Abstract: This invention relates to the use of tumor-derived or associated extracellular ribonucleic acid (RNA) found circulating in the plasma or serum fraction of blood for the detection, monitoring, or evaluation of cancer or premalignant conditions. Extracellular RNA may circulate as non-bound RNA, protein-bound RNA, lipid-RNA complexes, lipoprotein (proteolipid)-RNA complexes, protein-RNA complexes including within or in association with ribonucleoprotein complexes, nucleosomes, or within apoptotic bodies. Any intracellular RNA found in plasma or serum can additionally be detected by this invention. Specifically, this invention enables the extraction of circulating RNA from plasma or serum and utilizes nucleic acid amplification assays for the identification, detection, inference, monitoring, or evaluation of any neoplasm, benign, premalignant, or malignant, in humans or other animals, which might be associated with that RNA.

Abstract: The methods of the invention detect in a qualitative or quantitative fashion drug-resistance RNA and DNA in blood plasma, serum, and other bodily fluids. The methods of the invention thereby enable the assessment of drug resistance in a neoplasm without the requirement of a tissue biopsy. The inventive methods are useful for the evaluation, monitoring, and selecting of drug treatment regimens, and for determining a predisposition for or prognosis of chemoresistant neoplastic disease.

Abstract: This invention provides methods for detecting or inferring the presence of malignant or premalignant cells in a human wherein the malignant or premalignant cells express COX-2. The methods of the invention detect extracellular COX-2 RNA in blood, plasma, serum, and other bodily fluids. The inventive methods are useful for aiding detection, diagnosis, monitoring, treatment, or evaluation of neoplastic disease, and for identifying individuals for whom COX-2 directed therapies would be beneficial.

Abstract: This invention relates to methods of detecting or inferring the presence of malignant or premalignant cells in a human that express 5T4. Provided are methods for detecting 5T4 RNA in blood, plasma, serum, other bodily fluids, cells, and tissues. The invention thereby provides an aid for the detection, diagnosis, monitoring, treatment, or evaluation of neoplastic disease.

Abstract: This invention provides methods for the detection, diagnosing, monitoring, or predicting of non-neoplastic diseases, pathologic conditions, and injury. The methods of the invention detect extracellular non-neoplastic mammalian RNA in the blood, blood plasma, serum, or other bodily fluid of an animal, most preferably a human, having or predisposed to having a non-neoplastic disease, pathologic condition, or injury.

Abstract: This invention relates to the use of tumor-derived or associated extracellular ribonucleic acid (RNA) found circulating in the plasma or serum fraction of blood for the detection, monitoring, or evaluation of cancer or premalignant conditions. Extracellular RNA may circulate as non-bound RNA, protein-bound RNA, lipid-RNA complexes, lipoprotein (proteolipid)—RNA complexes, protein-RNA complexes including within or in association with ribonucleoprotein complexes, nucleosomes, or within apoptotic bodies. Any intracellular RNA found in plasma or serum can additionally be detected by this invention. Specifically, this invention enables the extraction of circulating RNA from plasma or serum and utilizes nucleic acid amplification assays for the identification, detection, inference, monitoring, or evaluation of any neoplasm, benign, premalignant, or malignant, in humans or other animals, which might be associated with that RNA.

Abstract: This invention relates to the use of tumor-derived or associated extracellular ribonucleic acid (RNA) found circulating in the plasma or serum fraction of blood for the detection, monitoring, or evaluation of cancer or premalignant conditions. Extracellular RNA may circulate as non-bound RNA, protein-bound RNA, lipid-RNA complexes, lipoprotein (proteolipid)-RNA complexes, protein-RNA complexes including within or in association with ribonucleoprotein complexes, nucleosomes, or within apoptotic bodies. Any intracellular RNA found in plasma or serum can additionally be detected by this invention. Specifically, this invention enables the extraction of circulating RNA from plasma or serum and utilizes nucleic acid amplification assays for the identification, detection, inference, monitoring, or evaluation of any neoplasm, benign, premalignant, or malignant, in humans or other animals, which might be associated with that RNA.

Abstract: This invention relates to the use of tumor-derived or associated extracellular ribonucleic acid (RNA) found circulating in the plasma or serum fraction of blood for the detection, monitoring, or evaluation of cancer or premalignant conditions. Extracellular RNA may circulate as non-bound RNA, protein-bound RNA, lipid-RNA complexes, lipoprotein (proteolipid)—RNA complexes, protein-RNA complexes including within or in association with ribonucleoprotein complexes, nucleosomes, or within apoptotic bodies. Any intracellular RNA found in plasma or serum can additionally be detected by this invention. Specifically, this invention enables the extraction of circulating RNA from plasma or serum and utilizes nucleic acid amplification assays for the identification, detection, inference, monitoring, or evaluation of any neoplasm, benign, premalignant, or malignant, in humans or other animals, which might be associated with that RNA.

Abstract: This invention relates to the use of tumor-derived or associated extracellular ribonucleic acid (RNA) found circulating in the plasma or serum fraction of blood for the detection, monitoring, or evaluation of cancer or premalignant conditions. Extracellular RNA may circulate as non-bound RNA, protein-bound RNA, lipid-RNA complexes, lipoprotein (proteolipid)—RNA complexes, protein-RNA complexes including within or in association with ribonucleoprotein complexes, nucleosomes, or within apoptotic bodies. Any intracellular RNA found in plasma or serum can additionally be detected by this invention. Specifically, this invention enables the extraction of circulating RNA from plasma or serum and utilizes nucleic acid amplification assays for the identification, detection, inference, monitoring, or evaluation of any neoplasm, benign, premalignant, or malignant, in humans or other animals, which might be associated with that RNA.

Abstract: This invention relates to methods of detecting or inferring the presence of malignant or premalignant cells in a human that express 5T4. Provided are methods for detecting 5T4 RNA in blood, plasma, serum, other bodily fluids, cells, and tissues. The invention thereby provides an aid for the detection, diagnosis, monitoring, treatment, or evaluation of neoplastic disease.

Abstract: The methods of the invention detect epidermal growth factor RNA, epidermal growth factor receptor RNA, her-2/neu RNA, c-myc RNA, heterogeneous nuclear ribonucleoprotein A2/B1 RNA or any combination thereof in blood plasma, serum, and other bodily fluids. The inventive methods are useful for detection, diagnosis, monitoring, treatment, or evaluation of neoplastic disease.

Abstract: This invention relates to methods of detecting extracellular hTR RNA and hTERT RNA in blood, plasma, serum, and other bodily fluids. The invention thereby provides an aid for the detection, diagnosis, monitoring, treatment, or evaluation of neoplastic disease.

Abstract: This invention relates to the use of tumor-derived or associated extracellular ribonucleic acid (RNA) found circulating in the plasma or serum fraction of blood for the detection, monitoring, or evaluation of cancer or premalignant conditions. Extracellular RNA may circulate as non-bound RNA, protein-bound RNA, lipid-RNA complexes, lipoprotein (proteolipid)—RNA complexes, protein-RNA complexes including within or in association with ribonucleoprotein complexes, nucleosomes, or within apoptotic bodies. Any intracellular RNA found in plasma or serum can additionally be detected by this invention. Specifically, this invention enables the extraction of circulating RNA from plasma or serum and utilizes nucleic acid amplification assays for the identification, detection, inference, monitoring, or evaluation of any neoplasm, benign, premalignant, or malignant, in humans or other animals, which might be associated with that RNA.