Your search keyword '"Autosomal aneuploidies"' showing total 5 results

1. A dPCR-NIPT assay for detections of trisomies 21, 18 and 13 in a single-tube reaction-could it replace serum biochemical tests as a primary maternal plasma screening tool?

Author

Peng Dai, Yanfeng Yang, Ganye Zhao, Zhiqiang Gu, Huanan Ren, Shuang Hu, Ning Liu, Weimeng Jiao, Jinfang Li, and Xiangdong Kong

Subjects

Autosomal aneuploidies, Digital PCR, Non-invasive prenatal test, Serum biochemical tests, Medicine

Abstract

Abstract Background The next generation sequencing (NGS) based non-invasive prenatal test (NIPT) has outplayed the traditional serum biochemical tests (SBT) in screen of fetal aneuploidies with a high sensitivity and specificity. However, it has not been widely used as a primary screen tool due to its high cost and the cheaper SBT is still the choice for primary screen even with well-known shortages in sensitivity and specificity. Here, we report a multiplex droplet digital PCR NIPT (dPCR-NIPT) assay that can detect trisomies 21, 18 and 13 (T21, T18 and T13) in a single tube reaction with a better sensitivity and specificity than the SBT and a much cheaper price than the NGS-NIPT. Methods In this study, the dPCR-NIPT assay’s non-clinical characteristics were evaluated to verify the cell free fetal DNA (cffDNA) fraction enrichment efficiencies, the target cell free DNA (cfDNA) concentration enrichment, the analytical sensitivity, and the sample quality control on the minimum concentration of cfDNA required for the assay. We validated the clinical performance for this assay by blindly testing 283 clinical maternal plasma samples, including 36 trisomic positive samples, from high risk pregnancies to access its sensitivity and specificity. The cost effectiveness of using the dPCR-NIPT assay as the primary screen tool was also analyzed and compared to that of the existing contingent strategy (CS) using the SBT as the primary screen tool and the strategy of NGS-NIPT as the first-tier screen tool in a simulating situation. Results For the non-clinical characteristics, the sample processing reagents could enrich the cffDNA fraction by around 2 folds, and the analytical sensitivity showed that the assay was able to detect trisomies at a cffDNA fraction as low as 5% and the extracted cfDNA concentration as low as 0.2 ng/μL. By testing the 283 clinical samples, the dPCR-NIPT assay demonstrated a detection sensitivity of 100% and a specificity of 95.12%. Compared to the existing CS and the NGS-NIPT as the first-tier screen strategy, dPCR-NIPT assay used as a primary screen tool followed by the NGS-NIPT rescreen is the most economical approach to screen pregnant women for fetal aneuploidies without sacrificing the positive detection rate. Conclusion This is the first report on a dPCR-NIPT assay, consisting of all the necessary reagents from sample processing to multiplex dPCR amplification, can detect T21, T18 and T13 in a single tube reaction. The study results reveal that this assay has a sensitivity and specificity superior to the SBT and a cost much lower than the NGS-NIPT. Thus, from both the test performance and the economic benefit points of views, using the dPCR-NIPT assay to replace the SBT as a primary screen tool followed by the NGS-NIPT rescreen would be a better approach than the existing CS for detection of fetal aneuploidies in maternal plasma.

Published

2022

2. A dPCR-NIPT assay for detections of trisomies 21, 18 and 13 in a single-tube reaction-could it replace serum biochemical tests as a primary maternal plasma screening tool?

Author

Dai, Peng, Yang, Yanfeng, Zhao, Ganye, Gu, Zhiqiang, Ren, Huanan, Hu, Shuang, Liu, Ning, Jiao, Weimeng, Li, Jinfang, and Kong, Xiangdong

