Remedy Pharmaceuticals, Inc. Patent applications |
Patent application number | Title | Published |
20140080811 | Treatment of Alzheimer's Disease Using Compounds that Reduce the Activity of Non-Selective CA++ Activated ATP-Sensitive Cation Channels Regulatd by SUR1 Channels - NSC antagonists are disclosed as useful in the treatment of dementia, in delaying the onset of dementia, and in the prevention of dementia. Dementia so treated may be, for example, Alzheimer's Disease (AD). NSC antagonists for treating dementia such as AD may be administered alone, a) in combination with other drugs used for treating dementia, b) in combination with drugs that stabilize or increase blood plasma glucose levels, or with both a) and b). Pharmaceutical compositions, dosage forms, and methods for using the same are disclosed, which include NSC antagonists, NSC antagonists combined with dementia drugs, NSC antagonists combined with glucose-level stabilizing or enhancing drugs, or combinations of these. Dosage forms may be designed to provide stable plasma levels for extended periods of time. Exemplary pharmaceutical compositions include compositions including glibenclamide and memantine; glibenclamide and donepezil; tolbutamide and memantine; tolbutamide and donepezil; and these compositions further including glucagon and/or glucose. | 03-20-2014 |
20130245069 | FORMULATIONS AND METHODS FOR LYOPHILIZATION AND LYOPHILATES PROVIDED THEREBY - The present invention provides compositions, methods for lyophilizing compounds and making pharmaceutical compositions, and kits providing solutions and lyophilized formulations of compounds. The compositions, methods, and kits are particularly useful in pharmaceutical applications involving therapeutic agents that have low solubility at low pH and medium pH values. Certain embodiments provide methods for lyophilizing compounds in liquid solutions, which include the steps of: a) preparing aqueous solutions of a compound of interest in the absence of buffer; b) adjusting the pH to high values of pH in order to increase the solubility of the compound of interest; and c) freeze-drying the solution to provide a lyophilized solid composition. Aqueous solutions including buffer are also disclosed. Lyophilized formulations, including micronized and non-micronized powders, are provided. | 09-19-2013 |
20130203853 | METHODS OF INTRAVENOUS ADMINISTRATION OF GLYBURIDE AND OTHER DRUGS - Methods of administering glyburide, or other drug, are disclosed. The novel methods disclosed herein include intravenous methods of administering glyburide, or other drug, over periods of more than an hour, preferably over periods of about 72 hours. The novel methods include administering a bolus of glyburide, or other drug, followed by a first continuous infusion administration of glyburide, or other drug; and optionally a second or further bolus administration of glyburide, or other drug, and/or a second or further continuous infusion administration of glyburide, or other drug. These methods are effective to rapidly achieve a desired level of glyburide, or other drug, and to provide a substantially steady level of glyburide, or other drug, over a desired period of time. The methods disclosed herein may be useful for treating a subject in need of treatment for, e.g., acute stroke (ischemic and hemorrhagic), traumatic brain injury (TBI), spinal cord injury (SCI), myocardial infarction (MI), shock (including hemorrhagic shock), organ ischemia, and ventricular arrhythmias. These methods provide for the rapid achievement and maintenance of therapeutic glyburide, or other drug, plasma levels over an extended period of time, and further avoid excessive levels of drug and so avoid possible drug side-effects. | 08-08-2013 |