The first prenatal screening test was introduced in the 1970s: a single second-trimester serum test for maternal serum alpha-fetoprotein, a marker of neural tube defects. Aneuploidy screening using maternal serum markers was introduced in the 1980s, and the number and complexity of offered screening tests have been on an upward trajectory ever since.[1] Prenatal genetic screening is used to assess whether there is an increased risk of the fetus being affected by a genetic disorder. Originally, prenatal genetic testing primarily focused on trisomy 21 (Down syndrome), but now it can detect a broad range of genetic disorders.[2] Today, prenatal genetic screening falls into four categories: ultrasonography, maternal carrier status of specific genetic disorders, maternal serum assays looking for specific biochemical markers indicative of aneuploidy, and most recently, maternal plasma fetal cell-free fetal DNA (cffDNA), which has been used for aneuploidy, microdeletion, and copy number variants (CNVs). Maternal serum assays include first-trimester screening, the triple screen, the quadruple screen, and the penta screen. There is also the option of combining first-trimester and second-trimester screening with either integrated, sequential, or contingent screening protocol. This provides a higher detection rate than a one-step screening.[3]

Maternal blood is collected through a standard blood draw. Maternal serum levels of maternal serum alpha-fetoprotein (MSAFP), pregnancy-associated plasma protein-A (PAPP-A), free beta-human chorionic gonadotropin (beta-hCG), inhibin A, and unconjugated estriol are measured. Cell-free fetal DNA is isolated and purified from maternal plasma. Maternal carrier screening involves collecting a sample of blood, saliva, or buccal tissue.

Regardless of maternal age, all women should be given information regarding and an option to pursue aneuploidy screening and follow-up diagnostic testing. Women should discuss these options with their provider in order to decide on the best test for them. Factors affecting the choice of screening include, but are not limited to, the mother’s desire for prenatal information, previous pregnancies, family history, gestational age at the first visit, cost, and desire to pursue follow-up pregnancy care or termination in the case of an abnormal diagnostic test.[3]

Individual screening procedures are dependent upon the gestational age of the fetus and the type of screening being done. The earliest genetic screen is carrier screening, which ideally would be done preconception, but is also offered prenatally. Cell-free fetal DNA can be reliably detected after 10 weeks of gestation. 

There are several options for first-trimester screening. Maternal serum analytes can be measured alone or in combination with a nuchal translucency measurement. Maternal serum markers measured in the first trimester are PAPP-A and free beta-hCG. Nuchal tissue thickness is measured in a lateral view using the caliper function of the ultrasound (US0 machine.[4]

Second-trimester serum screening options are the triple, quadruple screen, and penta screen. In addition, there are combinations of first and second-trimester screening that include the integrated screen, the stepwise screen, and the contingent screen. The triple screen measures hCG, MSAFP, and unconjugated estriol.[5] The quadruple (quad) screen measures hCG, MSAFP, inhibin A, and unconjugated estriol, and is particularly useful in patients who do not present for their first prenatal visit until the second trimester. The integrated screen is a combination of the results of the first-trimester combined screen and the second-trimester quad-screen into one result given after the second-trimester screening. The stepwise screen is like the integrated screen in that it combines first and second-trimester screenings; however, patients are given their first-trimester screen results early. The patient may go straight to diagnostic testing if the first-trimester screen is positive, at which point the stepwise screening would be discontinued. A patient with a negative first-trimester screen is notified of the result and continues to the second trimester quad screen.[3] The contingent screen gives patients their results after the first-trimester screen and stratifies patients into low, intermediate, and high-risk groups. Low-risk receives no further testing, and high-risk are offered diagnostic testing. Only intermediate-risk groups undergo the second-trimester quad screen.[6] The penta screen measures hCG, MSAFP, inhibin A, unconjugated estriol, and hyperglycosylated hCG.[3] 

Prenatal screening guidelines have been issued by several major organizations, including the American College of Obstetricians and Gynecologists, the Society for Maternal-Fetal Medicine, American College of Medical Genetics and Genomics, and the U.S. Preventive Services Task Force.

American College of Obstetricians and Gynecologists (ACOG) recommendation is prenatal screening for aneuploidy, and follow-up diagnostic testing should be offered to all patients regardless of maternal age or risk factors. Such testing should be discussed early in the pregnancy, and patients should be counseled on the individual risk factors, screening sensitivity, and the importance of diagnostic tests.[3][2]

Ultrasound findings are considered soft markers and should not be used exclusively to screen for aneuploidy.[3][7]

Carrier screening should ideally be offered preconceptionally. Patients may be offered ethnic-specific, pan-ethnic, or expanded carrier screening according to their physician’s preferences. If a woman is found to be a carrier, her partner should also be offered screening.[8]

The American College of Medical Genetics and Genomics (ACMG) recommends that patients should be educated on the availability of cell-free fetal DNA as a screening method for Down syndrome, Edwards syndrome, and Patau syndrome as well as its utility in screening for sex chromosome aneuploidy.[9]

Further screening should not be offered to women who have a previous negative screening test, as this increases the likelihood of a false-positive result. Diagnostic testing is universally recommended in the occurrence of a positive screening test regardless of screening modality.[3]

Carrier screening is commonly offered for spinal muscular atrophy, cystic fibrosis, hemoglobinopathies, fragile X syndrome, and Tay-Sachs disease.[10] 

Aneuploidy screening using maternal serum biomarkers is offered for chromosomes 21, 18, and 13 aneuploidy for Down syndrome, Edwards syndrome, and Patau syndrome, respectively. Aneuploidy screening using cffDNA is available for the above aneuploidies as well as Turner syndrome and Klinefelter syndrome. 

It is technically possible to screen for copy number variants, such as DiGeorge syndrome, using cffDNA.