Abstract: The present disclosure provides compositions, methods and kits for internal controls of microvesicle isolations. The compositions, methods and kits can comprise enveloped viruses, including, but not limited to, inactive mouse hepatitis virus (MHV).

Abstract: The present invention features a method and kit for isolating microvesicles or extracting microvesicle nucleic acids from a biological sample by using a control particle. The present invention provides control particles that are viruses or virus-like particles, such as bacteriophages, that contain control nucleic acids that can be detected to assess the accuracy, reliability, and efficiency of the microvesicle isolation or nucleic acid extraction steps. The methods described herein may further comprise the analysis of the presence, absence, or level of at least one biomarker associated with a disease or medical condition for diagnosing, prognosing, or monitoring the disease or medical condition.

Abstract: The invention relates generally to a process for isolating subpopulations of EVs to identify biomarkers useful identifying, determining the progression of, and/or prognosing a disease, including a neurological disease. More particularly, the present invention relates to detection technology of various exosomal biomarkers including proteins, protein modifications, sugars, RNA, DNA, lipids, and metabolites, and combinations thereof.

Abstract: The invention relates generally to the use of microvesicle biomarkers such as nucleic acids, including nucleic acid signatures, and/or proteins for assessing a kidney transplant rejection in a patient. The invention further relates to assessing, and/or to monitoring kidney transplant rejection in patients who have received a renal transplant.

Abstract: In order to address an inability to separate portions of a sample and/or substance, in some embodiments, methods and apparatuses for separating components and/or portions of a sample are provided. For example, a sample collection container may comprise two areas within the container, one which is configured to contain a first volume of the sample, and one which is configured to contain a second volume of the sample. A float device may be configured to seal the portion of the container collecting the first volume from the portion of the container collecting the second volume, after the former portion of the container has been filled. The sample collection container may further comprise a top cap configured to further seal the two portions of the container, and to prevent leakage and/or spilling of the sample from the sample collection container.

Abstract: The present invention relates generally to methods and kits for detecting one or more biomarkers, such as an Epidermal Growth Factor Receptor (EGFR) mutation, e.g., T790M mutation, L858R mutation, one or more exon19 insertions and/or one or more exon19 deletions in the EGFR gene, in a biological sample to aid in diagnosis, prognosis, monitoring, or therapy selection for a disease such as, for example, cancer. The methods and kits are useful in aiding in diagnosis, prognosis, monitoring, or therapy selection for lung cancer, e.g., non-small cell lung cancer (NSCLC).

Abstract: Methods for extracting high quality nucleic acids from a heterogenous collection of nucleic acid-containing materials from a biological sample are disclosed. The heterogenous collection of nucleic-acid containing materials may contain cells or microvesicles, or both. The extractions obtained by the methods described herein are characterized by high yield and high integrity, making the extracted nucleic acids useful for various applications in which high quality nucleic acid extractions are preferred, e.g., a diagnosis, prognosis, or therapy evaluation for a medical condition.

Abstract: The invention provides a series of steps that prepare nucleic acids (RNA and/or DNA) isolated from extracellular vesicles for sequencing. This enables a wide diversity of RNAs and/or DNAs, to be efficiently detected. These can then be used to identify various attributes such as gene expression, alternative splicing, and the detection of both somatic and germline mutations including single nucleotide variants (SNV) and structural variations (insertions/deletions, fusions, inversions).

Abstract: The present disclosure relates to methods for treating glioblastoma in a subject in need thereof using gene signatures in exosomal RNA derived from the subject. The gene signatures comprise: at least one of FAM229B, ZNF35, CTD-2647L4.4, CABP5, CYP20A1, CEP126, DTX2P1-UPK3BP1-PMS2P11, RP11-507K12.1, KRBA2, CALD1, LRFN1, RP2, SLC2A13, CDKL3, SLC8A3, ANTXR2, TIGD5, AC074289.1 RP11-932O9.7; at least one of tRNA-Lys-CTT-2-2, tRNA-Pro-AGG-2-7, LAMTOR2, RAD51AP1, DENND2A, A1BG, THSD1, CSF1, RP11-332M2.1, ZNF717, ZNF860, ORC6, Clorf50, PSPH, HIST1H4C, CYP2U1, THAP8, TMEM192, NAA20; or at least one of CREBBP, CXCR2 and S100A9. The treatment methods comprise measuring the expression level of at least one of the aforementioned genes in exosomal RNA from a subject and administering to the subject a glioblastoma treatment based on the expression level(s).

