In accordance with some embodiments, the present invention comprises use of a rapid and accurate QM-MSP and cMethDNA methylation marker-based assays to quickly distinguish between cancer and benign/normal tissues in a biological sample from a subject suspected of having cancer. Methods for detecting breast, colon, and lung cancers in biological samples of suspect tissues and fluids are also provided to assist in triaging subjects suspected of having cancer for expedited biopsy and pathology review in low resource settings.

The disclosure provides a method of immunotherapy for a cancer patient, comprises administering vaccines against Globo series antigens (i.e., Globo H, Stage-specific embryonic antigen 3 “SSEA3” and Stage-specific embryonic antigen 4 “SSEA4”). Specifically, the method comprises administering Globo H-KLH (OBI-822) in patients with Metastatic Breast Cancer. The disclosure also provides a method of comprises selecting a cancer patient who is suitable as treatment candidate for immunotherapy. In addition, the disclosure provides therapeutic agents, including monoclonal antibodies (mAbs) that bind specifically to Globo series antigens and related biomarkers useful in focusing such therapeutic and diagnostic regimens.

A composition for imaging a tumorous disease region includes a fluorescence- or radioactive isotope-labeled ERBB2 aptamer, wherein the ERBB2 aptamer labeled with a radioactive isotope or a fluorescent dye is used to image the tumorous disease region in vivo. The composition may include a labeled hybridized aptamer comprising an aptamer represented as formula 1 hybridized with a labeled-ODN represented as formula 2.

The present invention relates to methods for predicting the response of a breast cancer patient to a chemotherapy. The present invention further relates to a method of determining whether to treat a breast cancer patient with a chemotherapy. The present invention also relates to a kit for predicting the response of a breast cancer patient to a chemotherapy.

The present invention discloses methods of identifying subject having an increased risk to develop an N-glycolylneu-raminic acid (Neu5Gc) related disease, methods for assessment risk factors related to a consumption of Neu5Gc from food and methods of predicting the likelihood of developing of Neu5Gc related disease or disorder.

The invention provides anti-HER2 antibodies and immunoconjugates and methods of using the same.

The present invention relates to a metabolic biomarker set for use in assessing breast cancer in a mammalian subject. In particular, the invention relates to a metabolic biomarker set for screening and/or diagnosing breast cancer, the metabolic biomarker set including at least (a) one amino acid selected from glutamine, glutamate and serine, and one lipid, or (b) glutamine and glutamate. Further, the invention relates to a metabolic biomarker set for prediction of therapeutic response to breast cancer neoadjuvant chemotherapy. Moreover, the present invention relates to a method for assessing breast cancer, which includes obtaining a biological sample, preferably blood, from a mammalian subject and measuring in the biological sample the amount and/or ratios of metabolites. By employing the specific biomarkers and the method according to the present invention it becomes possible to more properly and reliably assess breast cancer.

This disclosure describes the characteristics of the “energetic” cancer stem cell (e-CSC) phenotype. This distinct sub-population of cancer stem cells (CSCs) has a unique energetic profile compared to bulk CSCs, being more glycolitic, having higher mitochondrial mass and elevated oxidative metabolism. e-CSCs also show an increased capacity to undergo cell cycle progression, enhanced anchorage-independent growth, and ALDH-positivity. The e-CSC phenotype presents new targets for cancer therapeutics, and in particular the anti-oxidant response, mitochondrial energy production, and mitochondrial biogenesis of e-CSCs makes them highly susceptible to mitochondrial inhibitors that target e-CSC anti-oxidant response, mitochondrial energy production, and mitochondrial biogenesis. Gene products for e-CSCs are disclosed, as well as classes of mitochondrial inhibiting therapeutic agents. Also disclosed are methods for identifying and separating e-CSCs front bulk cell populations.

Disclosed is a measurement method for measuring a test substance contained in a biological sample based on a predetermined measurement principle, comprising acquiring a first measured value of the test substance using a first measurement reagent, and operating the first measured value to an arithmetic value when measured using a second measurement reagent different from the first measurement reagent, by using arithmetic information designed to make a first cut-off value for the measured value obtained using the first measurement reagent correspond to a second cut-off value for a measured value obtained using the second measurement reagent.

The present invention relates to an apparatus for diagnosing solid cancers comprising lung cancer, pancreatic cancer, bile duct cancer, colorectal cancer, breast cancer, gastric cancer, brain tumors, kidney cancer, liver cancer, and cervical cancer. More specifically, the apparatus comprises: a concentration measurement unit for measuring the concentration of each of acyl-carnitine (AC), nudifloramide (2PY), and lysophosphatidylcholine (LPC) from a biological sample; a pre-processing unit for pre-processing the measured concentrations; and a diagnosis unit for determining the diagnosis information of cancer through linear discriminant analysis using the pre-processed concentrations.