Abstract: The disclosure provides methods and kits for the classification of biological samples into clinically relevant categories.

Abstract: The invention provides methods for assessment of risk for genetic conditions using target-enriched multiplexed parallel analysis, for example fetal risk for genetic conditions in prenatal testing. The methods of the invention utilize Target Capture Sequences (TACS) to thereby enrich for target sequences of interest, followed by massive parallel sequencing and statistical analysis of the enriched population. The methods of the disclosure can be used to determine carrier status of inheritable genetic abnormalities associated with genetic conditions and from this information the fetal risk of inheriting the genetic condition can be determined. Kits for carrying out the methods of the invention are also provided.

Abstract: The invention provides methods for assessment of tumor biomarkers using target-enriched multiplexed parallel analysis. The methods of the invention utilize Target Capture Sequences (TACS) to thereby enrich for target sequences of interest, followed by massive parallel sequencing and statistical analysis of the enriched population. The methods can be used with DNA samples from a patient, such as a tissue biopsy or plasma sample (liquid biopsy), for detection of the presence of tumor biomarkers, e.g., for purposes of diagnosis, screening, therapy selection and/or treatment monitoring. Kits for carrying out the methods of the invention are also provided.

Abstract: The present invention relates to a method for the detection of genetic and or genomic abnormalities in a mixed sample, comprising the steps of biochemical and in-silico enrichment of a subset of cell-free DNA fragments derived from the mixed sample. The invention utilizes a pool of long DNA probes to enrich for sequences of interest in the mixed sample, followed by massive parallel sequencing and a computer-based analysis of the enriched sub-population to detect a risk of genetic and/or genomic abnormalities in the said sub-population of the mixed sample. The computer-based part of the method does not necessarily require alignment on a reference genome nor calibration values using reference samples. The method also comprises a kit for performing the invention.

Abstract: The invention provides methods for assessment of risk for genetic conditions using target-enriched multiplexed parallel analysis, for example fetal risk for genetic conditions in prenatal testing. The methods of the invention utilize Target Capture Sequences (TACS) to thereby enrich for target sequences of interest, followed by massive parallel sequencing and statistical analysis of the enriched population. The methods of the disclosure can be used to determine carrier status of inheritable genetic abnormalities associated with genetic conditions and from this information the fetal risk of inheriting the genetic condition can be determined. Kits for carrying out the methods of the invention are also provided.