Patent application number | Description | Published |
20130084566 | FETAL METHYLATION MARKERS - This application describes the discovery that, in a pregnant woman, certain genes (such as RASSF1A, APC, CASP8, RARB, SCGB3A1, DAB2IP, PTPN6, THY1, TMEFF2, and PYCARD) originated from a fetus are highly methylated, whereas the same genes of maternal origin are unmethylated. This discovery allows the easy detection of one or more of these methylated fetal genes in a biological sample from a pregnant woman, serving as a universal indicator of the presence of fetal DNA in the sample. These fetal methylation markers are particularly useful as positive controls for a non-invasive analytical process during which the quality and quantity of fetal DNA are monitored. These newly identified fetal markers can also be measured directly for diagnosis of certain pregnancy-related conditions. | 04-04-2013 |
20130245961 | METHODS FOR ANALYZING MASSIVELY PARALLEL SEQUENCING DATA FOR NONINVASIVE PRENATAL DIAGNOSIS - This invention provides several ways of managing GC bias that occurs during seequencing and analysis of genomic DNA. Maternal plasma can be used as a source of fetal DNA for analysis. DNA segments or tags obtained from the plasma can be aligned with a chromosomal region of interest and with an artificial reference chromosome assembled from regions of the genome having matching GC content. This technology can be used, for example, to detect and evaluate aneuploidy and other chromosomal abnormalities | 09-19-2013 |
20130253844 | IDENTIFYING A DE NOVO FETAL MUTATION FROM A MATERNAL BIOLOGICAL SAMPLE - Systems, methods, and apparatus for determining at least a portion of fetal genome are provided. DNA fragments from a maternal sample (maternal and fetal DNA) can be analyzed to identify alleles at certain loci. The amounts of DNA fragments of the respective alleles at these loci can be analyzed together to determine relative amounts of the haplotypes for these loci and determine which haplotypes have been inherited from the parental genomes. Loci where the parents are a specific combination of homozygous and heterozygous can be analyzed to determine regions of the fetal genome. Reference haplotypes common in the population can be used along with the analysis of the DNA fragments of the maternal sample to determine the maternal and paternal genomes. Determination of mutations, a fractional fetal DNA concentration in a maternal sample, and a proportion of coverage of a sequencing of the maternal sample can also be provided. | 09-26-2013 |
20130267425 | NONINVASIVE PRENATAL DIAGNOSIS OF FETAL TRISOMY BY ALLELIC RATIO ANALYSIS USING TARGETED MASSIVELY PARALLEL SEQUENCING - Whether a fetus has an aneuploidy associated with a first chromosome is detected using ratios of alleles detected in a maternal sample having a mixture of maternal and fetal DNA. DNA from the sample is enriched for target regions associated with polymorphic loci and then sequenced. Polymorphic loci (e.g., single nucleotide polymorphisms) in the target regions with fetal-specific alleles are identified on a first chromosome and on one or more reference chromosomes. A first ratio of the fetal-specific alleles and shared alleles is determined for the loci on the first chromosome. A second ratio of the fetal-specific alleles and shared alleles is determined for the loci on the reference chromosome(s). A third ratio of the first and second ratio can be compared to a cutoff to determine whether an aneuploidy is present, and whether the aneuploidy is maternally-derived or paternally-derived. | 10-10-2013 |
20130310263 | DIAGNOSING CANCER USING GENOMIC SEQUENCING - Methods, systems, and apparatus determine whether a first chromosomal region exhibits a deletion or an amplification associated with cancer in a sample from a subject (e.g., where the sample includes a mixture of cell-free DNA from tumor cells and non-malignant cells. Nucleic acid molecules of the biological sample are sequenced. Respective amounts of a clinically-relevant chromosomal region and of background chromosomal region(s) are determined from results of the sequencing. A parameter derived from these amounts (e.g. a ratio) is compared to one or more cutoff values, thereby determining a classification of whether first chromosomal region exhibits a deletion or an amplification associated with cancer. | 11-21-2013 |
