Dr. Yang graduated from the SUNY Downstate Medical Center College of Medicine in 1996. He works in San Bernardino, CA and specializes in Internal Medicine. Dr. Yang is affiliated with Community Hospital Of San Bernardino and Redlands Community Hospital.
Robert K. Yang - Flushing NY 11355 Alex J. Phinn - Bristol PA 19007
International Classification:
G01N 3300
US Classification:
73 38
Abstract:
A system including methods and apparatus for measuring properties of a material, such as surface tension, surface energy, absorption, adsorption, permeability, porosity and printability and the like. A chemical marker containing test liquid is applied to the material and excess test liquid not retained by the material is removed. Thereafter, either the removed test liquid or the test liquid retained by the material is analyzed to determine the amount of chemical marker substance in the test liquid and, thus, the desired property of the material.
Robert K. Yang - Flushing NY, US Richard C. Fuisz - McLean VA, US Gary L. Myers - Kingsport TN, US Joseph M. Fuisz - McLean VA, US
Assignee:
MonoSol Rx, LLC - Portage IN
International Classification:
B29C 47/88
US Classification:
26421112, 264260, 264234
Abstract:
The invention relates to film products containing desired levels of active components and methods of their preparation. Desirably, the films disintegrate in water and may be formed by a controlled drying process, or other process that maintains the required uniformity of the film. Desirably, the films may be exposed to temperatures above that at which the active components typically degrade without concern for loss of the desired activity.
Thin Film With Non-Self-Aggregating Uniform Heterogeneity And Drug Delivery Systems Made Therefrom
Robert K. Yang - Flushing NY, US Richard C. Fuisz - McLean VA, US Gary L. Myers - Kingsport TN, US Joseph M. Fuisz - McLean VA, US
Assignee:
MonoSol Rx, LLC - Portage IN
International Classification:
B32B 43/00 B29D 7/01
US Classification:
26417219, 264212, 264217
Abstract:
The invention relates to the film products and methods of their preparation that demonstrate a non-self-aggregating uniform heterogeneity. Desirably the films disintegrate in water and may be formed by a controlled drying process, or other process that maintains the required uniformity of the film.
Polyethylene Oxide-Based Films And Drug Delivery Systems Made Therefrom
Robert K. Yang - Flushing NY, US Richard C. Fuisz - McLean VA, US Gary L. Myers - Kingsport TN, US Joseph M. Fuisz - McLean VA, US
Assignee:
MonoSol Rx, LLC - Portage IN
International Classification:
B29C 39/14
US Classification:
26417219, 264212, 264234, 264319, 264344
Abstract:
The invention relates to the film products and methods of their preparation that demonstrate a non-self-aggregating uniform heterogeneity. Desirably, the films disintegrate in water and may be formed by a controlled drying process, or other process that maintains the required uniformity of the film. The films contain a polymer component, which includes polyethylene oxide optionally blended with hydrophilic cellulosic polymers. Desirably, the films also contain a pharmaceutical and/or cosmetic active agent with no more than a 10% variance of the active agent pharmaceutical and/or cosmetic active agent per unit area of the film.
Method Of Making Self-Supporting Therapeutic Active-Containing Film
The invention relates to film products containing desired levels of active components and methods of their preparation. Desirably, the films disintegrate in water and may be formed by a controlled drying process, or other process that maintains the required uniformity of the film. Desirably, the films may be exposed to temperatures above that at which the active components typically degrade without concern for loss of the desired activity.
Polyethylene-Oxide Based Films And Drug Delivery Systems Made Therefrom
The invention relates to the film products and methods of their preparation that demonstrate a non-self-aggregating uniform heterogeneity. Desirably, the films disintegrate in water and may be formed by a controlled drying process, or other process that maintains the required uniformity of the film. The films contain a polymer component, which includes polyethylene oxide optionally blended with hydrophilic cellulosic polymers. Desirably, the films also contain a pharmaceutical and/or cosmetic active agent with no more than a 10% variance of the active agent pharmaceutical and/or cosmetic active agent per unit area of the film.
Polyethylene Oxide-Based Films And Drug Delivery Systems Made Therefrom
Robert K. Yang - Flushing NY, US Richard C. Fuisz - McLean VA, US Garry L. Myers - Kingsport TN, US Joseph M. Fuisz - Washington DC, US
Assignee:
MonoSol Rx, LLC - Portage IN
International Classification:
A61K 9/14
US Classification:
424484, 424486, 424488, 424434, 424435
Abstract:
The invention relates to the film products and methods of their preparation that demonstrate a non-self-aggregating uniform heterogeneity. Desirably, the films disintegrate in water and may be formed by a controlled drying process, or other process that maintains the required uniformity of the film. The films contain a polymer component, which includes polyethylene oxide optionally blended with hydrophilic cellulosic polymers. Desirably, the films also contain a pharmaceutical and/or cosmetic active agent with no more than a 10% variance of the active agent pharmaceutical and/or cosmetic active agent per unit area of the film.
Stabilization Method And Composition Utilizing An Amphoteric Polymer
A method for increasing the stability of a food-grade or pharmaceutical-grade liquid, such as an extracted oil, herbal extract, flavor, color, or volatile chemical component used in the flavor industry, is provided. The method comprises mixing the liquid with an amphoteric polymer, preferably polyvinylpyrrolidone, to thereby infuse the liquid into the amphoteric polymer matrix and form a generally-solid, stabilized product. Optionally, bulking agents, absorbents, and flowing agents can be mixed with the liquid and amphoteric polymer to enhance the properties of the stabilized product. The inventive method is particularly useful for entrapping liquids that are highly volatile, heat sensitive and/or easily oxidizable.
Nayebi is the lead author of one of the studies, co-authored with Rishi Rajalingham, a former MIT postdoc now at Meta Reality Labs, and senior authors Mehrdad Jazayeri, an associate professor of brain and cognitive sciences and a member of the McGovern Institute for Brain Research; and Robert Yang,