Prenatal Diagnostic Testing

Screening during the first trimester usually consists of

The blood tests are done to estimate the risk of Down syndrome Down Syndrome (Trisomy 21) Down syndrome is a chromosome disorder caused by an extra chromosome 21 that results in intellectual disability and physical abnormalities. Down syndrome is caused by an extra chromosome 21... read more . They may be done at about 11 to 14 weeks of pregnancy.

Ultrasonography can help estimate the risk of Down syndrome and certain other chromosomal abnormalities. It can show whether the space at the back of the fetus's neck is enlarged. If it is, risk of these abnormalities is increased.

Alternatively, a blood test (called cell-free fetal nucleic acid [cfDNA] testing) may be done. For this test, small fragments of the fetus's DNA, which are present in the pregnant woman's blood in tiny amounts, are analyzed. This test can accurately determine the risk of Down syndrome and some other chromosomal abnormalities in couples with a high risk of having a fetus with a chromosomal abnormality. The test can be done as early as 10 weeks of pregnancy but can also be done later. Many doctors offer this test to all pregnant women.

First-trimester screening provides results early. If results are abnormal and the couple wishes, chorionic villus sampling Chorionic Villus Sampling Prenatal diagnostic testing involves testing the fetus before birth (prenatally) to determine whether the fetus has certain abnormalities, including certain hereditary or spontaneous genetic... read more can then be done early to determine whether Down syndrome is present. Amniocentesis Amniocentesis Prenatal diagnostic testing involves testing the fetus before birth (prenatally) to determine whether the fetus has certain abnormalities, including certain hereditary or spontaneous genetic... read more can also detect Down syndrome, but it is usually done later in pregnancy.

One advantage of 1st-trimester screening is that with earlier results, abortion Abortion Induced abortion is the intentional ending of a pregnancy by surgery or drugs. A pregnancy may be ended by surgically removing the contents of the uterus or by taking certain drugs. Complications... read more , if desired, can be done earlier, when it is safer.

During the 2nd trimester, markers in the pregnant woman’s blood are measured and sometimes ultrasonography is done to evaluate the risk that the fetus will have certain abnormalities.

Important markers include the following:

The alpha-fetoprotein level in blood is usually measured in all women, even those who have had 1st-trimester screening or chorionic villus sampling. A high level may indicate an increased risk of having any of the following:

Ultrasonography Ultrasonography Prenatal diagnostic testing involves testing the fetus before birth (prenatally) to determine whether the fetus has certain abnormalities, including certain hereditary or spontaneous genetic... read more is done if blood tests detect an abnormal alpha-fetoprotein level in a pregnant woman. It can help by doing the following:

Targeted ultrasonography using high-resolution equipment can be done at some specialized centers. It provides more detail and may be more accurate than standard ultrasonography, particularly for small birth defects. Targeted ultrasonography done during the 2nd trimester can help estimate the risk of a chromosomal abnormality. Targeted ultrasonography aims to identify certain structural birth defects that indicate an increased risk of a chromosomal abnormality. This test can also detect certain variations in organs that do not affect function but may indicate an increased risk of a chromosomal abnormality. However, normal results do not necessarily mean that there is no risk of a chromosomal abnormality.

If ultrasonography results are normal, a fetal problem is less likely, but certain conditions, such as neural tube defects, are still possible. Thus, whether ultrasonography results are normal or not, many doctors offer amniocentesis to all women.

Amniocentesis Amniocentesis Prenatal diagnostic testing involves testing the fetus before birth (prenatally) to determine whether the fetus has certain abnormalities, including certain hereditary or spontaneous genetic... read more is done if further testing is needed. It enables doctors to measure the alpha-fetoprotein level in the fluid that surrounds the fetus (amniotic fluid), to analyze the fetus’s chromosomes, and to determine whether the amniotic fluid contains an enzyme called acetylcholinesterase. Knowing what the alpha-fetoprotein level is and whether acetylcholinesterase is present helps doctors better assess risk.

A high alpha-fetoprotein level or the presence of acetylcholinesterase in the amniotic fluid suggests

A high alpha-fetoprotein level plus acetylcholinesterase in the amniotic fluid indicates a high risk of

Sometimes the amniotic fluid sample is contaminated with blood from the fetus. This blood may increase the alpha-fetoprotein level even when the fetus does not have an abnormality, making the results hard to interpret. In such cases, the fetus may not have any abnormalities.

