| Patent application number | Description | Published |
|---|
| 20100124751 | Non-Invasive Fetal Genetic Screening by Digital Analysis - The present methods are exemplified by a process in which maternal blood containing fetal DNA is diluted to a nominal value of approximately 0.5 genome equivalent of DNA per reaction sample. Digital PCR is then be used to detect aneuploidy, such as the trisomy that causes Down Syndrome. Since aneuploidies do not present a mutational change in sequence, and are merely a change in the number of chromosomes, it has not been possible to detect them in a fetus without resorting to invasive techniques such as amniocentesis or chorionic villi sampling. Digital amplification allows the detection of aneuploidy using massively parallel amplification and detection methods, examining, e.g., 10,000 genome equivalents. | 05-20-2010 |
| 20100124752 | Non-Invasive Fetal Genetic Screening by Digital Analysis - The present methods are exemplified by a process in which maternal blood containing fetal DNA is diluted to a nominal value of approximately 0.5 genome equivalent of DNA per reaction sample. Digital PCR is then be used to detect aneuploidy, such as the trisomy that causes Down Syndrome. Since aneuploidies do not present a mutational change in sequence, and are merely a change in the number of chromosomes, it has not been possible to detect them in a fetus without resorting to invasive techniques such as amniocentesis or chorionic villi sampling. Digital amplification allows the detection of aneuploidy using massively parallel amplification and detection methods, examining, e.g., 10,000 genome equivalents. | 05-20-2010 |
| 20100138165 | Noninvasive Diagnosis of Fetal Aneuploidy by Sequencing - Disclosed is a method to achieve digital quantification of DNA (i.e., counting differences between identical sequences) using direct shotgun sequencing followed by mapping to the chromosome of origin and enumeration of fragments per chromosome. The preferred method uses massively parallel sequencing, which can produce tens of millions of short sequence tags in a single run and enabling a sampling that can be statistically evaluated. By counting the number of sequence tags mapped to a predefined window in each chromosome, the over- or under-representation of any chromosome in maternal plasma DNA contributed by an aneuploid fetus can be detected. This method does not require the differentiation of fetal versus maternal DNA. The median count of autosomal values is used as a normalization constant to account for differences in total number of sequence tags is used for comparison between samples and between chromosomes. | 06-03-2010 |
| 20100255492 | Non-Invasive Fetal Genetic Screening by Digital Analysis - The present methods are exemplified by a process in which maternal blood containing fetal DNA is diluted to a nominal value of approximately 0.5 genome equivalent of DNA per reaction sample. Digital PCR is then be used to detect aneuploidy, such as the trisomy that causes Down Syndrome. Since aneuploidies do not present a mutational change in sequence, and are merely a change in the number of chromosomes, it has not been possible to detect them in a fetus without resorting to invasive techniques such as amniocentesis or chorionic villi sampling. Digital amplification allows the detection of aneuploidy using massively parallel amplification and detection methods, examining, e.g., 10,000 genome equivalents. | 10-07-2010 |
| 20100255493 | Non-Invasive Fetal Genetic Screening by Digital Analysis - The present methods are exemplified by a process in which maternal blood containing fetal DNA is diluted to a nominal value of approximately 0.5 genome equivalent of DNA per reaction sample. Digital PCR is then be used to detect aneuploidy, such as the trisomy that causes Down Syndrome. Since aneuploidies do not present a mutational change in sequence, and are merely a change in the number of chromosomes, it has not been possible to detect them in a fetus without resorting to invasive techniques such as amniocentesis or chorionic villi sampling. Digital amplification allows the detection of aneuploidy using massively parallel amplification and detection methods, examining, e.g., 10,000 genome equivalents. | 10-07-2010 |
| 20110151442 | Direct Molecular Diagnosis of Fetal Aneuploidy - Methods and materials for detection of aneuploidy and other chromosomal abnormalities using fetal tissue are disclosed. Results can be obtained rapidly, without cell culture. The method uses digital PCR for amplification and detection of single target sequences, allowing an accurate count of a specific chromosome or chromosomal region. Specific polynucleic acid primers and probes are disclosed for chromosomes 1, 13, 18, 21, X and Y. These polynucleic acid sequences are chosen to be essentially invariant between individuals, so the test is not dependent on sequence differences between fetus and mother. | 06-23-2011 |
