| Patent Name:Antiviral composition comprising glycine amide |
| Country:[SE] |
Patent ID:[7,012,129] |
| Remarks: |
Embodiments relate to the discovery that certain tripeptide amides and glycine amide can be used to inhibit viral infection, including human immunodeficiency virus (HIV) infection. More specifically, medicaments comprising said tripeptide amides and/or glycine amide and methods of using said compounds for the prevention and treatment of viral infection, such as HIV infection, are provided. |
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| Patent Name:Biochemically balanced peritoneal dialysis solutions |
| Country:[US] |
Patent ID:[7,011,855] |
| Remarks: |
A peritoneal dialysis solution that is biochemically balanced to correct metabolic acidosis associated with chronic renal failure in a more physiological manner. The peritoneal dialysis solution has a physiological pH, e.g., pH of 7.0 to 7.4, and contains bicarbonate at a concentration that is found in normal blood. Additionally, the solution contains carbon dioxide at a partial pressure that is similar to partial pressure of carbon dioxide found in normal blood. The peritoneal dialysis solution also contains a weak acid with a pKa of less than 5.0. |
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| Patent Name:Sulfonamide derivatives of 3-substituted imidazol[1,2-d]-1,2,4-thiadiazole- s and 3-substituted-[1,2,4] thiadiazolo[4,5-a] benzimidazole as inhibitors of fibrin cross-linking and transglutaminases |
| Country:[US] |
Patent ID:[US20030225007] |
| Remarks: |
A method of inhibiting the activity of transglutaminases containing a cysteine residue comprising administering to a mammal an effective amount of a sulfonamide derivative of imidazo[1,2-d]-1,2,4-thiadiazoles sufficient to inhibit the activity. |
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| Patent Name:Composition containing a peptide and a pigment and the use thereof in darkening the skin |
| Country:[US] |
Patent ID:[6,797,697] |
| Remarks: |
The present invention relates to compositions containing a peptide(s) and a pigment(s) and the use of such peptides or such compositions in darkening the skin. |
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| Patent Name:Partially fluorinated polymer coated development electrodes |
| Country:[US] |
Patent ID:[721626] |
| Remarks: |
An apparatus for reducing accumulation of toner from the surface of an electrode member in a development unit of an electrostatographic printing apparatus by providing a coating having a polymer with a partly fluorinated polymer on at least a portion of the electrode member. |
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| Patent Name:Blood glucose level control |
| Country:[US] |
Patent ID:[914889] |
| Remarks: |
A pancreatic controller (102), comprising: a glucose sensor (118), for sensing a level of glucose or insulin in a body serum; at least one electrode (110, 112), for electrifying an insulin producing cell or group of cells; a power source (104) for electrifying said electrode with a pulse that does not initiate an action potential in said cell and has an effect of increasing insulin secretion; and a controller (106) which receives the sensed level and controls said power source to electrify said electrode to have a desired effect on said level. |
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| Patent Name:Device and method for determining the stability of substances and formulations |
| Country:[US] |
Patent ID:[480878] |
| Remarks: |
The invention relates to a novel device for determining the physical and chemical stability of substances and formulations by means of samples. Said device is provided with a vibration spectrometer, a container (1) for storing the samples in controlled conditions, a robot (10) for transporting the samples between the vibration spectrometer (12) and the container, and a computer (13) for controlling the processes and for automatically storing and evaluating the spectra of the samples received by the vibration spectrometer. |
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| Patent Name:Method for accurately estimating pKa of molecules using atom type definitions and partial least squares |
| Country:[US] |
Patent ID:[626099] |
| Remarks: |
A computer implemented software method enables the prediction of the pKa of an arbitrary molecule based upon a knowledge of the molecular structure of that molecule and a statistical analysis of the molecular structures of a group of molecules (training set) for which the pKa is known. Hierarchical atom connectivity trees are constructed for the training set and the various atoms types identified in each molecule are associated in a bit string for that molecule and also associated with the experimentally determined pKa for that molecule. PLS analysis of the training set data yields coefficients associated with each atom type represented in the bit strings. A hierarchical atom connectivity tree may then be constructed for the molecule of interest. The predicted pKa is determined by multiplying the number of occurrences of each atom type in the molecule of interest by the PLS coefficient determined for that atom type and summing the resulting multiplications. |
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| Patent Name:Nanoporous membrane reactor for miniaturized reactions and enhanced reaction kinetics |
| Country:[US] |
Patent ID:[047438] |
| Remarks: |
Reactors and methods for miniaturized reactions having enhanced reaction kinetics. In particular the subject matter is directed to chemical and biological reactions conducted in a nanoporous membrane environment. The subject matter contemplates methods for modifying the kinetics of reactions and devices for conducting reactions having modified kinetics. The subject matter also provides systems for rapid miniaturized reactions. Further the subject matter includes methods and kits for conducting a reaction with enhanced throughput and methods of conducting miniaturized, high throughput analyses of reaction products, and the like. Reactions performed on or within a nanoporous membrane exhibits improved kinetic characteristics. |
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| Patent Name:Production method of detergent and producing apparatus |
| Country:[JP] |
Patent ID:[US2004250323] |
| Remarks: |
Inventor: ARAI KAZUYOSHI (JP); SEO TOMOKI (JP); MIYAMAE KAZUHIRO (JP)
ABSTRACT:
Detergent producing apparatus including an electrolysis cell having an anode chamber and a cathode chamber and a diaphragm for separating the two, a solution tank for making a solution by dissolving at least one carbonate and bicarbonate of alkali metal in water, a first mechanism for supplying a solution in the solution tank at least to the anode chamber of the electrolysis cell; and a mechanism for mixing after completion of the electrolysis anode water and cathode water respectively generated in the anode chamber and the cathode chamber to make mixed electrolytic water. |
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