Ultrasonography Ultrasonography Sometimes doctors recommend screening tests, which are tests that are done to look for disorders in people who have no symptoms. If women have symptoms related to the reproductive system (gynecologic... read more is commonly done during pregnancy. It has no known risks for the woman or fetus. Ultrasonography can do the following:

Ultrasonography is often used to check for abnormalities in the fetus when a pregnant woman has abnormal results on a prenatal blood test or a family history of birth defects (such as heart birth defects Overview of Heart Defects About one in 100 babies is born with a heart defect. Some are severe, but many are not. Defects may involve abnormal formation of the heart's walls or valves or of the blood vessels that enter... read more or cleft lip and palate Cleft Lip and Cleft Palate A cleft is an opening that can form in the lip (cleft lip), roof of the mouth (cleft palate), or both if the tissue does not join together completely during pregnancy. Cleft lip and cleft palate... read more ). However, normal results do not guarantee a normal baby because no test is completely accurate. Results of ultrasonography may suggest chromosomal abnormalities in the fetus, but ultrasonography cannot identify the specific problem. In such cases, amniocentesis Amniocentesis Prenatal diagnostic testing involves testing the fetus before birth (prenatally) to determine whether the fetus has certain abnormalities, including certain hereditary or spontaneous genetic... read more may be recommended.

Ultrasonography is done before chorionic villus sampling and amniocentesis to confirm the length of the pregnancy so that these procedures can be done at the appropriate time during the pregnancy. During these procedures, ultrasonography is used to monitor the fetus and to guide placement of instruments.

At some specialized medical centers, targeted ultrasonography using high-resolution equipment can be done. For this test, experts carefully assess the fetus to check for structural defects that indicate an increased risk of a chromosomal abnormality. Targeted ultrasonography can provide greater detail than conventional ultrasonography. Thus, this test may detect smaller abnormalities, and abnormalities can be seen earlier, more accurately, or both.

One of the most common procedures for detecting abnormalities before birth is amniocentesis. It is often offered to women over 35 because they have a higher risk of having a fetus with chromosomal abnormalities than younger women. However, many doctors offer this test to all pregnant women, and any pregnant woman can request it, even if her risk is not higher than normal.

In this procedure, a sample of the fluid that surrounds the fetus (amniotic fluid) is removed and analyzed. Amniocentesis is usually done at 15 weeks of pregnancy or later. The fluid contains cells that have been shed by the fetus. These cells are grown in a laboratory so that the chromosomes in them can be analyzed. Amniocentesis enables doctors to measure the level of alpha-fetoprotein (a protein produced by the fetus) in the amniotic fluid. This measurement more reliably indicates whether the fetus has a brain or spinal cord defect than does measurement of this level in the woman’s blood.

Before the procedure, ultrasonography is done to evaluate the heart of the fetus, to confirm the length of the pregnancy, to locate the placenta and amniotic fluid, and to determine how many fetuses are present.

A doctor inserts a needle through the abdominal wall into the amniotic fluid. Sometimes a local anesthetic is first used to numb the site. During the procedure, ultrasonography is done so that the fetus can be monitored and the needle can be guided into place. Fluid is withdrawn, and the needle is removed.

Occasionally, the amniotic fluid contains blood from the fetus. Such blood may increase the alpha-fetoprotein level, making the results hard to interpret.

If women have Rh-negative blood, they are given Rho(D) immune globulin after the procedure to prevent them from producing antibodies to Rh factor. When a woman with Rh-negative blood has a fetus with Rh-positive blood (called Rh incompatibility Hemolytic Disease of the Fetus and Newborn Rh incompatibility occurs when a pregnant woman has Rh-negative blood and the fetus has Rh-positive blood. Rh incompatibility can result in destruction of the fetus’s red blood cells, sometimes... read more ), she may produce these antibodies if the fetus's blood comes into contact with her blood, as it may during amniocentesis. These antibodies can cause problems in a fetus with Rh-positive blood. The injection is not needed if the father also has Rh-negative blood because in such cases, the fetus always has Rh-negative blood.

Amniocentesis rarely causes any problems for the woman or the fetus. The following may occur:

Amniocentesis can usually be done when a woman is pregnant with twins or even more fetuses.

In chorionic villus sampling, a doctor removes a small sample of the chorionic villi, which are tiny projections that make up part of the placenta. This procedure is used to diagnose some disorders in the fetus, usually between 10 and 12 weeks of pregnancy.

Unlike amniocentesis, chorionic villus sampling does not enable doctors to obtain a sample of amniotic fluid. Consequently, doctors cannot measure the alpha-fetoprotein level in amniotic fluid to check for brain and spinal cord defects (neural tube defects). Doctors may suggest that amniocentesis Amniocentesis Prenatal diagnostic testing involves testing the fetus before birth (prenatally) to determine whether the fetus has certain abnormalities, including certain hereditary or spontaneous genetic... read more or blood tests to measure alpha-fetoprotein be done later in the pregnancy to check for these defects.

