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Does this new evidence for noninvasive prenatal testing to detect fetal aneuploidy move NIPT closer to universal use in pregnancy?

The introduction of cell-free fetal DNA (cfDNA) testing has had a tremendous impact on prenatal care. Numerous series reporting near-diagnostic accuracy for trisomy 21 detection have been reported,1 and several commercial laboratories offer clinical testing. Many patients now take advantage of these tests, and the very low false-positive rates have resulted in a marked decrease in the rate of invasive diagnostic testing.2 At present, most professional societies suggest that these tests be reserved for women at high risk for fetal aneuploidy.3

Details of the study
In this recent article by Porreco and colleagues, the researchers reported on a large cohort study of patients who had made the decision to undergo invasive diagnostic testing with chorionic villus sampling or amniocentesis prior to undergoing noninvasive testing, in order to validate the clinical performance of massively parallel genomic sequencing of cfDNA. As in several prior reports, the study authors found that the detection rate of cfDNA for trisomy 21 was 100%, and somewhat less for trisomy 18 (92%) and trisomy 13 (87%). The false-positive rate was very low, with only three false-positive results (all for trisomy 21) in 3,430 patients. Testing for fetal sex chromosomes reported 7 out of 3,322 errors in fetal sex and 100% detection of sex chromosomal aneuploidies, with 16 out of 3,200 false-­positive results.

Study limitations
As in prior reports, limitations to the test were not clearly presented. Patients with “complex chromosomal abnormalities” not detectable by cfDNA were excluded from the reported cohort. Considering these cases, fewer of the total chromosomal abnormalities in the cohort were detected.

Also, adequate fetal DNA is necessary for accurate results, and patients with less than 4% fetal DNA were excluded. Low fetal DNA is associated with an increased risk of trisomy.4,5 Therefore, excluding such cases will bias results toward a higher detection rate.

The outcomes for cases of low fetal DNA were not included in this study, but in another recent paper 22% of cases of low fetal DNA had aneuploidy, and 16% of common aneuploidies were not detected because of failed testing.4

What this evidence means for practice
Cell-free fetal DNA is an exciting technology, and this study adds to the existing literature in the field. However, use of the test requires careful patient counseling regarding the limitations in detecting abnormalities other than trisomy 21, which comprises just 50% of all aneuploidies. Women who desire a comprehensive prenatal genetic assessment may prefer invasive diagnostic testing and should be counseled appropriately. Patients in whom the test fails should be informed that they are at high risk for a chromosomal abnormality.

Considering these outcomes, the benefits of prenatal screening with cfDNA over current testing alternatives, with serum analytes and/or invasive diagnostic testing, become less clear and the options more complex. Of primary importance is that patients understand the risks and benefits of alternative tests.
                                                                                                                                                         —Mary E. Norton, MD 



Share your thoughts on this article!
Send your Letter to the Editor to [email protected]. Please include your name and the city and state in which you practice.

References

1. Gil MM, Akolekar R, Quezada MS, Bregant B, Nicolaides KH. Analysis of cell-free DNA in maternal blood in screening for aneuploidies: meta-analysis. Fetal Diagn Ther. 2014;35(3):156−173.

2. Wax JR, Cartin A, Chard R, Lucas FL, Pinette MG. Noninvasive prenatal testing: Impact on genetic counseling, invasive prenatal diagnosis, and trisomy 21 detection [published online ahead of print October 9, 2014]. J Clin Ultrasound. doi:`10.1002/jcu.22243. [Epub ahead of print]

3. American College of Obstetricians and Gynecologists Committee on Genetics. Committee Opinion No. 545: Noninvasive prenatal testing for fetal aneuploidy. Obstet Gynecol. 2012;120(6):1532−1534.

4. Pergament E, Cuckle H, Zimmermann B, et al. Single-nucleotide polymorphism-based noninvasive prenatal screening in a high-risk and low-risk cohort. Obstet Gynecol. 2014;124(2 pt 1):210−218.

5. Rava RP, Srinivasan A, Sehnert AJ, Bianchi DW. Circulating fetal cell-free DNA fractions differ in autosomal aneuploidies and monosomy X. Clin Chem. 2014;60(1):243−250.

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Mary E. Norton, MD, Professor and Vice Chair, Department of Clinical and Translational Genetics, and David E. Thorburn, MD and Kate McKee Thorburn Endowed Chair, Department of Perinatal Medicine and Genetics, University of California San Francisco Medical Center.

The author reports no financial relationships relevant to this article.

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Mary E. Norton MD, noninvasive prenatal testing, fetal aneuploidy, NIPT, patient counseling, trisomy 18, trisomy 13, trisomy 21, undetected chromosomal disorders, cell-free fetal DNA, cfDNA, invasive diagnostic testing, chorionic villus sampling, amniocentesis, genomic sequencing, fetal sex chromosomes
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Mary E. Norton, MD, Professor and Vice Chair, Department of Clinical and Translational Genetics, and David E. Thorburn, MD and Kate McKee Thorburn Endowed Chair, Department of Perinatal Medicine and Genetics, University of California San Francisco Medical Center.