Abstract: The invention provides novel methods and kits for isolating nucleic acids from biological samples, including cell-free DNA and/or cell-free DNA and nucleic acids including at least RNA from microvesicles, and for extracting nucleic acids from the microvesicles and/or from the biological samples.

Abstract: The invention relates generally to the use of microvesicle RNA signatures for diagnosis, predicting, and/or to monitor treatment efficacy, including patients who are candidates for renal transplant and/or who have received a renal transplant.

Abstract: The present invention features a method and kit for isolating microvesicles or extracting microvesicle nucleic acids from a biological sample by using a control particle. The present invention provides control particles that are viruses or virus-like particles, such as bacteriophages, that contain control nucleic acids that can be detected to assess the accuracy, reliability, and efficiency of the microvesicle isolation or nucleic acid extraction steps. The methods described herein may further comprise the analysis of the presence, absence, or level of at least one biomarker associated with a disease or medical condition for diagnosing, prognosing, or monitoring the disease or medical condition.

Abstract: A method for extracting nucleic acids from a biological sample by isolating nucleic acid-containing particles from the biological sample by one or more centrifugation procedures, performing one or more steps to mitigate adverse factors that prevent or might prevent high quality nucleic acid extraction, and extracting nucleic acids from the isolated particles. The centrifugation procedures are performed at a speed not exceeding about 200,000 g. The extracted nucleic acids contain both 18S and 28S rRNA.

Abstract: The invention provides novel methods and kits for fully automated high-throughput method for isolation of extracellular vesicles and co-isolation of cell-free DNA from biofluids, including cell-free DNA and/or cell-free DNA and nucleic acids including at least RNA from microvesicles, novel methods and kits for isolation of extracellular vesicles and co-isolation of cell-free DNA from biofluids, including cell-free DNA and/or cell-free DNA and nucleic acids including at least RNA from microvesicles that do not require the use of phenol or chloroform, and for extracting nucleic acids from the extracellular vesicles and/or from the biological samples.

Abstract: The invention relates generally to a process for isolating subpopulations of EVs to identify biomarkers useful identifying, determining the progression of, and/or prognosing a disease, including a neurological disease. More particularly, the present invention relates to detection technology of various exosomal biomarkers including proteins, protein modifications, sugars, RNA, DNA, lipids, and metabolites, and combinations thereof.

Abstract: The invention provides novel methods and kits for isolating nucleic acids from biological samples, including cell-free DNA and/or cell-free DNA and nucleic acids including at least RNA from microvesicles, and for extracting nucleic acids from the microvesicles and/or from the biological samples.

Abstract: The present invention relates generally to the field of biomarker analysis, particularly determining gene expression signatures from urine samples. The disclosure provides compositions, kits and methods for diagnosing a prostate disorder such as prostate cancer in a male subject.

Abstract: The present invention relates generally to the field of biomarker analysis, particularly determining gene expression signatures from biological samples, including plasma samples.

Abstract: The present invention is directed to methods of isolating particles, such as nucleic acid-containing particles or microvesicles, from a biological sample and extracting nucleic acids therefrom, wherein the biological sample is cerebrospinal fluid. The present invention further provides methods for aiding diagnosis, prognosis, monitoring and evaluation of a disease or other medical condition in a subject by detecting a biomarker associated with a disease or medical condition thereof.

Abstract: The present invention features a method and kit for isolating microvesicles or extracting microvesicle nucleic acids from a biological sample by using a control particle. The present invention provides control particles that are viruses or virus-like particles, such as bacteriophages, that contain control nucleic acids that can be detected to assess the accuracy, reliability, and efficiency of the microvesicle isolation or nucleic acid extraction steps. The methods described herein may further comprise the analysis of the presence, absence, or level of at least one biomarker associated with a disease or medical condition for diagnosing, prognosing, or monitoring the disease or medical condition.