| 20110246083 | Noninvasive Diagnosis of Fetal Aneuploidy by Sequencing - Disclosed is a method to achieve digital quantification of DNA (i.e., counting differences between identical sequences) using direct shotgun sequencing followed by mapping to the chromosome of origin and enumeration of fragments per chromosome. The preferred method uses massively parallel sequencing, which can produce tens of millions of short sequence tags in a single run and enabling a sampling that can be statistically evaluated. By counting the number of sequence tags mapped to a predefined window in each chromosome, the over- or under-representation of any chromosome in maternal plasma DNA contributed by an aneuploid fetus can be detected. This method does not require the differentiation of fetal versus maternal DNA. The median count of autosomal values is used as a normalization constant to account for differences in total number of sequence tags is used for comparison between samples and between chromosomes. | 10-06-2011 |
| 20110319272 | Noninvasive Diagnosis of Fetal Aneuploidy by Sequencing - Disclosed is a method to achieve digital quantification of DNA (i.e., counting differences between identical sequences) using direct shotgun sequencing followed by mapping to the chromosome of origin and enumeration of fragments per chromosome. The preferred method uses massively parallel sequencing, which can produce tens of millions of short sequence tags in a single run and enabling a sampling that can be statistically evaluated. By counting the number of sequence tags mapped to a predefined window in each chromosome, the over- or under-representation of any chromosome in maternal plasma DNA contributed by an aneuploid fetus can be detected. This method does not require the differentiation of fetal versus maternal DNA. The median count of autosomal values is used as a normalization constant to account for differences in total number of sequence tags is used for comparison between samples and between chromosomes. | 12-29-2011 |
| Patent application number | Description | Published |
|---|
| 20090170113 | Non-Invasive Fetal Genetic Screening by Digital Analysis - The present methods are exemplified by a process in which maternal blood containing fetal DNA is diluted to a nominal value of approximately 0.5 genome equivalent of DNA per reaction sample. Digital PCR is then be used to detect aneuploidy, such as the trisomy that causes Down Syndrome. Since aneuploidies do not present a mutational change in sequence, and are merely a change in the number of chromosomes, it has not been possible to detect them in a fetus without resorting to invasive techniques such as amniocentesis or chorionic villi sampling. Digital amplification allows the detection of aneuploidy using massively parallel amplification and detection methods, examining, e.g., 10,000 genome equivalents. | 07-02-2009 |
| 20090170114 | Non-Invasive Fetal Genetic Screening by Digital Analysis - The present methods are exemplified by a process in which maternal blood containing fetal DNA is diluted to a nominal value of approximately 0.5 genome equivalent of DNA per reaction sample. Digital PCR is then be used to detect aneuploidy, such as the trisomy that causes Down Syndrome. Since aneuploidies do not present a mutational change in sequence, and are merely a change in the number of chromosomes, it has not been possible to detect them in a fetus without resorting to invasive techniques such as amniocentesis or chorionic villi sampling. Digital amplification allows the detection of aneuploidy using massively parallel amplification and detection methods, examining, e.g., 10,000 genome equivalents. | 07-02-2009 |
| 20100069250 | Digital PCR Calibration for High Throughput Sequencing - Disclosed is a method for accurately determining the number of template molecules in a library of nucleic acids (e.g., DNA) to be sequenced. The method does not require large amounts of the DNA sample, nor does it require the preparation of a standard curve. The method is especially applicable to methodologies for “sequencing by synthesis,” where quantitation of the starting library is important. The method uses quantitative real time PCR, especially digital PCR, which measures the number of individual molecules in a sample. The present method particularly may use a microfluidic device for running large numbers of PCR reactions. Each PCR reaction is monitored in real time by a primer/probe combination. The forward primer is adapted to contain a sequence not on the adapter but which corresponds to a probe sequence. A short probe which generates fluorescence during the PCR process is used. | 03-18-2010 |
| 20100112575 | Noninvasive Diagnosis of Fetal Aneuploidy by Sequencing - Disclosed is a method to achieve digital quantification of DNA (i.e., counting differences between identical sequences) using direct shotgun sequencing followed by mapping to the chromosome of origin and enumeration of fragments per chromosome. The preferred method uses massively parallel sequencing, which can produce tens of millions of short sequence tags in a single run and enabling a sampling that can be statistically evaluated. By counting the number of sequence tags mapped to a predefined window in each chromosome, the over- or under-representation of any chromosome in maternal plasma DNA contributed by an aneuploid fetus can be detected. This method does not require the differentiation of fetal versus maternal DNA. The median count of autosomal values is used as a normalization constant to account for differences in total number of sequence tags is used for comparison between samples and between chromosomes. | 05-06-2010 |
