Patent application number | Description | Published |
20110070291 | FOOD OR BEVERAGE COMPOSITION FORTIFIED WITH THYRONAMINES AND/OR THYRONAMINE PRECURSORS - Food or beverage compositions fortified with thyronines and/or thyronamines, processes for increasing T2, T1AM, and/or T0AM in a subject by administering a food or beverage composition that is fortified with at least one thyronine and/or thyronamine compound, and processes for promoting a healthy state by administering a food or beverage composition to a subject that is fortified with at least one thyronine and/or thyronamine compound. Increased levels of T2, T1AM, and/or T0AM in a subject can be associated with at least one of healthy cholesterol levels, healthy triglyceride levels, healthy blood sugar levels, cardiovascular health, healthy sleep patterns, healthy mood, healthy skin, healthy nails, or healthy endocrine function and/or a number of other markers of associated with general health and well-being. | 03-24-2011 |
20120065267 | COMPOSITIONS INCLUDING 3,5-L-T2 AND METHODS OF USE THEREOF - Compositions containing 3,5-L-T2 ((2S)-2-amino-3-[4-(4-hydroxyphenoxy)-3,5-diiodophenyl]propanoic acid) and methods for use thereof. Among other functions presented herein, 3,5-L-T2 can lower cholesterol via a mechanism that is independent of LDL receptor function. Disclosed compositions may include one or more additional active agents, such as, but not limited to, thyroid hormones other than 3,5-L-T2, cholesterol lowering agents, anti-diabetes agents, anti-hypertensives, vasodilators, inotropic agents, anti-coagulants, anti-anginals, anti-arrhythmics, leptin, leptin analogues, and adipokines, a vitamin and mineral composition. Disclosed methods include, but are not limited to, methods for treating hypercholesterolemia in a subject, and methods for treating at least one of metabolic syndrome, hypothyroidism, or thyroid suppression. | 03-15-2012 |
20130244339 | DEVICE AND METHOD FOR PERFORMING A DIAGNOSTIC TEST - A device and method for performing a point of care diagnostic test for detecting and quantifying at least one analyte in a biological sample (e.g., a body fluid). A device may include an immunoassay apparatus and a holder with an adjustable variable angle stage for positioning the immunoassay apparatus relative to a light source and a detector device so as to optimize the angle of incidence and angle of radiation to optimize an elastic light scattering signal from the immunoassay apparatus. The elastic light scattering signal may be used to quantify the amount of the analyte(s) of interest present in the sample. The device is based upon elastic light scattering, so the variation in the angle of incidence and angle of reflection are optimized to maximize signal generation due to elastic light scattering. | 09-19-2013 |
20140018426 | FOOD OR BEVERAGE COMPOSITION FORTIFIED WITH THYRONAMINES AND/OR THYRONAMINE PRECURSORS - Food or beverage compositions fortified with thyronines and/or thyronamines, processes for increasing T2, T1AM, and/or T0AM in a subject by administering a food or beverage composition that is fortified with at least one thyronine and/or thyronamine compound, and processes for promoting a healthy state by administering a food or beverage composition to a subject that is fortified with at least one thyronine and/or thyronamine compound. Increased levels of T2, T1AM, and/or T0AM in a subject can be associated with at least one of healthy cholesterol levels, healthy triglyceride levels, healthy blood sugar levels, cardiovascular health, healthy sleep patterns, healthy mood, healthy skin, healthy nails, or healthy endocrine function and/or a number of other markers of associated with general health and well-being. | 01-16-2014 |
20140213468 | DEVICE AND METHOD FOR PERFORMING A DIAGNOSTIC TEST - Devices and methods for performing a point of care diagnostic test for detecting and quantifying at least one analyte in a biological sample. The device may include an immunoassay apparatus and a holder with a variable angle stage for positioning the immunoassay apparatus relative to a light source and a detector device. In one embodiment, the device is based upon elastic light scattering, so the variation in the angle of incidence and angle of reflection are optimized to maximize signal generation due to elastic light scattering. The detector device may include a wired or wireless connection to a computer network for communicating with an electronic medical records system, uploading the amount or concentration of at least one analyte present in the sample to the electronic medical records system, or querying a decision support algorithm stored in a computer readable format. The detector device may further include an onboard interpretive algorithm. | 07-31-2014 |
Patent application number | Description | Published |
20130273524 | DEVICE FOR PERFORMING A BLOOD, CELL, AND/OR PATHOGEN COUNT AND METHODS FOR USE THEREOF - Devices and methods for performing a point of care blood, cell, and/or pathogen count or a similar blood test. Disclosed herein are systems that can be used to provide rapid, accurate, affordable laboratory-quality testing at the point of care. The systems described herein are capable of imaging and counting individual cells in a prepared cell sample (e.g., a peripheral blood smear or a blood sample prepared in a microfluidic device) or another prepared cell-containing sample without the need for a microscope or other expensive and cumbersome optics. The systems described herein are designed to eliminate or replace expensive, centralized clinical testing equipment and technical personnel. Such systems may include automated data reporting and decision support. | 10-17-2013 |
20130273528 | DEVICE FOR PERFORMING A DIAGNOSTIC TEST AND METHODS FOR USE THEREOF - Assay cassettes and testing devices that can be used to provide rapid, accurate, affordable, laboratory-quality testing at the point of care. Such assay cassettes and testing devices are designed to provide rapid, quantitative test results in a point-of-care setting or the like. Likewise, such assay cassettes and testing devices may eliminate or replace expensive, centralized clinical testing equipment and technical personnel. Such testing device may include automated data reporting and decision support. Methods for performing point of care diagnostic tests are also disclosed. | 10-17-2013 |
20130273563 | DEVICE FOR PERFORMING AN ENZYME-BASED DIAGNOSTIC TEST AND METHODS FOR USE THEREOF - Enzyme-based diagnostic testing systems for detecting and quantifying at least one of the activity level or the concentration of an enzyme or a biochemical analyte in a biological sample. Such enzyme-based diagnostic testing systems can provide rapid, accurate, affordable laboratory-quality testing at the point of care. An enzyme-based diagnostic testing system may include a lateral-flow chromatographic assay cassette that is configured for assaying an amount or activity of an enzyme in a sample or for enzymatically determining the concentration of an enzyme substrate in a sample. Additionally, the enzyme-based diagnostic testing systems may include testing devices (e.g., a smartphone or a similar remote computing device) having data collection and data analysis capabilities. Such testing devices may also include automated data reporting and decision support. | 10-17-2013 |
20140170768 | METHOD FOR MONITORING AND ASSESSING PITUITARY FUNCTION - Methods for monitoring pituitary function and for distinguishing Cushing's disease from Cushing's syndrome. The methods includes (1) providing a subject, (2) administering to the subject a daily dosage of a glucocorticoid antagonist, (3) monitoring adrenocorticotropic hormone (“ACTH”) and/or cortisol levels in the subject. Subjects having normal pituitary function typically show an increase in ACTH and/or cortisol levels following glucocorticoid antagonist therapy, while subjects having abnormal pituitary function will typically show no significant change in ACTH or cortisol following glucocorticoid antagonist therapy. Similarly, subjects having Cushing's disease show a significant rise in ACTH and cortisol levels following glucocorticoid antagonist therapy, while, in contrast, subjects having Cushing's syndrome show no significant change in ACTH and/or cortisol following glucocorticoid antagonist therapy. | 06-19-2014 |