Understanding NIPT: Non-Invasive Prenatal Testing

Screening for genetic differences isn’t new, but the way you can be screened for them is. NIPT - Non-invasive prenatal testing is considered non-invasive because it requires drawing blood only from the pregnant woman and does not pose any risk to the fetus. It carries less risk to pregnant women then previous diagnostic screening options such as amniocentesis or chorionic villus sampling (CVS).

Non-invasive prenatal testing (NIPT) involves a blood screening which can analyse your baby’s DNA to identify the likelihood for genetic conditions such as Down syndrome. Previously, other screening tests were available however these were invasive tests which carried the risk of miscarriage. NIPT tests work by analysing cell-free maternal and fetal DNA (cffDNA) from the mother’s blood. This is a non-invasive test as all it requires is for mum-to-be to have a blood test.

NIPT involves a quick draw of blood from mum-to-be, so all you’ll need to do is offer up your arm at the doctor’s which is a safe procedure for you and your baby. Having given blood, your sample will be sent off by the surgery or hospital to review your blood and baby’s DNA for any chromosomal differences. 

You can get the test from 10 weeks pregnant, before this it is difficult to identify the cell-free fetal DNA (cffDNA) from the blood. Even after this time it can be that there isn’t enough cffDNA to come to a conclusive test, and in most cases you’ll then have to go for a second test. This happens to about 3% of women.

Results can take from 10 days to 2 weeks to come through. It’s important to remember that your results won’t show you a definite yes/no for Down syndrome or other conditions, the results instead will show you the chance of your baby being affected. If the result is ‘low chance’ it is unlikely that they will be affected, if the result is ‘high chance’ it is likely you will be offered a offered chorionic villus sampling (CVS) or amniocentesis to determine a more definite diagnosis.

People usually have 23 pairs of chromosomes in each cell, which is made of DNA that contains your genes. These cells give instructions to our body to tell it how to work. Down syndrome occurs when a person has an extra copy of chromosome 21 and this is what causes the characteristics of a person with Down syndrome. Identifying the extra copy of chromosome 21 is possible with NIPT. 

The test analyses the DNA in the maternal plasma during pregnancy, also known as cell-free DNA. Most of this DNA comes from the mother, but 10% - 20% of it comes from the unborn baby and this is known as cell-free fetal DNA (cffDNA). The NIPT test analyses and counts the DNA sequences in the mother’s blood, if there are more sequences that map to chromosome 21 than expected it can be an indication that the baby has Down syndrome. 

This cell-free fetal DNA comes from the placenta and is detectable from around 4-5 weeks, and has the required levels needed to identify the syndrome in NIPT at 10 weeks. The cffDNA is cleared from the mother within the first hour after birth, which means the results of the test are specific to a woman’s current pregnancy.

The combined test is available between 10 and 14 weeks of pregnancy.  It’s called a combined test because you’re offered an ultrasound scan combined with a blood test. If you choose to have the combined test, a blood sample is taken from your arm. At your ultrasound scan the fluid at the back of your baby’s neck is measured (known as the nuchal translucency). The information from these two tests is combined to work out the chances of baby having Down’s, Edwards’ or Patau’s syndromes. Although, if you are too far on in your pregnancy to have the combined test, you could be offered a blood test to screen for Down syndrome and spina bifida. This is available between 14 and 20 weeks of pregnancy. This test measures the amount of four hormones in the blood - AFP, beta HCG, inhibin-A and oestriol. The levels of these are combined with details of your age, weight and how far into the pregnancy you are to analyse the chance of your baby having Down syndrome.

Although both these tests involve a blood test, NIPT analyses the cell-free DNA rather than the above hormones. NIPT has more than 98% accuracy, and so more accurate than the combined and quadruple tests for determining the chance of your baby having Down syndrome.

False positives: False positives may occur if the test is done too early in pregnancy, as the cell-free DNA from fetal DNA can be shed after embryonic demise, also known as a ‘vanishing twin’. If this happens a scan is needed to look for multiple pregnancies or an empty sac before the test happens. 

Another reason for a false positive may occur if the tested cell-free DNA in the mother’s blood shows an anomaly and it’s not from the baby’s blood. 

Finally, the cffDNA may identify cell lines that are grown in the placenta but are not present in the baby. This is called confined placental mosaicism and can cause a false positive result as the cell is present in the placenta but not in the baby. 

False negatives: This could occur if the proportion of fetal DNA in the blood is too low or technical issues. It can also happen as there are ‘cell lines’ that grow in the placenta but not the baby which can cause a false negative result if an abnormal cell line is only present in the baby but not in the placenta.

You can have private tests with prices between £400 - £900. There are several different providers of the NIPT with different costs, procedures and turnaround times for results. NIPT is not currently routinely offered on the NHS, yet some units are offering it to women deemed at very high risk or women with a high chance result on combined screen result.

If a chromosome problem is identified these charities offer advice and support:
Antenatal Results and Choices Web: arc-uk.org Helpline: 0845 077 2290
Down’s Syndrome Association: Web: downs-syndrome. org.uk Helpline: 0333 1212 300 Monday to Friday 10am – 4pm