The author reports no financial relationships relevant to this article.

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expert commentary

Mary E. Norton, MD, Professor and Vice Chair, Department of Clinical and Translational Genetics, and David E. Thorburn, MD and Kate McKee Thorburn Endowed Chair, Department of Perinatal Medicine and Genetics, University of California San Francisco Medical Center.

The author reports no financial relationships relevant to this article.

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The introduction of cell-free fetal DNA (cfDNA) testing has had a tremendous impact on prenatal care. Numerous series reporting near-diagnostic accuracy for trisomy 21 detection have been reported,1 and several commercial laboratories offer clinical testing. Many patients now take advantage of these tests, and the very low false-positive rates have resulted in a marked decrease in the rate of invasive diagnostic testing.2 At present, most professional societies suggest that these tests be reserved for women at high risk for fetal aneuploidy.3

Details of the study
In this recent article by Porreco and colleagues, the researchers reported on a large cohort study of patients who had made the decision to undergo invasive diagnostic testing with chorionic villus sampling or amniocentesis prior to undergoing noninvasive testing, in order to validate the clinical performance of massively parallel genomic sequencing of cfDNA. As in several prior reports, the study authors found that the detection rate of cfDNA for trisomy 21 was 100%, and somewhat less for trisomy 18 (92%) and trisomy 13 (87%). The false-positive rate was very low, with only three false-positive results (all for trisomy 21) in 3,430 patients. Testing for fetal sex chromosomes reported 7 out of 3,322 errors in fetal sex and 100% detection of sex chromosomal aneuploidies, with 16 out of 3,200 false-­positive results.

Study limitations
As in prior reports, limitations to the test were not clearly presented. Patients with “complex chromosomal abnormalities” not detectable by cfDNA were excluded from the reported cohort. Considering these cases, fewer of the total chromosomal abnormalities in the cohort were detected.

Also, adequate fetal DNA is necessary for accurate results, and patients with less than 4% fetal DNA were excluded. Low fetal DNA is associated with an increased risk of trisomy.4,5 Therefore, excluding such cases will bias results toward a higher detection rate.

The outcomes for cases of low fetal DNA were not included in this study, but in another recent paper 22% of cases of low fetal DNA had aneuploidy, and 16% of common aneuploidies were not detected because of failed testing.4

What this evidence means for practice
Cell-free fetal DNA is an exciting technology, and this study adds to the existing literature in the field. However, use of the test requires careful patient counseling regarding the limitations in detecting abnormalities other than trisomy 21, which comprises just 50% of all aneuploidies. Women who desire a comprehensive prenatal genetic assessment may prefer invasive diagnostic testing and should be counseled appropriately. Patients in whom the test fails should be informed that they are at high risk for a chromosomal abnormality.

Considering these outcomes, the benefits of prenatal screening with cfDNA over current testing alternatives, with serum analytes and/or invasive diagnostic testing, become less clear and the options more complex. Of primary importance is that patients understand the risks and benefits of alternative tests.
                                                                                                                                                         —Mary E. Norton, MD 



Share your thoughts on this article!
Send your Letter to the Editor to [email protected]. Please include your name and the city and state in which you practice.

The introduction of cell-free fetal DNA (cfDNA) testing has had a tremendous impact on prenatal care. Numerous series reporting near-diagnostic accuracy for trisomy 21 detection have been reported,1 and several commercial laboratories offer clinical testing. Many patients now take advantage of these tests, and the very low false-positive rates have resulted in a marked decrease in the rate of invasive diagnostic testing.2 At present, most professional societies suggest that these tests be reserved for women at high risk for fetal aneuploidy.3

Details of the study
In this recent article by Porreco and colleagues, the researchers reported on a large cohort study of patients who had made the decision to undergo invasive diagnostic testing with chorionic villus sampling or amniocentesis prior to undergoing noninvasive testing, in order to validate the clinical performance of massively parallel genomic sequencing of cfDNA. As in several prior reports, the study authors found that the detection rate of cfDNA for trisomy 21 was 100%, and somewhat less for trisomy 18 (92%) and trisomy 13 (87%). The false-positive rate was very low, with only three false-positive results (all for trisomy 21) in 3,430 patients. Testing for fetal sex chromosomes reported 7 out of 3,322 errors in fetal sex and 100% detection of sex chromosomal aneuploidies, with 16 out of 3,200 false-­positive results.

Study limitations
As in prior reports, limitations to the test were not clearly presented. Patients with “complex chromosomal abnormalities” not detectable by cfDNA were excluded from the reported cohort. Considering these cases, fewer of the total chromosomal abnormalities in the cohort were detected.

