Abstract: A method for the prediction, prognosis and/or diagnosis of bladder cancer or bladder cancer recurrence in a subject, the method includes: providing a test sample from the subject; measuring DNA methylation levels of at least a portion of two or more polynucleotides selected from the group consisting of HOXA9, SOX1, NPY, IRAK3, L1-MET, and ZO2 in the test sample; calculating a risk score based on the measured DNA methylation levels, comparing the calculated risk score to a cut-off value derived from a reference DNA methylation profile based on DNA methylation levels of the one or more biomarkers derived from a control group, members of which had bladder cancer; and based on the comparison calculated risk score to the cut-off value, determining at least one of: (1) whether bladder cancer has recurred; (2) whether there is likelihood that the bladder cancer will recur; and (3) whether the patient has bladder cancer.

Abstract: A method of classifying kidney tumors is provided. The method includes obtaining a sample from a subject, isolating DNA from the sample, determining the methylation status of the DNA, and comparing the methylation status of the DNA to one or more methylated biomarkers selected from the following: cg04877910, cg09667289, cg05274650, cg11473616, cg16935734, cg27534624, cg21851713, cg15867829, cg15679829, cg08884979, cg09538401, cg26811868, cg05367028, cg19816080, cg20108357, cg25504868, cg11201447, cg19922137, cg14706317, cg15902830, cg10794973, cg10777887, cg03290131, cg07851269, cg11264947, cg00279406, cg23140965, cg03574652, cg03265671, cg24864241, cg01572891, cg00193963, cg14329285, cg17819990, cg17298239, cg23856138, cg21049501, cg11808936, cg25170591, cg17983632, cg08141142, cg19848599, cg25799109, cg07093324, cg16223546, cg07604732, cg12149606, cg08949329, cg27166177, cg26177041, cg09885851, cg22876153, cg21386992, cg02309772, cg02833180, cg20007890, cg04972244, cg02666955 and cg12102682.

Abstract: A method for the prediction, prognosis and/or diagnosis of bladder cancer or bladder cancer recurrence in a subject, the method includes: providing a test sample from the subject; measuring DNA methylation levels of at least a portion of two or more polynucleotides selected from the group consisting of HOXA9, SOX1, NPY, IRAK3, L1-MET, and ZO2 in the test sample; calculating a risk score based on the measured DNA methylation levels, comparing the calculated risk score to a cut-off value derived from a reference DNA methylation profile based on DNA methylation levels of the one or more biomarkers derived from a control group, members of which had bladder cancer; and based on the comparison calculated risk score to the cut-off value, determining at least one of: (1) whether bladder cancer has recurred; (2) whether there is likelihood that the bladder cancer will recur; and (3) whether the patient has bladder cancer. The one or more polynucleotides preferably comprise SOX1, IRAK3 and L1-MET.

Abstract: A method for the prediction, prognosis and/or diagnosis of bladder cancer or bladder cancer recurrence in a subject, the method includes: providing a test sample from the subject; measuring DNA methylation levels of at least a portion of two or more polynucleotides selected from the group consisting of HOXA9, SOXI, NPY, IRAK3, L1-MET, and Z02 in the test sample; calculating a risk score based on the measured DNA methylation levels, comparing the calculated risk score to a cut-off value derived from a reference DNA methylation profile based on DNA methylation levels of the one or more biomarkers derived from a control group, members of which had bladder cancer; and based on the comparison calculated risk score to the cut-off value, determining at least one of: (1) whether bladder cancer has recurred; (2) whether there is likelihood that the bladder cancer will recur; and (3) whether the patient has bladder cancer.

Abstract: A method of classifying kidney tumors is provided. The method includes obtaining a sample from a subject, isolating DNA from the sample, determining the methylation status of the DNA, and comparing the methylation status of the DNA to one or more GO methylated biomarkers selected from the following: cg04877910, cg09667289, cg05274650, cg1 1473616, cg16935734, cg27534624, cg21851713, cg15867829, cg15679829, cg08884979, cg09538401, cg26811868, cg05367028, cg19816080, cg20108357, cg25504868, cg1 1201447, cg19922137, cg14706317, cg15902830, cg10794973, cg10777887, cg03290131, cg07851269, cg1 1264947, cg00279406, cg23140965, cg03574652, cg03265671, cg24864241, cg01572891, cg00193963, cg14329285, cg17819990, cg17298239, cg23856138, cg21049501, cg1 1808936, cg25170591, cg17983632, cg08141142, cg19848599, cg25799109, cg07093324, cg16223546, cg07604732, cg12149606, cg08949329, cg27166177, cg26177041, cg09885851, cg22876153, cg21386992, cg02309772, cg02833180, cg20007890, cg04972244, cg02666955 and cg12102682.

Abstract: A method for the prediction, prognosis and/or diagnosis of bladder cancer or bladder cancer recurrence in a subject, the method includes: providing a test sample from the subject; measuring DNA methylation levels of at least a portion of two or more polynucleotides selected from the group consisting of HOXA9, SOXI, NPY, IRAK3, L1-MET, and Z02 in the test sample; calculating a risk score based on the measured DNA methylation levels, comparing the calculated risk score to a cut-off value derived from a reference DNA methylation profile based on DNA methylation levels of the one or more biomarkers derived from a control group, members of which had bladder cancer; and based on the comparison calculated risk score to the cut-off value, determining at least one of: (1) whether bladder cancer has recurred; (2) whether there is likelihood that the bladder cancer will recur; and (3) whether the patient has bladder cancer.