Non-invasive prenatal testing can detect silent cancers in expecting mothers

Pregnancy is a unique physiological state in which several changes occur. One of the most important aspects is the maternal immune system, which sets to tolerate the presence of the developing fetus (a semi-allogeneic organism), while at the same time providing protection against pathogens. Pregnancy has long been known to affect the risk of certain cancers including breast cancer in the short term, gestational trophoblastic disease (GTD), cervical cancer, and melanoma. The reasons for the increased risk of these cancers during pregnancy are not fully understood, but several hypotheses have been proposed as the hormonal and immune system changes. Non-invasive prenatal testing (NIPT) offers a safer and more accurate alternative to amniocentesis and chorionic villus sampling (CVS) for screening against chromosomal abnormality associated with severe malformations and neurological alterations [American College of Obstetricians and Gynecologists, and the International Society for Prenatal Diagnosis]. However, this is a complex and delicate issue, and structured recommendations, in this context, have proven to be inefficient since the decision to undergo prenatal testing is frequently a personal one. NIPT is highly accurate and has a low false-positive rate. Invasive diagnostic testing (amniocentesis or CVS) is typically recommended to confirm the diagnosis after positivity to NIPT. The methodology of NIPT testing involves isolating and analyzing cell-free fetal DNA (cffDNA) from the maternal blood sample. Fetal DNA is detectable in maternal circulation as early as the fifth week of pregnancy and its concentration varies throughout gestation. At NIPT testing, in general, the percentage of fetal DNA in the maternal blood sample ranges from 3% to 13%. Despite implementing measures to minimize the risk of maternal contamination, it may still occur, which can affect the accuracy of the test. Can a potential source of error be reframed as a resource? Specifically, in cases where a positive NIPT result is accompanied by a negative

