Abstract: Type 1 diabetes (T1D) patients make antibodies to self-proteins that are potential biomarkers for early detection and risk prediction. We have identified seventeen antigens as biomarkers for early diagnosis and risk prediction of T1D, including the antigens MLH1, MTIF3, PPIL2, NUP50, TOX4, FIGN, C9orf142, ZNF280D, HES1, QRFPR, CTRC, SNX6, SYTL4, ELA2A, IGRP, PAX6, and HMGN3.

Abstract: Systems and methods for data management are disclosed. In one embodiment, in an information processing apparatus comprising at least one computer processor, a method for data management may include (1) generating a unified model for a plurality of data sources for an organization, the unified model identifying the data sources and a type of data associated with each data source; (2) harvesting data from the data sources; (3) linking the harvested data to the unified model; and (4) receiving and processing a data lineage query against the linked harvested data.

Abstract: Type 1 diabetes (T1D) patients make antibodies to self-proteins that are potential biomarkers for early detection and risk prediction. We have identified seventeen antigens as biomarkers for early diagnosis and risk prediction of T1D, including the antigens MLH1, MTIF3, PPIL2, NUP50, TOX4, FIGN, C9orf142, ZNF280D, HES1, QRFPR, CTRC, SNX6, SYTL4, ELA2A, IGRP, PAX6, and HMGN3.

Abstract: Systems and methods for data management are disclosed. In one embodiment, in an information processing apparatus comprising at least one computer processor, a method for data management may include (1) generating a unified model for a plurality of data sources for an organization, the unified model identifying the data sources and a type of data associated with each data source; (2) harvesting data from the data sources; (3) linking the harvested data to the unified model; and (4) receiving and processing a data lineage query against the linked harvested data.

Abstract: The present invention provides materials and methods for modulating an immune response. In one embodiment, the present invention provides an initial artificial lymph-node homing environment, and a simultaneous, or subsequent, artificial spleen environment leading to the resolution of the activated immune responses. In one specific embodiment, the present invention can be used to prevent and/or treat pathogenic infection, cancer, allergenic reactions, and/or unwanted immune or auto-immune responses.

Abstract: The present invention provides materials and methods for modulating an immune response. In one embodiment, the present invention provides an initial artificial lymph-node homing environment, and a simultaneous, or subsequent, artificial spleen environment leading to the resolution of the activated immune responses. In one specific embodiment, the present invention can be used to prevent and/or treat pathogenic infection, cancer, allergenic reactions, and/or unwanted immune or auto-immune responses.

Abstract: The invention provides compositions for treating or preventing T1D (T1D), the compositions comprising one or more antigen presenting cells (APC) that have been pulsed with one or more bacteria and/or components of the bacteria, wherein the bacteria or their components confer upon the APCs the ability to inhibit the generation of diabetes-promoting T cells. The subject invention also provides a method of treating or preventing T1D in a subject, the method comprising administering APC that have been pulsed with one or more bacteria and/or components of the bacteria and wherein the bacteria or their components confer upon the APCs the ability to inhibit the generation of diabetes-promoting T cells.

Abstract: Isolated Lactobacillus strains are useful in preventing or delaying the development of Type 1 Diabetes (T1D). A probiotic composition comprising the Lactobacillus strains and use of the composition in T1D prevention are provided.

Abstract: Type 1 diabetes (T1D) patients make antibodies to self-proteins that are potential biomarkers for early detection and risk prediction. We have identified seventeen antigens as biomarkers for early diagnosis and risk prediction of T1D, including the antigens MLH1, MTIF3, PPIL2, NUP50, TOX4, FIGN, C9orf142, ZNF280D, HES1, QRFPR, CTRC, SNX6, SYTL4, ELA2A, IGRP, PAX6, and HMGN3.

