Abstract: Methods and compositions for treating hyperglycemia and pancreatic damage as well as stimulating the repair or regeneration of islet cells are disclosed.
Abstract: A surface coil array comprises a surface coil support and an arrangement of non-overlapping magnetically decoupled surface coils mounted on the support. The surface coils encompass a volume into which a target to be imaged is placed. Magnetic decoupling circuits act between adjacent surface coils. Impedance matching circuitry couples the surface coils to conventional transmit and receive components.
Abstract: The present invention relates to therapeutic use of a combination of Myxoma virus, including in combination with rapamycin. Treatment with rapamycin enhances the ability of Myxoma virus to selectively infect cells that have a deficient innate anti-viral response, including cells that are not responsive to interferon. The combination of rapamycin and Myxoma virus can be used to treat diseases characterized by the presence of such cells, including cancer. The invention also relates to therapeutic use of Myxoma virus that does not express functional M135R.
Type:
Application
Filed:
March 6, 2006
Publication date:
February 5, 2009
Applicant:
ROBARTS RESEARCH INSTITUTE
Inventors:
Grant McFadden, John Barrett, Marianne Stanford
Abstract: Methods and compositions for treating hyperglycemia and pancreatic damage as well as stimulating the repair or regeneration of islet cells are disclosed.
Type:
Application
Filed:
July 29, 2003
Publication date:
June 29, 2006
Applicants:
ASAHI KASEI KABUSHIKI KAISHA, ROBARTS RESEARCH INSTITUTE
Abstract: This disclosure provides a system for minimizing the alloreactivity of tissue transplants. The patient is administered with undifferentiated embryonic stem cells or early progenitor cells. This induces a state of inflammatory quiescence or immune unresponsiveness, which in turn enhances engraftment of cells derived from the same stem cell line given for purposes of regenerative medicine.
Type:
Application
Filed:
September 24, 2004
Publication date:
December 22, 2005
Applicants:
The Robarts Research Institute, Geron Corporation
Abstract: A method for determining tissue type includes quantitatively determining a tissue blood flow (TBF) by deconvoluting Q(t) and Ca(t), where Q(t) represents a curve of specific mass of contrast, and Ca(t) represents an arterial curve of contrast concentration, and quantitatively determining a tissue blood volume (TBV) by deconvoluting Q(t) and Ca(t). The method also includes quantitatively determining a tissue mean transit time (TMTT) by deconvoluting Q(t) and Ca(t), and quantitatively determining a tissue capillary permeability surface area product (TPS) by deconvoluting Q(t) and Ca(t). The method also includes determining a tissue type based on the TBF, the TBV, the TMTT, and the TPS.
Abstract: This invention provides a system for producing cells of the hematopoietic lineage from embryonic stem cells. Differentiation is conducted in the presence of hematogenic cytokines and other factors listed in the disclosure. The cell population that is obtained is remarkably enriched in CD45 +ve cells, a marker of early hematopoietic precursor with self-renewing capacity. Including a bone morphogenic protein during the differentiation process enhances the ability of the cell population to form secondary colonies. Because of the enormous replicative capacity of embryonic stem cells, this provides an important new commercial source of hematopoietic cells.
Abstract: This invention provides a system for producing cells of the hematopoietic lineage from embryonic stem cells. Differentiation is conducted in the presence of hematogenic cytokines and other factors listed in the disclosure. The cell population that is obtained is remarkably enriched in CD45 +ve cells, a marker of early hematopoietic precursor with self-renewing capacity. Including a bone morphogenic protein during the differentiation process enhances the ability of the cell population to form secondary colonies. Because of the enormous replicative capacity of embryonic stem cells, this provides an important new commercial source of hematopoietic cells.
Abstract: This invention provides a system for producing cells of the hematopoietic lineage from embryonic stem cells. Differentiation is conducted in the presence of hematogenic cytokines and other factors listed in the disclosure. The cell population that is obtained is remarkably enriched in CD45 +ve cells, a marker of early hematopoietic precursor with self-renewing capacity. Including a bone morphogenic protein during the differentiation process enhances the ability of the cell population to form secondary colonies. Because of the enormous replicative capacity of embryonic stem cells, this provides an important new commercial source of hematopoietic cells.