Patent application number | Description | Published |
20080255047 | Method of Treating Acute Renal Failure with Thrombomobulin Variant - The present invention provides a method for preventing and/or treating subjects with acute renal failure caused by a variety of conditions. The method comprises administering to the subject soluble thrombomodulin. In conjunction with standard of care, soluble thrombomodulin will reduce tissue injury and subsequent morbidity and mortality. | 10-16-2008 |
20090234205 | METHOD AND APPARATUS FOR KIDNEY FUNCTION ANALYSIS - A method and apparatus for determining physiological data related to an animal, such as kidney diagnostics data, is provided. The method includes injecting a mixture of a first and a second molecule into an animal (e.g., a human patient), determining a molecular ratio of the molecules, and determining the physiological data based on the molecular ratio. The apparatus includes a number of finger receiving apertures, a light generation circuit, a light detection circuit, a pulse counting circuit, and a user interface. | 09-17-2009 |
20100087368 | TREATING ACUTE RENAL FAILURE WITH SOLUBLE THROMBOMODULIN VARIANTS - The present invention provides a method for preventing and/or treating subjects with acute renal failure caused by a variety of conditions. The method comprises administering to the subject soluble thrombomodulin which does not activate Protein C. In conjunction with standard of care, soluble thrombomodulin that does not activate Protein C will prevent or reduce acute kidney injury and subsequent morbidity and mortality. | 04-08-2010 |
20100204171 | MATERIALS AND METHODS FOR TREATING DISEASES CAUSED BY GENETIC DISORDERS USING AMINOGLYCOSIDES AND DERIVATIVES THEREOF WHICH EXHIBIT LOW NEPHROTOXICITY - Various aspects related to the preparation of congeners of the aminoglycosides gentamicin such as the congener C2 and using this compound or derivatives thereof and pharmaceutically active salts to treat diseases that involve genetic mutations which introduce a missense or premature stop codon into a gene. Still other aspects include treating human or animal patients with the gentamicin congener C2 and derivatives and pharmaceutical salt thereof to overcome, or to at least mitigate, the symptoms of disease and disorders such as some forms of Becker's or Duchenne muscular dystrophy, Hurler's Syndrome and Cystic Fibrosis that have as their etiology the presence of a premature stop codon in a gene whose proper expression is necessary for good health. | 08-12-2010 |
20120157398 | MATERIALS AND METHODS FOR TREATING DISEASES CAUSED BY GENETIC DISORDERS USING AMINOGLYCOSIDES AND DERIVATIVES THEREOF WHICH EXHIBIT LOW NEPHROTOXICITY - Various aspects related to the preparation of congeners of the aminoglycosides gentamicin such as the congener C2 and using this compound or derivatives thereof and pharmaceutically active salts to treat diseases that involve genetic mutations which introduce a missense or premature stop codon into a gene. Still other aspects include treating human or animal patients with the gentamicin congener C2 and derivatives and pharmaceutical salt thereof to overcome, or to at least mitigate, the symptoms of disease and disorders such as some forms of Becker's or Duchenne muscular dystrophy, Hurler's Syndrome and Cystic Fibrosis that have as their etiology the presence of a premature stop codon in a gene whose proper expression is necessary for good health. | 06-21-2012 |
20120276014 | MEASUREMENT OF BODY FLUID VOLUMES - The present invention is related generally to measurement of body fluid volumes in an animal subject. The body fluid volumes of interest include extracellular fluid volume (ECFV), total vascular plasma volume (TVPV) and interstitial fluid volume (IFV). The methods are especially beneficial for subjects suffering from renal failure and particularly those undergoing renal dialysis. ECFV can be measured by administering a first molecule which is non-metabolized and permeable to vessel walls of the vascular system wherein the first molecule is distributed within the total vascular space as well as the interstitial space. TVPV can be measured by administering a second molecule which is non-metabolized and impermeable to vessel walls of the vascular system wherein the second molecule is distributed within only the vascular space. IFV can then be calculated using the equation IFV=ECFV−TVPV. | 11-01-2012 |
20130101518 | METHOD AND APPARATUS FOR KIDNEY FUNCTION ANALYSIS - A method and apparatus for determining physiological data related to an animal, such as kidney diagnostics data, is provided. The method includes injecting a mixture of a first and a second molecule into an animal (e.g., a human patient), determining a molecular ratio of the molecules, and determining the physiological data based on the molecular ratio. The apparatus includes a number of finger receiving apertures, a light generation circuit, a light detection circuit, a pulse counting circuit, and a user interface. | 04-25-2013 |
20140193343 | MEASUREMENT OF BODY FLUID VOLUMES - The present invention is related generally to measurement of body fluid volumes in an animal subject. The body fluid volumes of interest include extracellular fluid volume (ECFV), total vascular plasma volume (TVPV) and interstitial fluid volume (IFV). The methods are especially beneficial for subjects suffering from renal failure and particularly those undergoing renal dialysis. ECFV can be measured by administering a first molecule which is non-metabolized and permeable to vessel walls of the vascular system wherein the first molecule is distributed within the total vascular space as well as the interstitial space. TVPV can be measured by administering a second molecule which is non-metabolized and impermeable to vessel walls of the vascular system wherein the second molecule is distributed within only the vascular space. IFV can then be calculated using the equation IFV=ECFV−TVPV. | 07-10-2014 |
20140301952 | MEASUREMENT OF BODY FLUID VOLUMES - The present invention relates generally to measurement of body fluid volumes in an animal subject. The body fluid volumes of interest include extracellular fluid volume (ECFV), total vascular plasma volume (TVPV) and interstitial fluid volume (IFV). The methods are especially beneficial for subjects suffering from renal failure and particularly those undergoing renal dialysis. ECFV can be measured by administering a first molecule which is non-metabolized and permeable to vessel walls of the vascular system, wherein the first molecule is distributed within the total vascular space as well as the interstitial space. TVPV can be measured by administering a second molecule which is non-metabolized and impermeable to vessel walls of the vascular system, wherein the second molecule is distributed within only the vascular space. IFV can then be calculated using the equation IFV=ECFV−TVPV. | 10-09-2014 |