The main advantage of chorionic villus sampling is that its results are available much earlier in the pregnancy than those of amniocentesis. Thus, if no abnormality is detected, the couple’s anxiety can be relieved earlier. If an abnormality is detected earlier and if the couple decides to terminate the pregnancy, simpler, safer methods can be used. Also, early detection of an abnormality may give the couple more time to prepare for the birth of a child with special medical needs.

Before chorionic villus sampling, ultrasonography is done to determine whether the fetus is alive, to confirm the length of the pregnancy, to check for obvious abnormalities, and to locate the placenta.

A sample of the chorionic villi can be removed through the cervix (transcervically) or the abdominal wall (transabdominally).

For both procedures, doctors use ultrasonography to guide them as they insert the catheter or needle and suction out the tissue sample with a syringe. The sample is then sent for analysis. Many women have light spotting for a day or two after either of these procedures.

After chorionic villus sampling, women who have Rh-negative blood and who do not have antibodies to Rh factor are given an injection of Rho(D) immune globulin to prevent them from producing antibodies to Rh factor. When a woman with Rh-negative blood has a fetus with Rh-positive blood (called Rh incompatibility Hemolytic Disease of the Fetus and Newborn Rh incompatibility occurs when a pregnant woman has Rh-negative blood and the fetus has Rh-positive blood. Rh incompatibility can result in destruction of the fetus’s red blood cells, sometimes... read more ), she may produce these antibodies if the fetus's blood comes into contact with her blood, as it may during chorionic villus sampling. These antibodies can cause problems in the fetus. The injection is not needed if the father also has Rh-negative blood because in such cases, the fetus always has Rh-negative blood.

The risks of chorionic villus sampling are comparable to those of amniocentesis. The most common risk is that of miscarriage Miscarriage A miscarriage is the loss of a fetus before 20 weeks of pregnancy. Miscarriages may occur because of a problem in the fetus (such as a genetic disorder or birth defect) or in the woman (such... read more , which occurs in about 1 in 500 procedures.

Rarely, the genetic diagnosis is unclear after chorionic villus sampling, and amniocentesis may be necessary. In general, the accuracy of the two procedures is comparable.

In percutaneous (through the skin) umbilical blood sampling, the doctor first anesthetizes an area of skin over the abdomen. Guided by ultrasonography, the doctor then inserts a needle through the abdominal wall and uterus into the umbilical cord. A sample of the fetus’s blood is withdrawn and analyzed, and the needle is removed. Percutaneous umbilical blood sampling is an invasive procedure. It may cause miscarriage Miscarriage A miscarriage is the loss of a fetus before 20 weeks of pregnancy. Miscarriages may occur because of a problem in the fetus (such as a genetic disorder or birth defect) or in the woman (such... read more in about 1 in 100 procedures.

In the past, percutaneous umbilical blood sampling was used when rapid chromosome analysis was needed, particularly toward the end of pregnancy when ultrasonography detected abnormalities in the fetus. However, this procedure is now rarely used for this purpose. Instead, doctors analyze the genes in amniotic fluid cells (obtained during amniocentesis Amniocentesis Prenatal diagnostic testing involves testing the fetus before birth (prenatally) to determine whether the fetus has certain abnormalities, including certain hereditary or spontaneous genetic... read more ), or they analyze part of the placenta (obtained during chorionic villus sampling Chorionic Villus Sampling Prenatal diagnostic testing involves testing the fetus before birth (prenatally) to determine whether the fetus has certain abnormalities, including certain hereditary or spontaneous genetic... read more ). These tests are less dangerous and provide results more quickly.

Currently, percutaneous umbilical blood sampling is occasionally done when doctors suspect that a fetus has anemia Overview of Anemia Anemia is a condition in which the number of red blood cells is low. Red blood cells contain hemoglobin, a protein that enables them to carry oxygen from the lungs and deliver it to all parts... read more . If the fetus has severe anemia, blood can be transfused to the fetus through the needle while it is still inserted in the umbilical cord.

When in vitro (test tube) fertilization In vitro (test tube) fertilization (IVF) is done, doctors can sometimes diagnose genetic disorders in the embryo before it is transferred to the woman’s uterus. Preimplantation genetic testing requires technical expertise and is expensive. These tests are used mainly for couples with a high risk of having a baby with certain genetic disorders (such as cystic fibrosis Cystic Fibrosis (CF) Cystic fibrosis is a hereditary disease that causes certain glands to produce abnormally thick secretions, resulting in tissue and organ damage, especially in the lungs and the digestive tract... read more ) or chromosomal abnormalities. However, newer techniques may reduce costs and make the tests more widely available.

Whether routine use of preimplantation genetic testing to screen embryos for chromosomal abnormalities increases the chance of successful pregnancy remains controversial.