By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
A medical container made of polyethylene naphtha late resin, with a wetted portion on the inner surface that is made to be low-eluting via plasma or laser irradiation.
The medical container wherein the irradiation light’s wavelength falls between 350 and 450 nm. The medical container in accordance with claim 1 or claim 2, where the medical container is a barrel or a syringe.
A method of treating a medical container that involves exposing a liquid-contact portion of the polyethylene naphthalate container to light and/or plasma radiation.
The Global medical container Polyethylene Naphtha late (PEN) Resin market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
A barrel or an injector serves as the medical container. The medical container and processing method are the subject of the current invention.
The medical container constructed of polyethylene naphtha late resin and the portion of the inner surface of the container that is in touch with liquid are leached low by plasma and/or light irradiation. The wavelength of radiation light is between 350 and 450 nm.
More specifically, the current invention pertains to a medical container that is outstanding in terms of solvent resistance, low gas permeability, heat resistance, and similar properties, as well as a method for treating the container.
Glass containers have long been used in medicine as standard containers. However, when stored in a state that is chemically filled, a glass container is made of alkali (Na +) in the liquid content of the container.
Elution, the creation of small particles like flakes, the use of colored glass containers for light protection, and the addition of coloring metals to contents like chemicals and food are all examples of elution techniques.
In recent years, the number of ampules that can be opened quickly and simply without the use of special tools or the “easy-cut” approach has increased.
However, the cutting process leaves a dangerously sharp section on the sliced surface. The production of glass waste is identical to that of conventional ampoules, and mixing glass waste poses a concern.
