Abstract: Maternal adaptive immunity conveys temporary humoral immune protection to neonates. The disclosure demonstrates the influence of the in utero environment on adult atherosclerosis and provides evidence for persistent effects of maternal immunization on adult immune responses. The disclosure provides methods and compositions useful for immunization and more particularly for actively modulating the fetal programming of the immune system for the purpose of preventing or treating immune-modulated diseases. The disclosure also provides interventions to protect offspring and immunized subjects against insulin resistance.

Abstract: The invention provides a novel human Mab Fab, cloned by phage display, and its use in diagnostic and therapeutic methods. In particular the invention provides a method for analyzing the OxLDL components of atherosclerotic plaques in vivo and a means to determine their relative pathology. As the method is based on a human Fab rather than a mouse Mab, the progress or regression of the disease may be monitored over time. The antibody may also be used for the analysis of surgical or serum samples ex vivo for the presence of OxLDL. The antibody may also be used to target therapeutic agents to the site of atherosclerotic plaques or may have use as a therapeutic agent itself.

Abstract: The invention provides a novel human Mab Fab, cloned by phage display, and its use in diagnostic and therapeutic methods. In particular the invention provides a method for analyzing the OxLDL components of atherosclerotic plaques in vivo and a means to determine their relative pathology. As the method is based on a human Fab rather than a mouse Mab, the progress or regression of the disease may be monitored over time. The antibody may also be used for the analysis of surgical or serum samples ex vivo for the presence of OxLDL. The antibody may also be used to target therapeutic agents to the site of atherosclerotic plaques or may have use as a therapeutic agent itself.

Abstract: Maternal adaptive immunity conveys temporary humoral immune protection to neonates. The disclosure demonstrates the influence of the in utero environment on adult atherosclerosis and provides evidence for persistent effects of maternal immunization on adult immune responses. The disclosure provides methods and compositions useful for immunization and more particularly for actively modulating the fetal programming of the immune system for the purpose of preventing or treating immune-modulated diseases. The disclosure also provides interventions to protect offspring and immunized subjects against insulin resistance.

Abstract: The invention provides a novel human Mab Fab, cloned by phage display, and its use in diagnostic and therapeutic methods. In particular the invention provides a method for analyzing the OxLDL components of atherosclerotic plaques in vivo and a means to determine their relative pathology. As the method is based on a human Fab rather than a mouse Mab, the progress or regression of the disease may be monitored over time. The antibody may also be used for the analysis of surgical or serum samples ex vivo for the presence of OxLDL. The antibody may also be used to target therapeutic agents to the site of atherosclerotic plaques or may have use as a therapeutic agent itself.

Abstract: The invention provides a novel human Mab Fab, cloned by phage display, and its use in diagnostic and therapeutic methods. In particular the invention provides a method for analyzing the OxLDL components of atherosclerotic plaques in vivo and a means to determine their relative pathology. As the method is based on a human Fab rather than a mouse Mab, the progress or regression of the disease may be monitored over time. The antibody may also be used for the analysis of surgical or serum samples ex vivo for the presence of OxLDL. The antibody may also be used to target therapeutic agents to the site of atherosclerotic plaques or may have use as a therapeutic agent itself.

Abstract: The invention provides a novel human Mab Fab, cloned by phage display, and its use in diagnostic and therapeutic methods. In particular the invention provides a method for analyzing the OxLDL components of atherosclerotic plaques in vivo and a means to determine their relative pathology. As the method is based on a human Fab rather than a mouse Mab, the progress or regression of the disease may be monitored over time. The antibody may also be used for the analysis of surgical or serum samples ex vivo for the presence of OxLDL. The antibody may also be used to target therapeutic agents to the site of atherosclerotic plaques or may have use as a therapeutic agent itself.

Abstract: The invention provides reagents and methods for their use in in vivo diagnosis of atherosclerosis. In particular, the invention provides monoclonal antibodies which bind oxidation specific epitopes in atherosclerotic plaque lesions, such as those which occur in oxidized LDL, in vivo with high binding specificity; i.e., at about 10 to 20 times the rate of binding of the antibodies to adjacent normal arterial tissue. When detectably labeled and administered according to the invention, the antibodies are clearly imaged when bound to atherosclerotic plaque using known imaging techniques and devices, such as a gamma camera. In addition, the invention provides a method for substantially reducing interference from background signal in the blood pool into which such agents are introduced for detection and quantification of atherosclerotic plaque burden in the cardiovascular tissue of a host.

Abstract: The invention relates to monoclonal antibodies which differentially bind oxidation-specific epitopes on lipoprotein in blood, arterial tissue and vascular tissue, including atherosclerotic plaque formed in arterial tissue and vascular tissue through lipoprotein oxidation. Methods for use of the antibodies in detecting and monitoring lipoprotein oxidation in vivo and in vitro are described, as are methods for inhibiting lipoprotein oxidation in vivo.