Abstract

Background: The next generation sequencing (NGS) based non-invasive prenatal test (NIPT) has outplayed the traditional serum biochemical tests (SBT) in screen of fetal aneuploidies with a high sensitivity and specificity. However, it has not been widely used as a primary screen tool due to its high cost and the cheaper SBT is still the choice for primary screen even with well-known shortages in sensitivity and specificity. Here, we report a multiplex droplet digital PCR NIPT (dPCR-NIPT) assay that can detect trisomies 21, 18 and 13 (T21, T18 and T13) in a single tube reaction with a better sensitivity and specificity than the SBT and a much cheaper price than the NGS-NIPT. Methods: In this study, the dPCR-NIPT assay's non-clinical characteristics were evaluated to verify the cell free fetal DNA (cffDNA) fraction enrichment efficiencies, the target cell free DNA (cfDNA) concentration enrichment, the analytical sensitivity, and the sample quality control on the minimum concentration of cfDNA required for the assay. We validated the clinical performance for this assay by blindly testing 283 clinical maternal plasma samples, including 36 trisomic positive samples, from high risk pregnancies to access its sensitivity and specificity. The cost effectiveness of using the dPCR-NIPT assay as the primary screen tool was also analyzed and compared to that of the existing contingent strategy (CS) using the SBT as the primary screen tool and the strategy of NGS-NIPT as the first-tier screen tool in a simulating situation. Results: For the non-clinical characteristics, the sample processing reagents could enrich the cffDNA fraction by around 2 folds, and the analytical sensitivity showed that the assay was able to detect trisomies at a cffDNA fraction as low as 5% and the extracted cfDNA concentration as low as 0.2 ng/μL. By testing the 283 clinical samples, the dPCR-NIPT assay demonstrated a detection sensitivity of 100% and a specificity of 95.12%. Compared to the existing CS and the NGS-NIPT as the first-tier screen strategy, dPCR-NIPT assay used as a primary screen tool followed by the NGS-NIPT rescreen is the most economical approach to screen pregnant women for fetal aneuploidies without sacrificing the positive detection rate. Conclusion: This is the first report on a dPCR-NIPT assay, consisting of all the necessary reagents from sample processing to multiplex dPCR amplification, can detect T21, T18 and T13 in a single tube reaction. The study results reveal that this assay has a sensitivity and specificity superior to the SBT and a cost much lower than the NGS-NIPT. Thus, from both the test performance and the economic benefit points of views, using the dPCR-NIPT assay to replace the SBT as a primary screen tool followed by the NGS-NIPT rescreen would be a better approach than the existing CS for detection of fetal aneuploidies in maternal plasma. [ABSTRACT FROM AUTHOR]

Published

2022

3. Noninvasive Fetal Trisomy (NIFTY) test: an advanced noninvasive prenatal diagnosis methodology for fetal autosomal and sex chromosomal aneuploidies.

Author

Fuman Jiang, Jinghui Ren, Fang Chen, Yuqiu Zhou, Jiansheng Xie, Shan Dan, Yue Su, Jianhong Xie, Baomin Yin, Wen Su, Huakun Zhang, Wei Wang, Xianghua Chai, Linhua Lin, Hui Guo, Qiyun Li, Peipei Li, Yuying Yuan, Xiaoyu Pan, and Yihan Li

Subjects

*HYPOTHESIS, *DIAGNOSIS, *TRISOMY, *CHROMOSOMES, *PRENATAL diagnosis

Abstract

Background: Conventional prenatal screening tests, such as maternal serum tests and ultrasound scan, have limited resolution and accuracy. Methods: We developed an advanced noninvasive prenatal diagnosis method based on massively parallel sequencing. The Noninvasive Fetal Trisomy (NIFTY) test, combines an optimized Student's t-test with a locally weighted polynomial regression and binary hypotheses. We applied the NIFTY test to 903 pregnancies and compared the diagnostic results with those of full karyotyping. Results: 16 of 16 trisomy 21, 12 of 12 trisomy 18, two of two trisomy 13, three of four 45, X, one of one XYY and two of two XXY abnormalities were correctly identified. But one false positive case of trisomy 18 and one false negative case of 45, X were observed. The test performed with 100% sensitivity and 99.9% specificity for autosomal aneuploidies and 85.7% sensitivity and 99.9% specificity for sex chromosomal aneuploidies. Compared with three previously reported z-score approaches with/without GC-bias removal and with internal control, the NIFTY test was more accurate and robust for the detection of both autosomal and sex chromosomal aneuploidies in fetuses. Conclusion: Our study demonstrates a powerful and reliable methodology for noninvasive prenatal diagnosis. [ABSTRACT FROM AUTHOR]

Published

2012

4. Noninvasive Fetal Trisomy (NIFTY) test: an advanced noninvasive prenatal diagnosis methodology for fetal autosomal and sex chromosomal aneuploidies

Author

Jiang Fuman, Ren Jinghui, Chen Fang, Zhou Yuqiu, Xie Jiansheng, Dan Shan, Su Yue, Xie Jianhong, Yin Baomin, Su Wen, Zhang Huakun, Wang Wei, Chai Xianghua, Lin Linhua, Guo Hui, Li Qiyun, Li Peipei, Yuan Yuying, Pan Xiaoyu, Li Yihan, Liu Lifu, Chen Huifei, Xuan Zhaoling, Chen Shengpei, Zhang Chunlei, Zhang Hongyun, Tian Zhongming, Zhang Zhengyu, Jiang Hui, Zhao Lijian, Zheng Weimou, Li Songgang, Li Yingrui, Wang Jun, Wang Jian, and Zhang Xiuqing