20140080715 | NON-INVASIVE DETERMINATION OF METHYLOME OF FETUS OR TUMOR FROM PLASMA - Systems, methods, and apparatuses can determine and use methylation profiles of various tissues and samples. Examples are provided. A methylation profile can be deduced for fetal/tumor tissue based on a comparison of plasma methylation (or other sample with cell-free DNA) to a methylation profile of the mother/patient. A methylation profile can be determined for fetal/tumor tissue using tissue-specific alleles to identify DNA from the fetus/tumor when the sample has a mixture of DNA. A methylation profile can be used to determine copy number variations in genome of a fetus/tumor. Methylation markers for a fetus have been identified via various techniques. The methylation profile can be determined by determining a size parameter of a size distribution of DNA fragments, where reference values for the size parameter can be used to determine methylation levels. Additionally, a methylation level can be used to determine a level of cancer. | 03-20-2014 |
20140100121 | MUTATIONAL ANALYSIS OF PLASMA DNA FOR CANCER DETECTION - A frequency of somatic mutations in a biological sample (e.g., plasma or serum) of a subject undergoing screening or monitoring for cancer, can be compared with that in the constitutional DNA of the same subject. A parameter can derived from these frequencies and used to determine a classification of a level of cancer. False positives can be filtered out by requiring any variant locus to have at least a specified number of variant sequence reads (tags), thereby providing a more accurate parameter. The relative frequencies for different variant loci can be analyzed to determine a level of heterogeneity of tumors in a patient. | 04-10-2014 |
20140195164 | NONINVASIVE PRENATAL MOLECULAR KARYOTYPING FROM MATERNAL PLASMA - Disclosed herein are methods, systems, and apparatus for detecting microamplifications or microdeletions in the genome of a fetus. In some embodiments, the method comprises receiving sequence tags for each of a plurality of DNA fragments in a biological sample; determining genomic positions for the sequence tags; determining whether the density of DNA in each of a plurality of genomic regions is aberrantly high or low; identifying as a microamplification a set of consecutive genomic regions having aberrantly high density; and identifying as a microdeletion a set of consecutive genomic regions having aberrantly low density. The biological sample may be a blood sample obtained noninvasively from a female subject pregnant with the fetus. | 07-10-2014 |
20140315200 | DETERMINING FETAL GENOMES FOR MULTIPLE FETUS PREGNANCIES - Techniques are provided for determining inheritance of maternal and paternal haplotypes in preganncies with multiple fetuses. Maternal inheritance can be determined at loci where the mother is heterozygous and the paternally inherited alleles are known (e.g., the father is homozygous). Two types of loci may be used, where one type has the paternal allele appear on a first maternal haplotype, and another type has the paternal allele appear on a second maternal haplotype. Paternal inheritance can be determined from loci where the father is heterozygous and the maother is homozygous. Amounts of different alleles at each locus can be measured. A comparison of the amounts (e.g., using a fractional concentration of each allele and cutoffs) can be used to determine the haplotype inheritance. A haplotype can be linked to a condition of interest. | 10-23-2014 |
20150087529 | SEQUENCING ANALYSIS OF CIRCULATING DNA TO DETECT AND MONITOR AUTOIMMUNE DISEASES - Systems, methods, and apparatuses are provided for diagnosing auto-immune diseases such as systemic lupus erythematosus (SLE) based on the sizes, methylation levels, and/or genomic characteristics of circulating DNA molecules. Patients provide blood or other tissue samples containing cell-free nucleic molecules for analysis. Massively parallel and/or methylation-aware sequencing can be used to determine the sizes and methylation levels of individual DNA molecules and identify the number of molecules originating from different genomic regions. A level of SLE can be estimated based on: the amount of molecules having sizes below a threshold value; the methylation level(s) of the entire genome or portions of the genome; correlations between the sizes and methylation levels of DNA molecules; and/or comparing the representation of DNA molecules in each of a plurality of genomic regions with a reference value for that region, and determining an amount of genomic regions having increased or decreased measured genomic representation. | 03-26-2015 |