Multiplexed serum biomarkers may help discriminate nonviable and ectopic pregnancy: Study
For decades, the standard of care for early pregnancy assessment has been transvaginal ultrasound (TVUS) and serum human chorionic gonadotropin (hCG) levels. An accurate diagnosis of live intrauterine pregnancy (IUP), early pregnancy loss (EPL), or ectopic pregnancy (EP) can be made in most individuals at initial presentation. However, a definitive diagnosis often cannot be made early in gestation when a normal IUP is not expected to be visualized using ultrasound or when normal ultrasound milestones are not present. Even when gestational age is advanced enough to use ultrasound as a diagnostic test, approximately 20%–40% of individuals will not have a definitive diagnosis and are at risk of having a nonviable pregnancy (EP or EPL). The standard of care for follow-up is serial hCG levels, but this approach also has limitations and can misclassify.
The successful identification and application of biomarkers produced during early pregnancy could change the diagnostic standard, providing an earlier diagnosis or useful information when ultrasound is not diagnostic. Biomarkers could be useful before TVUS visualization of a pregnancy or when TVUS is not definitive.
The development of a companion diagnostic on the basis of biomarkers is an iterative process. Authors first evaluated biomarkers suggested in the literature to have biological plausibility to predict early pregnancy outcomes in a series of case-control experiments. After establishing and validating candidates with acceptable assay performance and discriminatory capacity individually, they sought to further improve predictive capacity by assessing them in combination. In this study, they assessed the most promising 24 markers and used multiple machine learning (ML)-based methodologies to evaluate combinations of these top candidates to develop a multiplexed prediction model for the identification of a nonviable pregnancy and an EP.
A nested case-control design evaluated the predictive ability and discrimination of biomarkers in patients at risk of early pregnancy failure in the first trimester to classify viability and location. A total of 218 individuals with pain and/or bleeding in early pregnancy: 75 had an ongoing intrauterine gestation; 68 had ectopic pregnancies (EPs); and 75 had miscarriages. Serum levels of 24 biomarkers were assessed in the same patients. Multiple machine learning-based methodologies to evaluate combinations of these top candidates to develop a multiplexed prediction model for the identification of a nonviable pregnancy (ongoing intrauterine pregnancy vs. miscarriage or EP) and an EP (EP vs. ongoing intrauterine pregnancy or miscarriage). The predicted classification using each model was compared with the actual diagnosis, and sensitivity, specificity, positive predictive value, negative predictive value, conclusive classification, and accuracy were calculated.
Models using classification regression tree analysis using 3 (pregnancy-specific beta-1-glycoprotein 3 [PSG3], chorionic gonadotropin-alpha subunit, and pregnancy-associated plasma protein-A) biomarkers were able to predict a maximum sensitivity of 93.3% and a maximum specificity of 98.6%. The model with the highest accuracy was 97.4% (with 70.2% receiving classification). Models using an overlapping group of 3 (soluble fms-like tyrosine kinase-1, PSG3, and tissue factor pathway inhibitor 2) biomarkers achieved a maximum sensitivity of 98.5% and a maximum specificity of 95.3%. The model with the highest accuracy was 94.4% (with 65.6% receiving classification). When the models were used simultaneously, the conclusive classification increased to 72.7% with an accuracy of 95.9%. The predictive ability of the biomarkers in the random forest produced similar test characteristics when using 11 predictive biomarkers.
Authors demonstrated that a small pool of biomarkers, used in combination, can be used to classify individuals with potential EPL as not viable and extra uterine. The overall test characteristics are modestly dependent on the number of biomarkers used. The biomarkers CG-alpha, PAPPA, and PSG3 can be used to predict viability and sFlT, TPFI2, and PSG3 can be used to predict pregnancy location.
Source: Fertil Steril® Vol. 122, No. 3, September 2024
https://doi.org/10.1016/j.fertnstert.2024.04.028
Disclaimer: This website is primarily for healthcare professionals. The content here does not replace medical advice and should not be used as medical, diagnostic, endorsement, treatment, or prescription advice. Medical science evolves rapidly, and we strive to keep our information current. If you find any discrepancies, please contact us at corrections@medicaldialogues.in. Read our Correction Policy here. Nothing here should be used as a substitute for medical advice, diagnosis, or treatment. We do not endorse any healthcare advice that contradicts a physician's guidance. Use of this site is subject to our Terms of Use, Privacy Policy, and Advertisement Policy. For more details, read our Full Disclaimer here.
NOTE: Join us in combating medical misinformation. If you encounter a questionable health, medical, or medical education claim, email us at factcheck@medicaldialogues.in for evaluation.