Abstract: Methods for in situ amplification (ISA) of cfNA, such as cfDNA, in a sample are provided wherein the cfNA in the sample is not subject to a nucleic acid purification step. The methods disclosed may be used to generate an analyzable pool of cfNA present in the sample. The analyzable pool may be used with a variety of analytical techniques to characterize the nucleic acid in the sample. Methods of diagnosis, determining a therapeutic intervention and monitoring of a subject are also provided.

Abstract: Provided herein are methods for the diagnosis, prognosis, or management of diseases, such as cancer, by measuring the tyrosine kinase activity in acellular body fluids. Further provided are methods of predicting response to therapy in certain populations of cancer patients by contacting an acellular body fluid sample from a patient with a test agent, such as a tyrosine kinase inhibitor, and then measuring the effect of the test agent on tyrosine kinase activity in the sample.

Abstract: Methods for in situ amplification (ISA) of cfNA, such as cfDNA, in a sample are provided wherein the cfNA in the sample is not subject to a nucleic acid purification step. The methods disclosed may be used to generate an analyzable pool of cfNA present in the sample. The analyzable pool may be used with a variety of analytical techniques to characterize the nucleic acid in the sample. Methods of diagnosis, determining a therapeutic intervention and monitoring of a subject are also provided.

Abstract: The present disclosure provides methods for the isolation of a cell free complex comprising a circulating, cell free nucleic acid component. The nucleic acid component of the complex is, at least in part, associated with cellular components, such as polypeptides and lipids. The methods of the present disclosure provide for the isolation of circulating cell free nucleic acids that are longer and less fragmented as compared to prior art methods. Furthermore, the circulating, cell free nucleic acid represent biologically relevant nucleic acid targets as the methods described selectively remove non-functional nucleic acids from the isolated material. The nucleic acid component of the isolated complexes reflects a wide spectrum of genomic representation enabling successful detection of mutations, polymorphisms, methylation status and other genomic markers for use in diagnostic and therapeutic applications.

Abstract: The present disclosure provides novel methods for direct sample nucleic acid amplification with optional detection. The methods of the present disclosure provide for the foregoing without the requirement of nucleic acid purification from the sample. The methods generally comprise diluting a sample containing a nucleic acid target sequence to be amplified to produce a diluted sample, optionally subjecting the diluted sample to processing, either before or after dilution, and performing an amplification reaction on the sample to amplify the nucleic acid target sequence.

Abstract: Methods and apparatuses for measuring the concentration of functional proprotein convertase subtilisin/kexin type 9 (PCSK9). A method of measuring functional PCSK9 in a sample is provided, by contacting the sample with a PCSK9-binding agent capable of binding to the LDL-R-binding region of a PCSK9; and measuring the amount of functional PCSK9 from the sample bound to the binding agent. Diagnostic methods, kits, and reagents for using the method are also provided.

Abstract: Provided herein are methods for the diagnosis, prognosis, or management of diseases, such as cancer, by measuring the tyrosine kinase activity in acellular body fluids. Further provided are methods of predicting response to therapy in certain populations of cancer patients by contacting an acellular body fluid sample from a patient with a test agent, such as a tyrosine kinase inhibitor, and then measuring the effect of the test agent on tyrosine kinase activity in the sample.

Abstract: Methods and apparatuses for measuring the concentration of functional proprotein convertase subtilisin/kexin type 9 (PCSK9). A method of measuring functional PCSK9 in a sample is provided, by contacting the sample with a PCSK9-binding agent capable of binding to the LDL-R-binding region of a PCSK9; and measuring the amount of functional PCSK9 from the sample bound to the binding agent. Diagnostic methods, kits, and reagents for using the method are also provided.

Abstract: Provided herein are methods for the diagnosis, prognosis, or management of diseases, such as cancer, by measuring the tyrosine kinase activity in acellular body fluids. Further provided are methods of predicting response to therapy in certain populations of cancer patients by contacting an acellular body fluid sample from a patient with a test agent, such as a tyrosine kinase inhibitor, and then measuring the effect of the test agent on tyrosine kinase activity in the sample.

Abstract: Provided herein are methods for the diagnosis, prognosis, or management of diseases, such as cancer, by measuring the tyrosine kinase activity in acellular body fluids. Further provided are methods of predicting response to therapy in certain populations of cancer patients by contacting an acellular body fluid sample from a patient with a test agent, such as a tyrosine kinase inhibitor, and then measuring the effect of the test agent on tyrosine kinase activity in the sample.