received two abnormal genes (homozygous achondroplasia). This occurs when both parents have achondroplasia and each of them passes on their affected gene. The baby gets two copies of the achondroplasia gene. Babies with homozygous achondroplasia are much more severely affected than babies with heterozygous achondroplasia. Infants with homozygous achondroplasia generally die shortly after birth due to breathing problems caused by an extremely small chest.

DNA testing can also be performed on blood samples from children or adults. This is usually done if there is some doubt about the diagnosis of achondroplasia or in atypical cases.