Embodiments of this invention provide methods, systems, and apparatus for determining whether a fetal chromosomal aneuploidy exists from a biological sample obtained from a pregnant female. Nucleic acid molecules of the biological sample are sequenced, such that a fraction of the genome is sequenced. Respective amounts of a clinically-relevant chromosome and of background chromosomes 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 a fetal chromosomal aneuploidy exists.

Anti-A globulomer antibodies, antigen-binding moieties thereof, corresponding hybridomas, nucleic acids, vectors, host cells, methods of producing said antibodies, compositions comprising said antibodies, uses of said antibodies and methods of using said antibodies. The present invention relates to anti-A globulomer antibodies having a binding affinity to A(20-42) globulomer that is greater than the binding affinity of the antibody to A(1-42) globulomer, antigen-binding moieties thereof, hybridomas producing said antibodies, nucleic acids encoding said antibodies, vectors comprising said nucleic acids, host cells comprising said vectors, methods of producing said antibodies, compositions comprising said antibodies, therapeutic and diagnostic uses of said antibodies and corresponding methods relating to Alzheimer's disease and other amyloidoses.

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.

Embodiments of this invention provide methods, systems, and apparatus for determining whether a fetal chromosomal aneuploidy exists from a biological sample obtained from a pregnant female. Nucleic acid molecules of the biological sample are sequenced, such that a fraction of the genome is sequenced. Respective amounts of a clinically-relevant chromosome and of background chromosomes 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 a fetal chromosomal aneuploidy exists.

The disclosure relates to methods of preparation of fetal nucleated red blood cells (NRBCs) from biological samples for diagnostic testing.

Methods for detecting a Group of Biomarkers is provided herein. The translation profile of the Group of Biomarkers can be used for determining whether a subject, such as a fetus, has Down syndrome The methods include detecting one or more specific groups of biomarkers in a biological sample, and determining whether the expression of the biomarkers is altered when compared to expression of the biomarkers in one or more subjects that do not have trisomy 21 (e.g., a transcriptional standard). The biological sample can be a blood sample, and the biomarkers are cell free plasma RNAs.

Methods, systems, and apparatus are provided for determining whether a nucleic acid sequence imbalance exists within a biological sample. One or more cutoff values for determining an imbalance of, for example, the ratio of the two sequences (or sets of sequences) are chosen. The cutoff value may be determined based at least in part on the percentage of fetal DNA in a sample, such as maternal plasma, containing a background of maternal nucleic acid sequences. The percentage of fetal DNA can be calculated from the same or different data used to determine the cutoff value, and can use a locus where the mother is homozygous and the fetus is heterozygous. The cutoff value may be determined using many different types of methods, such as sequential probability ratio testing (SPRT).

Provided herein is a method of isolating fetal cells from a sample from a pregnant subject. The method utilizes magnetic particles conjugated to anti-EGFR or a combination of anti-EGFR and anti-CD105 antibodies to create an enriched sample and then labeled antibodies for fetal cell markers to isolate different fetal cell types in the sample from the pregnant subject. Said isolated fetal cells can then be analyzed via gene sequencing or genomic or genetic analysis.

Methods for detecting a Group of Biomarkers is provided herein. The translation profile of the Group of Biomarkers can be used for determining whether a subject, such as a fetus, has Down syndrome The methods include detecting one or more specific groups of biomarkers in a biological sample, and determining whether the expression of the biomarkers is altered when compared to expression of the biomarkers in one or more subjects that do not have trisomy 21 (e.g., a transcriptional standard). The biological sample can be a blood sample, and the biomarkers are cell free plasma RNAs.