The present invention provides a method of aiding the differential diagnosis of haemorrhagic stroke, ischemic stroke and a transient ischemic attack in a patient who has suffered or is suffering a stroke. The method comprises: (i) determining the concentration of the biomarkers VCAM-1, GFAP and CRP in an ex vivo sample obtained from the patient; and (ii) establishing the statistical significance of the concentration of the biomarkers. Optionally, the method further comprises steps of (iii) determining the concentration of the biomarkers IL-6 and sTNFR1 in an ex vivo sample obtained from the patient; (iv) determining the gender of the patient; and (v) establishing the statistical significance of the concentration of the five biomarkers, in conjunction with the patient's gender. The present invention also provides substrates comprising probes for VCAM-1, GFAP and CRP for use in a method for aiding the differential diagnosis of stroke.

The present description relates to a method for determining the risk of a pregnant woman with chronic hypertension developing early or late onset pre-eclampsia. The present description provides methods useful for determining risk that a pregnant individual with chronic hypertension will develop an early pre-eclampsia or late pre-eclampsia. Useful combination of biochemical markers including PlGF and sP-Selectin and related clinical population studies are described herein.

The present invention relates to the prediction of responsiveness to cancer immunotherapy of a subject based on the T-cell composition of the subject, and a therapeutic method using cancer immunotherapy based on the prediction. The present invention also provides a method for improving or maintaining responsiveness to cancer immunotherapy of a subject. Responsiveness to cancer immunotherapy is predict by determining a relative value of a CD4. T-cell subpopulation, dendritic cell subpopulation, and/or CD8.sup.+ T-cell subpopulation correlated with a dendritic cell stimulation in an anti-tumor immune response in a sample derived from a subject. A composition for treating or preventing cancer comprising cells such as CD62L.sup.lowCD4.sup.+ T-cells is also provided.

This disclosure relates generally to a method of inhibiting epithelial cell proliferation including the treatment of conditions associated with aberrant epithelial cell proliferation in mammals, including animals and humans. The present disclosure is particularly relevant for the treatment of cancer.

The present invention relates to a method for diagnosing a predisposition of a living being to develop thrombocytopenia, and uses associated therewith.

The invention discloses a recombinant protein (P-selectin glycoprotein ligand-1 and Neural Retina-specific Leucine Zipper) PSGL-1-NRL chimeric protein comprising a Selectin Binding domain and a non-covalent dimerization domain, which is a leucine zipper and is more preferably the leucine zipper domain of the human or mouse Neural Retina-specific Leucine Zipper. The chimeric protein further comprises a covalent dimerization domain with at least one cysteine suitable to form a disulfide bridge with another chimeric protein to form a homodimer. In the chimeric protein, the PSGL-1 domain corresponds to the extracellular region of Human PSGL-1 and is more preferably the selectin binding region of the mature protein. The chimeric protein is correctly post-translationally modified and is efficiently expressed in a mammalian system. It is sulfated, O-linked glycosylated and sialylated and binds P, E and L selectin, allowing in vivo and in vitro targeting for diagnostic or therapeutic purposes.

Disclosed herein are panels related to the diagnosis or recognition of colon and colorectal cancer in a subject. The disclosed panels and related methods are used to predict or assess colon tumor status in a patient. They can be used to determine nature of tumor, recurrence, or patient response to treatments. Some embodiments of the methods include generating a report for clinical management.

A process and assay for determining the neurological condition in a subject is provided whereby the level of one or more neuroactive biomarkers is measured in a sample obtained from the subject. The processes and assay include measurement of multiple neuroactive biomarkers for synergistic determination of a neurological condition such as neurological damage due to injury, disease, contact with a compound, or other source.

The invention discloses a recombinant protein (P-selectin glycoprotein ligand-1 and Neural Retina-specific Leucine Zipper) PSGL-1-NRL chimeric protein comprising a Selectin Binding domain and a non-covalent dimerization domain, which is a leucine zipper and is more preferably the leucine zipper domain of the human or mouse Neural Retina-specific Leucine Zipper. The chimeric protein further comprises a covalent dimerization domain with at least one cysteine suitable to form a disulfide bridge with another chimeric protein to form a homodimer. In the chimeric protein, the PSGL-1 domain corresponds to the extracellular region of Human PSGL-1 and is more preferably the selectin binding region of the mature protein. The chimeric protein is correctly post-translationally modified and is efficiently expressed in a mammalian system. It is sulfated, O-linked glycosylated and sialylated and binds P, E and L selectin, allowing in vivo and in vitro targeting for diagnostic or therapeutic purposes.

The present invention provides a biomarker for predicting response to cancer treatment and a method of using the biomarker. The present invention provides a method wherein the composition of a subpopulation of cells in a sample, said sample being obtained from a subject, is used as an indicator for predicting response to cancer treatment in the subject. The responses to cancer treatment in the subject can be predicted by comparing, to a reference value, the amount of CCR4.sup.?CCR6.sup.+ cell subpopulation in CD4.sup.+ T cell 10 population of the subject.