Abstract: This invention relates to nucleotide polymorphisms in the human Apo(a) gene and to the use of Apo(a) nucleotide polymorphisms in identifying whether a human subject will respond or not to treatment with acetylsalicylic acid.

Abstract: The invention involves, inter alia, the use of markers of systemic inflammation to determine whether or not an individual undergoing treatment with a cardiovascular agent to reduce the risk of a future cardiovascular event will benefit from continued treatment with the cardiovascular agent. Further, this invention describes the use of markers of systemic inflammation to evaluate the efficacy of treatment and to assist physicians in deciding on the course of a treatment in an individual at risk of future cardiovascular events.

Abstract: Provided herein are methods of treating or reducing the risk of a cardiovascular disease using a lipid lowering agent (e.g., statin and/or PCSK9 inhibitor) and an anti-inflammatory agent (e.g., a pro-inflammatory cytokine inhibitor). Further provided herein are methods of predicting the recurrence rate of a subject who has received or is undergoing therapy for a cardiovascular disease with a lipid lowering agent on the basis of the C-reactive protein (CRP) level in the subject. In some embodiments, the recurrence rate can be reduced using an anti-inflammatory agent.

Abstract: Provided herein are methods of treating or reducing the risk of a cardiovascular disease using a lipid lowering agent (e.g., statin and/or PCSK9 inhibitor) and an anti-inflammatory agent (e.g., a pro-inflammatory cytokine inhibitor). Further provided herein are methods of predicting the recurrence rate of a subject who has received or is undergoing therapy for a cardiovascular disease with a lipid lowering agent on the basis of the C-reactive protein (CRP) level in the subject. In some embodiments, the recurrence rate can be reduced using an anti-inflammatory agent.

Abstract: This invention relates to nucleotide polymorphisms in the human Apo(a) gene and to the use of Apo(a) nucleotide polymorphisms in identifying whether a human subject will respond or not to treatment with acetylsalicylic acid.

Abstract: This invention relates to nucleotide polymorphisms in the human Apo(a) gene and to the use of Apo(a) nucleotide polymorphisms in identifying whether a human subject will respond or not to treatment with acetylsalicylic acid.

Abstract: This invention relates to nucleotide polymorphisms in the human Apo(a) gene and to the use of Apo(a) nucleotide polymorphisms in identifying whether a human subject will respond or not to treatment with acetylsalicylic acid.

Abstract: The invention involves, inter alia, the use of markers of systemic inflammation to determine whether or not an individual undergoing treatment with a cardiovascular agent to reduce the risk of a future cardiovascular event will benefit from continued treatment with the cardiovascular agent. Further, this invention describes the use of markers of systemic inflammation to evaluate the efficacy of treatment and to assist physicians in deciding on the course of a treatment in an individual at risk of future cardiovascular events.

Abstract: The invention involves, inter alia, the use of markers of systemic inflammation to determine whether or not an individual undergoing treatment with a cardiovascular agent to reduce the risk of a future cardiovascular event will benefit from continued treatment with the cardiovascular agent. Further, this invention describes the use of markers of systemic inflammation to evaluate the efficacy of treatment and to assist physicians in deciding on the course of a treatment in an individual at risk of future cardiovascular events.

Abstract: This invention relates to nucleotide polymorphisms in the human Apo(a) gene and to the use of Apo(a) nucleotide polymorphisms in identifying whether a human subject will respond or not to treatment with acetylsalicylic acid.

Abstract: The invention relates to nucleotide polymorphisms in the human Apo(a) gene and to the use of Apo(a) nucleotide polymorphisms in identifying whether a human subject will respond or not to treatment with acetylsalicylic acid.

Abstract: The invention involves methods for characterizing an individual's risk profile of developing future diabetes or complications of diabetes by obtaining a level of an inflammatory marker in the individual. Preferred inflammatory markers according to the present invention include C reactive protein and interleukin-6. The invention also involves methods for evaluating the likelihood that an individual will benefit from treatment with an agent for reducing the risk of future diabetes.

Abstract: A method is provided for inhibiting, preventing or reducing the incidence of venous thromboembolism (VTE) in a patient who previously has undergone standard therapy for VTE, that is, a dose of warfarin of 2 to 3 INR over a 3 to 12 month period, wherein the patient is administered a low dose of warfarin of less than 2 INR and preferably from about 1.4 to less than 2 INR over an extended period of time.

Abstract: The invention involves methods for characterizing an individual's risk profile of developing future diabetes or complications of diabetes by obtaining a level of an inflammatory marker in the individual. Preferred inflammatory markers according to the present invention include C reactive protein and interleukin-6. The invention also involves methods for evaluating the likelihood that an individual will benefit from treatment with an agent for reducing the risk of future diabetes.