Also, adequate fetal DNA is necessary for accurate results, and patients with less than 4% fetal DNA were excluded. Low fetal DNA is associated with an increased risk of trisomy.4,5 Therefore, excluding such cases will bias results toward a higher detection rate.

The outcomes for cases of low fetal DNA were not included in this study, but in another recent paper 22% of cases of low fetal DNA had aneuploidy, and 16% of common aneuploidies were not detected because of failed testing.4

What this evidence means for practice
Cell-free fetal DNA is an exciting technology, and this study adds to the existing literature in the field. However, use of the test requires careful patient counseling regarding the limitations in detecting abnormalities other than trisomy 21, which comprises just 50% of all aneuploidies. Women who desire a comprehensive prenatal genetic assessment may prefer invasive diagnostic testing and should be counseled appropriately. Patients in whom the test fails should be informed that they are at high risk for a chromosomal abnormality.

Considering these outcomes, the benefits of prenatal screening with cfDNA over current testing alternatives, with serum analytes and/or invasive diagnostic testing, become less clear and the options more complex. Of primary importance is that patients understand the risks and benefits of alternative tests.
                                                                                                                                                         —Mary E. Norton, MD 



Share your thoughts on this article!
Send your Letter to the Editor to [email protected]. Please include your name and the city and state in which you practice.

References

1. Gil MM, Akolekar R, Quezada MS, Bregant B, Nicolaides KH. Analysis of cell-free DNA in maternal blood in screening for aneuploidies: meta-analysis. Fetal Diagn Ther. 2014;35(3):156−173.

2. Wax JR, Cartin A, Chard R, Lucas FL, Pinette MG. Noninvasive prenatal testing: Impact on genetic counseling, invasive prenatal diagnosis, and trisomy 21 detection [published online ahead of print October 9, 2014]. J Clin Ultrasound. doi:`10.1002/jcu.22243. [Epub ahead of print]

3. American College of Obstetricians and Gynecologists Committee on Genetics. Committee Opinion No. 545: Noninvasive prenatal testing for fetal aneuploidy. Obstet Gynecol. 2012;120(6):1532−1534.

4. Pergament E, Cuckle H, Zimmermann B, et al. Single-nucleotide polymorphism-based noninvasive prenatal screening in a high-risk and low-risk cohort. Obstet Gynecol. 2014;124(2 pt 1):210−218.

5. Rava RP, Srinivasan A, Sehnert AJ, Bianchi DW. Circulating fetal cell-free DNA fractions differ in autosomal aneuploidies and monosomy X. Clin Chem. 2014;60(1):243−250.

References

1. Gil MM, Akolekar R, Quezada MS, Bregant B, Nicolaides KH. Analysis of cell-free DNA in maternal blood in screening for aneuploidies: meta-analysis. Fetal Diagn Ther. 2014;35(3):156−173.

2. Wax JR, Cartin A, Chard R, Lucas FL, Pinette MG. Noninvasive prenatal testing: Impact on genetic counseling, invasive prenatal diagnosis, and trisomy 21 detection [published online ahead of print October 9, 2014]. J Clin Ultrasound. doi:`10.1002/jcu.22243. [Epub ahead of print]

3. American College of Obstetricians and Gynecologists Committee on Genetics. Committee Opinion No. 545: Noninvasive prenatal testing for fetal aneuploidy. Obstet Gynecol. 2012;120(6):1532−1534.

4. Pergament E, Cuckle H, Zimmermann B, et al. Single-nucleotide polymorphism-based noninvasive prenatal screening in a high-risk and low-risk cohort. Obstet Gynecol. 2014;124(2 pt 1):210−218.

5. Rava RP, Srinivasan A, Sehnert AJ, Bianchi DW. Circulating fetal cell-free DNA fractions differ in autosomal aneuploidies and monosomy X. Clin Chem. 2014;60(1):243−250.

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Does this new evidence for noninvasive prenatal testing to detect fetal aneuploidy move NIPT closer to universal use in pregnancy?
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Does this new evidence for noninvasive prenatal testing to detect fetal aneuploidy move NIPT closer to universal use in pregnancy?
Legacy Keywords
Mary E. Norton MD, noninvasive prenatal testing, fetal aneuploidy, NIPT, patient counseling, trisomy 18, trisomy 13, trisomy 21, undetected chromosomal disorders, cell-free fetal DNA, cfDNA, invasive diagnostic testing, chorionic villus sampling, amniocentesis, genomic sequencing, fetal sex chromosomes
Legacy Keywords
Mary E. Norton MD, noninvasive prenatal testing, fetal aneuploidy, NIPT, patient counseling, trisomy 18, trisomy 13, trisomy 21, undetected chromosomal disorders, cell-free fetal DNA, cfDNA, invasive diagnostic testing, chorionic villus sampling, amniocentesis, genomic sequencing, fetal sex chromosomes
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