Abstract: Provided is a power module for use in a marine vessel and a wind-propelled vessel provided with such a power module. The power module includes: a sail storage housing which has at least a portion thereof arranged below a deck of a marine vessel and having an opening on an upper end thereof; a sail which is movable between a storage position located inside the sail storage housing and a use position at which the sail projects from the deck in the vertical direction; and a sail movement unit which is configured to move the sail between the storage position and the use position.

Abstract: The invention provides compositions for treating or preventing T1D (T1D), the compositions comprising one or more antigen presenting cells (APC) that have been pulsed with one or more bacteria and/or components of the bacteria, wherein the bacteria or their components confer upon the APCs the ability to inhibit the generation of diabetes-promoting T cells. The subject invention also provides a method of treating or preventing T1D in a subject, the method comprising administering APC that have been pulsed with one or more bacteria and/or components of the bacteria and wherein the bacteria or their components confer upon the APCs the ability to inhibit the generation of diabetes-promoting T cells.

Abstract: The present invention provides materials and methods for modulating an immune response. In one embodiment, the present invention provides an initial artificial lymph-node homing environment, and a simultaneous, or subsequent, artificial spleen environment leading to the resolution of the activated immune responses. In one specific embodiment, the present invention can be used to prevent and/or treat pathogenic infection, cancer, allergenic reactions, and/or unwanted immune or auto-immune responses.

Abstract: In accordance with the subject invention, combination therapies can be used to modulate a patient's immune response in order to prevent, delay and/or reverse type 1 diabetes.

Abstract: The subject invention provides compositions for alleviating type 1 diabetes (T1D). In preferred embodiments, the compositions comprise an effective amount of one or more antigen presenting cells (APCs) that have been pulsed with one or more bacterial isolates and/or compounds from the isolates. The bacteria used to pulse the APCs are, preferably, those that confer upon the APCs the ability to inhibit the generation of diabetes-promoting T cells. In specific embodiments, these bacteria may be, for example, Eubacteria or Clostridia. In a preferred embodiment, the APCs are dendritic cells (DCs).

Abstract: In accordance with the subject invention, combination therapies can be used to modulate a patient's immune response in order to prevent, delay and/or reverse type 1 diabetes.

Abstract: Provided is a power module for use in a marine vessel and a wind-propelled vessel provided with such a power module. The power module includes: a sail storage housing which has at least a portion thereof arranged below a deck of a marine vessel and having an opening on an upper end thereof; a sail which is movable between a storage position located inside the sail storage housing and a use position at which the sail projects from the deck in the vertical direction; and a sail movement unit which is configured to move the sail between the storage position and the use position.

Abstract: Biomarkers that are diagnostic of type 1 diabetes, type 2 diabetes and/or diabetic disorder are identified. Detection of different biomarkers of the invention are also diagnostic of the degree of severity of type 1 diabetes, type 2 diabetes and/or diabetic disorder. An analysis includes the parameters of matching for BMI and Tanner stage. Receiver-operator characteristic (ROC) curves were established to assess association of the biomarkers with a disease.

Abstract: The present invention provides antigen-specific, tolerance-inducing microparticles for the targeted delivery of therapeutic agents to immune cells. In addition, the present invention allows for sustained release of therapeutic agents for a prolonged period of time. Also provided are therapeutic uses of the present invention for the prevention and/or treatment of immune diseases and autoimmune disorders. In a specific embodiment, the present invention provides treatment for type 1 diabetes.

Abstract: Isolated Lactobacillus strains are useful in preventing or delaying the development of Type 1 Diabetes (T1D). A probiotic composition comprising the Lactobacillus strains and use of the composition in T1D prevention are provided.

Abstract: Biomarkers that are diagnostic of type 1 diabetes, type 2 diabetes and/or diabetic disorder are identified. Detection of different biomarkers of the invention are also diagnostic of the degree of severity of type 1 diabetes, type 2 diabetes and/or diabetic disorder. An analysis includes the parameters of matching for BMI and Tanner stage. Receiver-operator characteristic (ROC) curves were established to assess association of the biomarkers with a disease.