As described below, the present invention features methods for treating selected subjects at increased risk of a cardiovascular event, wherein the subjects are selected as having elevated platelet Fcγgamma RIIa.

The present invention relates to compositions, methods, and kits for predicting a subject's response to a CAR T cell therapy, by analyzing the intestinal microbiome of the subject. The present disclosure also provides a method of detecting patients at risk for a poor response to CAR T cell therapy by measuring the level of the presently disclosed bacteria or bacterial genes in the microflora or microbiome of a patient receiving or considered for CAR T cell therapy. The present disclosure further provides therapeutic compositions and methods for treating a subject having a cancer, by improving the subject's response to a CAR T cell therapy.

The present disclosure describes methods of determining a treatment protocol for and/or a prognosis for a subject suspected of or at risk of suffering from a neurologic disease or disorder, including such diseases and disorders that involve motor neuron function such as ALS. The methods comprise detecting the presence of a chitinase protein in a biological sample.

The present invention relates to a method for assessing the risk of stroke in a subject, said method comprising the steps of determining the amount of CES-2 in a sample from the subject, and comparing the amount of CES-2 to a reference amount, whereby the risk of stroke is to be assessed. Moreover, the present invention relates to a method for assessing the efficacy of an anticoagulation therapy and a method for identifying a subject being eligible to the administration of at least one anticoagulation medicament or being eligible for increasing the dosage of at least one anticoagulation medicament.

The present invention relates to a method for assessing atrial fibrillation in a subject, said method comprising the steps of determining the amount of TFPI-2 in a sample from the subject, and comparing the amount of TFPI-2 to a reference amount, whereby atrial fibrillation is to be assessed. Moreover, the present invention relates to methods for assessing anticoagulation therapy and to methods for predicting the risk of stroke of a subject. Said methods are based on the determination of the amount of TFPI-2 in a sample from the subject.

The present invention relates to a method for assessing atrial fibrillation in a subject, said method comprising the steps of determining the amount of BMP 10 in a sample from the subject, and comparing the amount of BMP 10 to a reference amount, whereby atrial fibrillation is to be assessed. Moreover, the present invention relates to a method for diagnosing heart failure based on the determination of BMP 10 in a sample from a subject. Further, the present invention relates to a method for predicting the risk of a subject of hospitalization due to heart failure based on the determination of a BMP 10-type peptide in a sample from a subject.

The present invention relates to the identification of fibrinogen like protein 1 (FGL1) as a prognostic biomarker for responsiveness to an immune checkpoint inhibitor in a cancer patient. More specifically it relates to methods of treating cancer in a human patient comprising administering an immune checkpoint inhibitory antibody specifically inhibiting the interaction of fibrinogen-like protein 1 (FGL1) with lymphocyte-activation gene 3 protein (LAG3), wherein the cancer is an FGL1 expressing cancer. Further, the invention relates to methods for assessing susceptibility or predicting the responsiveness to the treatment with an immune checkpoint inhibitory antibody specifically inhibiting the interaction of FGL1 with LAG3 in a cancer patient, comprising detecting FGL1 expression in a sample from said patient and to a kit for selecting a cancer patient that would benefit from an immune checkpoint inhibitory antibody specifically inhibiting the interaction of FGL1 with LAG3. The immune checkpoint inhibitory antibody that specifically inhibits the interaction between FGL1 and LAG3 may be an antibody directed against human FGL1 or an antibody directed against human LAG3, optionally in combination with other immune checkpoint inhibitory antibodies, such as an anti-PD1 or an anti-PD-L1 antibody.

Epileptic seizures, NES, NS, PNES or NEE are difficult to diagnose and are often difficult to distinguish from several conditions with similar presentations, and therefore, diagnosis of seizures is often a long, expensive, and unreliable process. This invention provides biomarkers for identifying and monitoring seizures and epilepsy, ES, NES, NS, PNES or NEE assays for measuring and assessing biomarker concentration, predictive models based on biomarkers and computational systems for diagnosing, monitoring and predicting therapeutic efficacy associated with seizures and epilepsy, ES, NES, NS, PNES or NEE in all clinical and healthcare settings. Diagnostic and treatment methods, systems, kits, and predictive models provided herein, provide quantitative and/or qualitative assessment in order to allow patients to proceed immediately to diagnostic and/or treatment protocols, and assess therapeutic treatment effectiveness.

The invention relies on detection of specific identified proteins, protein breakdown products, and peptide fragments, to diagnose and evaluate traumatic brain injury, spinal cord injury, and any traumatic injury to the CNS in a subject. These analytes (proteins, protein breakdown products thereof, and peptide fragments thereof) are released from injured tissue into blood and/or cerebrospinal fluid, and can be used to identify the central nervous system cell types (i.e. neuron, astrocyte, oligodendrocyte, and the like) or subcellular structure (e.g., axon, dendrites, presynaptic terminal, post-synaptic terminal, and extracellular matrix) affected, and to determine the diagnosis, location, and severity of the injury. Time course measurements of these analytes measured at different times after an injury or suspected injury also are used as tools for diagnosis and prognosis of central nervous system injury. Proteins, protein breakdown products, and peptide fragments are claimed, as well as kits and methods for their use.

The present invention provides methods of detecting cell-to-cell signaling in cancer cells and methods of diagnosing, prognosing and monitoring cancer comprising the use of volatile organic compounds, which are indicative of cell-to-cell signaling in cancer cells.