Subjects

Noninvasive Fetal Trisomy (NIFTY) test, Massively parallel sequencing, Autosomal aneuploidies, Sex chromosomal aneuploidies, Internal medicine, RC31-1245, Genetics, QH426-470

Abstract

Abstract Background Conventional prenatal screening tests, such as maternal serum tests and ultrasound scan, have limited resolution and accuracy. Methods We developed an advanced noninvasive prenatal diagnosis method based on massively parallel sequencing. The Noninvasive Fetal Trisomy (NIFTY) test, combines an optimized Student’s t-test with a locally weighted polynomial regression and binary hypotheses. We applied the NIFTY test to 903 pregnancies and compared the diagnostic results with those of full karyotyping. Results 16 of 16 trisomy 21, 12 of 12 trisomy 18, two of two trisomy 13, three of four 45, X, one of one XYY and two of two XXY abnormalities were correctly identified. But one false positive case of trisomy 18 and one false negative case of 45, X were observed. The test performed with 100% sensitivity and 99.9% specificity for autosomal aneuploidies and 85.7% sensitivity and 99.9% specificity for sex chromosomal aneuploidies. Compared with three previously reported z-score approaches with/without GC-bias removal and with internal control, the NIFTY test was more accurate and robust for the detection of both autosomal and sex chromosomal aneuploidies in fetuses. Conclusion Our study demonstrates a powerful and reliable methodology for noninvasive prenatal diagnosis.

Published

2012

5. Noninvasive Fetal Trisomy (NIFTY) test: an advanced noninvasive prenatal diagnosis methodology for fetal autosomal and sex chromosomal aneuploidies

Author

Shengpei Chen, Hongyun Zhang, Jiansheng Xie, Baomin Yin, Hui Guo, Jun-Jun Wang, Hui-Hui Jiang, Yue Su, Wei-wei Wang, Xianghua Chai, Huakun Zhang, Zhongming Tian, Wei-Mou Zheng, Jianhong Xie, Songgang Li, Lifu Liu, Qiyun Li, Yuying Yuan, Shan Dan, Huifei Chen, Xiuqing Zhang, Wen Su, Yihan Li, Linhua Lin, Yuqiu Zhou, Jian Wang, Fang-Fang Chen, Fuman Jiang, Zhaoling Xuan, Yingrui Li, Chunlei Zhang, Xiaoyu Pan, Jinghui Ren, Lijian Zhao, Zhengyu Zhang, and Peipei Li

Subjects

Adult, Quality Control, Autosomal aneuploidies, medicine.medical_specialty, Down syndrome, lcsh:Internal medicine, Massively parallel sequencing, lcsh:QH426-470, Ultrasound scan, Aneuploidy, Prenatal diagnosis, Chromosome Disorders, Sex chromosomal aneuploidies, Biology, Young Adult, Fetus, Bias, Pregnancy, Prenatal Diagnosis, medicine, Genetics, Humans, Genetics(clinical), lcsh:RC31-1245, Genetics (clinical), Base Composition, Sex Chromosomes, Obstetrics, Noninvasive Fetal Trisomy (NIFTY) test, Computational Biology, DNA, Sequence Analysis, DNA, Middle Aged, medicine.disease, lcsh:Genetics, Cell-free fetal DNA, Technical Advance, Female, Down Syndrome, Trisomy

Abstract

Background Conventional prenatal screening tests, such as maternal serum tests and ultrasound scan, have limited resolution and accuracy. Methods We developed an advanced noninvasive prenatal diagnosis method based on massively parallel sequencing. The Noninvasive Fetal Trisomy (NIFTY) test, combines an optimized Student’s t-test with a locally weighted polynomial regression and binary hypotheses. We applied the NIFTY test to 903 pregnancies and compared the diagnostic results with those of full karyotyping. Results 16 of 16 trisomy 21, 12 of 12 trisomy 18, two of two trisomy 13, three of four 45, X, one of one XYY and two of two XXY abnormalities were correctly identified. But one false positive case of trisomy 18 and one false negative case of 45, X were observed. The test performed with 100% sensitivity and 99.9% specificity for autosomal aneuploidies and 85.7% sensitivity and 99.9% specificity for sex chromosomal aneuploidies. Compared with three previously reported z-score approaches with/without GC-bias removal and with internal control, the NIFTY test was more accurate and robust for the detection of both autosomal and sex chromosomal aneuploidies in fetuses. Conclusion Our study demonstrates a powerful and reliable methodology for noninvasive prenatal diagnosis.

Published

2011