A medical diagnosis screens a biomarker for lung cancer detection by utilizing serum metabonomics. The medical diagnosis includes a biomarker for differential diagnosis between patients with lung cancer and healthy people, and between patients with lung cancer and patients with benign pulmonary nodules, and a biomarker for differential diagnosis between patients with lung cancer and healthy people, and between patients with lung cancer and patients with benign pulmonary nodules according to gender differences between a man and a woman. The biomarker is of great significance especially in the differential diagnosis of whether a patient with nodules in the lung has lung cancer.

Disclosed are pharmaceutical preparations for, and methods for determining, appropriate and effective treatment with therapeutic agents comprising a single species of anti-EGFR monoclonal antibody or therapeutic agents comprising a plurality of species of such antibodies, as well as kits useful for making such determinations.

The present invention is in the field of oncology, and more particularly of cancer stem cells. It relates to a method for producing cancer stem cells based on overexpression of Δ133ρ536 isoform, Δ133ρ53γ isoform, or both Δ133ρ536 and Δ133ρ53γ isoforms; a method for predicting the risk that treatment with a chemotherapeutic anti-cancer agent induces cancer stem cells in a subject suffering from cancer from a cancer sample of said subject, based on detection of an increase in Δ133ρ536 isoform, Δ133ρ53γ isoform, or both Δ133ρ536 and Δ133ρ53γ isoforms following chemotherapeutic anti-cancer treatment; to therapeutic uses of a combination of chemotherapeutic anti-cancer agent and an agent reducing Δ133p536 isoform, Δ133ρ53γ isoform, or both Δ133ρ536 and Δ133ρ53γ isoforms expression; and also to screening methods for anti-cancer stem cells agents.

The present disclosure generally relates to methods and compositions for identifying and/or treating cancer patients harboring one or more molecular alterations in clinically important biomarkers, preferably in multiplexed assays, such that multiple biomarkers can be assayed simultaneously. In one embodiment, the disclosure relates to methods for rapid screening large populations of biological samples by using a high-throughput multiplexed assay to assess relative prevalence of multiple indications, optionally followed by a second analytical assay with higher sensitivity and specificity.

The present invention relates to a method for determining the presence of a circulating tumor marker in the human body, comprising detecting the tumor marker in the vagina, wherein the tumor marker originates from a part of the body that is not the vagina. In a preferred embodiment, the tumor marker is detected by means of an aptamer. Even more preferably, the aptamer is present in a vaginal ring device. The vaginal ring device suitably comprises a diagnostic device for performing an intravaginal diagnosis or measurement therefor. The method can for example be used in the continuous monitoring of circulating tumor markers in oncologic patients or in the pretreatment and posttreatment follow-up of oncologic patients. The invention further relates to a vaginal diagnostic ring device for performing the method.

The invention provides an anti-CEA antibody for use in detecting CEA, treating disorders associated with CEA expression, diagnosing cancers characterized by aberrant CEA expression, and predicting effectiveness of cancer drug therapies.

Methods are provided for the prognosis, diagnosis and treatment of various pathological states, including cancer, chemotherapy resistance and dementia associated with Alzheimer's disease. The methods provided herein are based on the discovery that various proteins with a high level of sialylation are shown herein to be associated with disease states, such as, cancer, chemotherapy resistance and dementia associated with Alzheimer's disease. Such methods provide a lysosomal exocytosis activity profile comprising one or more values representing lysosomal exocytosis activity. Also provided herein, is the discovery that low lysosomal sialidase activity is associated with various pathological states. Thus, the methods also provide a lysosomal sialidase activity profile, comprising one or more values representing lysosomal sialidase activity. A lysosomal sialidase activity profile is one example of a lysosomal exocytosis activity profile.

The invention provides methods and compositions for enhancing the efficacy of cancer therapies through modulation of BAL1 and/or BBAP. Also provided are methods for predicting the efficacy of cancer therapies or treating cancer in a subject through modulation of BAL1 and/or BBAP. Further provided are methods for identifying compounds that are capable of modulating BAL1-BBAP complexes.

The current disclosure provides for specific peptides, and derived ionization characteristics of the peptides, from the ALK, Ros, Ron, Ret, TS, and/or FGFR1 proteins that are particularly advantageous for quantifying the ALK, Ros, Ron, Ret, TS, and/or FGFR1 proteins directly in biological samples that have been fixed in formalin by the methods of Selected Reaction Monitoring (SRM) mass spectrometry, or as Multiple Reaction Monitoring (MRM) mass spectrometry. Such biological samples are chemically preserved and fixed wherein the biological sample is selected from tissues and cells treated with formaldehyde containing agents/fixatives including formalin-fixed tissue/cells, formalin-fixed/paraffin embedded (FFPE) tissue/cells, FFPE tissue blocks and cells from those blocks, and tissue culture cells that have been formalin fixed and or paraffin embedded. A protein sample is prepared from the biological sample using the Liquid Tissue™ reagents and protocol and the ALK, Ros, Ron, Ret, TS, and/or FGFR1 proteins are quantitated in the Liquid Tissue™ sample by the method of SRM/MRM mass spectrometry, by quantitating in the protein sample at least one or more of the peptides described. These peptides can be quantitated if they reside in a modified or an unmodified form. An example of a modified form of an ALK, Ros, Ron, Ret, TS, and/or FGFR1 fragment peptide is phosphorylation of a tyrosine, threonine, serine, and/or other amino acid residues within the peptide sequence.

Screening human subjects for vector-borne disease is provided and carried out using thymidine kinase 1 alone or in combination with c-reactive protein as biomarkers which are measured in a blood sample, and the measurements are used to compute an index that allows a practitioner to compare results from different subjects and between different populations of subjects, and the screening for vector-borne disease can also be used on subjects that are undergoing treatment to monitor the progress of an infection and the results of the treatment.