Pregnancy is a unique physiological state in which several changes occur.One of the most important aspects is the maternal immune system, which sets to tolerate the presence of the developing fetus (a semi-allogeneic organism), while at the same time providing protection against pathogens. 1Pregnancy has long been known to affect the risk of certain cancers including breast cancer in the short term, gestational trophoblastic disease (GTD), cervical cancer, and melanoma. 2,3The reasons for the increased risk of these cancers during pregnancy are not fully understood, but several hypotheses have been proposed as the hormonal and immune system changes.Non-invasive prenatal testing (NIPT) offers a safer and more accurate alternative to amniocentesis and chorionic villus sampling (CVS) for screening against chromosomal abnormality associated with severe malformations and neurological alterations [American College of Obstetricians and Gynecologists, and the International Society for Prenatal Diagnosis]. 4 However, this is a complex and delicate issue, and structured recommendations, in this context, have proven to be inefficient since the decision to undergo prenatal testing is frequently a personal one.
NIPT is highly accurate and has a low false-positive rate.Invasive diagnostic testing (amniocentesis or CVS) is typically recommended to confirm the diagnosis after positivity to NIPT.The methodology of NIPT testing involves isolating and analyzing cell-free fetal DNA (cffDNA) from the maternal blood sample.Fetal DNA is detectable in maternal circulation as early as the fifth week of pregnancy and its concentration varies throughout gestation.At NIPT testing, in general, the percentage of fetal DNA in the maternal blood sample ranges from 3% to 13%.Despite implementing measures to minimize the risk of maternal contamination, 5 it may still occur, which can affect the accuracy of the test.Can a potential source of error be reframed as a resource?Specifically, in cases where a positive NIPT result is accompanied by a negative amniocentesis or CVS, could this indicate the early onset of cancer in the mother?
When the aforementioned scenario arose, we recommended immediate postpartum follow-up.This approach was based on the hypothesis that the positive NIPT result could be indicative of an unknown primary cancer that was silently developing during the pregnancy.Methods for performing NIPT and follow-up are reported in File S1.
Between 2018 and 2022, a total of 100,685 pregnant women aged 18 years or older were analyzed, with a median age of 34.6 years (range: 18e50 years).Of these, 1502 tested positive for NIPT.Among these women, 27 presented with single or multiple aneuploidies.A descriptive flowchart of test results is reported in Figure S1.However, subsequent direct tests on amniotic fluid or placenta did not confirm the presence of genetic alterations.The reasons for genetic testing and the development of tumors are described in Table 1.Examples of NIPT results are shown in Figure S2.Of the women analyzed, 16 developed benign or malignant tumors.Four women did not develop cancer until the writing of this report, and 7 were lost to follow-up.Finally, 23 of the pregnant women successfully carried their pregnancies to term.Ten women refused to undergo the proposed post-partum monitoring.Thus, in 11 cases out of 100,685 women, the positivity of the NIPT test in the absence of other diagnostic indications and the application of clinical-radiological monitoring allowed for early identification and treatment of cancer with only surgery or radiotherapy (plus rituximab in some NHL cases) (Table 1).Treating cancer during pregnancy presents a challenge, as the oncologist must strive to optimize and personalize therapeutic options to ensure the well-being of both the mother and the unborn child to the fullest extent possible.However, it is important to emphasize that in our case series, except for one case, the mothers showed no clinical evidence of cancer during pregnancy.Unfortunately, in this single case, a neoplasm (a soft tissue sarcoma) was clinically detected during the fourth month of pregnancy and was found to be highly aggressive.The mother declined the termination of pregnancy to undergo therapy.Following the birth of a perfectly healthy child, the cancer had metastasized to Peer review under responsibility of Chongqing Medical University.
Available online at www.sciencedirect.comScienceDirect journal homepage: www.kea ipublishing.com/en/journals/gene s-disea se s a These patients did not want to undergo any further diagnostic investigations or release any additional information.Indirect information obtained through the treating physician suggests a high probability that they may have developed cancer.multiple distant sites.In another case, the patient died from oncological problems, having refused to undergo regular check-ups, and the neoplasm was discovered only when clinically symptomatic.In four women, benign lesions such as uterine myomas or breast fibroadenomas were discovered.In these cases, it is possible that these lesions, due to their altered genetics, may have represented pre-cancerous events that were promptly removed.
The first direct and intuitive consideration is that 11 cases out of 100,685 are an extremely small fraction to attribute relevance to NIPT.However, in Italy and most European countries, millions of pregnant women undergo this procedure each year, either by personal choice or because they belong to one of the high-risk categories.This means that hundreds of similar situations could be identified each year.
Four women presented with a positive NIPT test result, without any other diagnostic evidence (amniocentesis and CVS) of chromosomal aberrations, and gave birth to a completely normal newborn and did not develop cancer.However, the immediate repetition of these tests has resulted in positive NIPT once again.In these cases, anxiety and a significant cost to the healthcare system can be triggered, as these patients have undergone unnecessary checks.Genetic mosaicism cannot be ruled out; however, these positive tests could be related to a dynamic and transitory phenomenon.It could be the result of contamination by tumor DNA during a phase of elimination of tumor cells by the immune system ("immunological surveillance").This report does not provide specific experimental data on this issue.However, we can leverage the advantage of having a biobank that preserves plasma samples from the women included in this study.We are using this resource to explore these cases in detail aiming to distinguish fetal DNA from circulating tumor DNA with greater precision (a patent currently under development cannot be disclosed) and to assess the presence of an anti-tumor immune response.The study is ongoing.
There are many ethical questions, and the subject matter is delicate and rich in opportunities for reflection and repercussions in terms of psychology and privacy issues.In fact, from a psychological point of view, in our experience, in some cases, communicating a positive NIPT result alongside the negativity of other diagnostic tests has generated a strong reaction of flight and anger, especially in women in a lower socioeconomic and cultural context.Unfortunately, we do not have the authorization to provide information on clinical events following delivery for these patients.Genetic counseling in this scenario should be integrated with psychological counseling to manage patients' reactions.
We recommend that all women with a positive NIPT test, in the absence of other relevant diagnostic indications from amniocentesis or CVS, undergo strict clinical-radiological monitoring after delivery to exclude the possibility of developing cancer.A methodologic limitation of our study is the absence of a follow-up of at least 5 years for all women diagnosed with cancer, which would allow us to declare them cured with greater certainty.However, we believe that further studies are urgently warranted to shed light on the role of NIPT in the detection of silent cancers in expecting mothers since, at this stage, the likelihood of successful treatment is considerably high.

Table 1
Follow-up information for women who tested positive on NIPT but negative on direct diagnostic tests.