Daniel G Moro

Title: The Innovative Contributions of Daniel G Moro

Introduction

Daniel G Moro is a notable inventor based in Randolph, NJ (US), recognized for his significant contributions to the field of hydrophilic composite polymers. With a total of six patents to his name, Moro has developed innovative solutions that have practical applications, particularly in the medical field.

Latest Patents

Moro's latest patents include the development of hydrophilic composite polymer articles formed from a settable paste. These articles consist of at least one hydrophilic polymer in powder form and one or more liquid components, with at least one being hydrophilic. The composition is produced from a homogeneously mixed paste that can be molded or cast into a desired shape, which subsequently sets. The resulting articles possess a shape-retaining, non-tacky flexible consistency, allowing for further modifications if necessary. These objects can be cured using conventional methods to retain their shape permanently. The final properties of the composite can be tailored for specific applications by incorporating fillers or modifiers. In the medical field, these articles can serve as sustained release devices, capable of being loaded with therapeutic drugs. They can be designed to be non-toxic and biocompatible, making them suitable for use as prosthetic devices. Additionally, the final cured articles can be modified through polishing, drilling, or cutting. When exposed to moisture or a humid environment, the articles become partially hydrated, resulting in a softer surface while maintaining good mechanical strength.

Another significant patent involves the manufacture of water-swellable hydrophilic articles and drug delivery systems. This method prepares a hydrophilic plastic cartridge by centrifugally casting polymerizable hydrophilic material in a rotating polymerization tube. The speed of rotation causes radial outward displacement of the polymerizable material, which, upon assuming a predetermined shape within the tube, is polymerized to achieve a solid configuration. The resulting plastic cartridges feature smooth, unscored internal and external cylindrical surfaces and are utilized as rate-limiting membranes in drug delivery devices. Sterilized kits containing a disposable needle or trocar-like instrument and the drug delivery device are designed for subcutaneous implantation in an animal body.

Career Highlights

Throughout his career, Daniel G Moro has worked with various organizations, including the National Patent Development Corporation and Hydro Med Science Division of National Patent Development Corporation. His work has significantly impacted the development of innovative medical devices and drug delivery systems.

Collaborations