Stock material or miscellaneous articles – Hollow or container type article – Polymer or resin containing
Reexamination Certificate
2000-06-29
2002-03-26
Kiliman, Leszek (Department: 1773)
Stock material or miscellaneous articles
Hollow or container type article
Polymer or resin containing
C428S036700, C428S332000, C428S343000, C428S474400, C428S476300, C428S500000, C428S515000, C428S518000
Reexamination Certificate
active
06361843
ABSTRACT:
TECHNICAL FIELD
The present invention relates generally to multilayered polymeric structures for fabricating medical grade products and more specifically five-layered structures for fabricating medical solution containers and medical tubings.
BACKGROUND PRIOR ART
In the medical field, where beneficial agents are collected, processed and stored in containers, transported, and ultimately delivered through tubes by infusion to patients to achieve therapeutic effects, materials which are used to fabricate the containers must have a unique combination of properties. For example, in order to visually inspect solutions for particulate contaminants, the container must be optically transparent. To infuse a solution from a container by collapsing the container walls, without introducing air into the container, the material which forms the walls must be sufficiently flexible to collapse upon draining. The material must be functional over a wide range of temperatures. The material must be capable of withstanding radiation sterilization without degrading its physical properties. The material must function at low temperatures by maintaining its flexibility and toughness as some medical solutions, and blood products are stored and transported in containers at temperatures such as −25 to −30° C.
A further requirement is to minimize the environmental impact upon the disposal of the article fabricated from the material after its intended use. For those articles that are disposed of in landfills, it is desirable to use as little material as possible and avoid the incorporation of low molecular weight leachable components to construct the article. Further benefits are realized by using a material which may be recycled by thermoplastically reprocessing the post-consumer article into other useful articles.
For those containers that are disposed of through incineration, it is necessary to use a material that minimizes or eliminates entirely the formation of inorganic acids which are environmentally harmful, irritating, and corrosive, or other products which are harmful, irritating, or otherwise objectionable upon incineration.
For ease of manufacture into useful articles, it is desirable that the material be sealable using radio frequency (“RF”) sealing techniques generally at about 27.12 MHz. Therefore, the material should possess sufficient dielectric loss properties to convert the RF energy to thermal energy.
It is also desirable that the material be free from or have a low content of low molecular weight additives such as plasticizers, slip agents, stabilizers and the like which could be released into the medications or biological fluids or tissues, contaminating such substances being stored or processed in such devices.
In many medical product applications, it is desirable to provide a multilayered structure that provides a barrier to the passage of oxygen, carbon dioxide, and water. For medical solutions that are packaged having a desired concentration of a drug or solute, the barrier to water helps maintain this concentration by preventing water from escaping from the container. In solutions that have a buffer to prevent pH changes, such as a commonly used sodium bicarbonate buffer, the barrier to carbon dioxide helps maintain the buffer by preventing carbon dioxide from escaping from the container. For medical solutions containing labile species, the oxygen barrier helps prevent the ingress of oxygen which can oxidize proteins or amino acids rendering the solution ineffective for its intended purpose.
Ethylene vinyl alcohol (EVOH) is known for use as an oxygen barrier in multilayer films. One commercially available EVOH layered structure is sold by Barrier Film Corporation under the product designation BF-405 for thermoforming into food packaging. It is believed that the BF-405 film has an outer layer of nylon, a core layer of EVOH and an inner layer of a metallocene-catalyzed ultra-low density polyethylene. These layers are formed into a layered structure or film by a blown film process. This film has an oxygen transmission rate, for a film 2.6 mils in thickness, of 0.05 cc/100 sq.in./24 hrs.
The BF-405 film is unacceptable for medical applications as slip agents must be used during the processing of the film. Such slip agents include low molecular weight components that are soluble in water and are capable of leaching out into the medical solution which it contacts. Thus, if such film were constructed into a medical container and filled with a medical solution, it would likely lead to an unacceptably high extractable content in the contained medical solution.
There are numerous U.S. patents that disclose EVOH barrier films. For example, U.S. Pat. No. 4,254,169 provides barrier films having layers of EVOH and polyolefins. The '169 Patent discloses an adhesive for bonding the EVOH to polyolefins which includes a high density polyethylene grafted with a fused-ring carboxylic acid anhydride blended with an unmodified polyolefin. (Col. 2, line 65-col. 3, line 21). In many of the examples, the '169 Patent discloses adding a slip agent to make the outer surface of the films more slippery. (See Tables I and II and col. 5, lines 35-37).
U.S. Pat. No. 4,397,916 discloses multilayered EVOH structures in which the EVOH is attached to other layers such as polyolefins by a layer of a graft-modified ethylene resin grafted with a carboxylic acid or a functional derivative thereof. The '916 Patent also provides for attaching nitrogen containing polymers such as nylons to polyolefins with the graft modified ethylene resins. The '916 Patent does not discuss limiting low molecular weight additives to reduce the amount of extractables. In fact the '916 encourages the use of slip agents, lubricants, pigments, dyes and fillers (Col. 6, lines 38-42) which could have a deleterious impact on the amount of extractables and on the optical transparency of the polymer blend.
U.S. Pat. No. 5,164,258 discloses a multilayered structure containing EVOH as a barrier layer sandwiched between two layers of polyolefins. The polyolefin layers are intended to facilitate the escape of moisture which becomes absorbed in the barrier layer during a steam sterilization process. The polyolefin layers are attached to the EVOH layer with, for example, a maleic anhydride graft-modified polyethylene adhesive. The '258 Patent discloses increasing the WVTR of one of the polyolefin layers by adding organic and inorganic fillers to the layer. (Col. 4, lines 22-59). These fillers are likely to render the multilayered structure optically opaque.
The present invention is provided to solve these and other problems.
SUMMARY OF THE INVENTION
The present invention provides multilayered, flexible, barrier structures that are suitable for forming medical products. The multiple layer structure comprises
(I) a core layer of a vinyl alcohol copolymer, such as ethylene vinyl alcohol (EVOH), having an ethylene content of from 25-45 mole percent;
(II) a solution contact layer of a polyolefin positioned on a first side of the core layer;
(III) an outer layer positioned on a second side of the core layer opposite the solution contact layer, the outer layer being selected from the group consisting of polyamides, polyesters and polyolefins;
(IV) a tie layer adhered to each of the first and second sides of the core layer and positioned between the solution contact layer and the core layer and between the outer layer and the core layer; and
wherein the structure has a low molecular weight water soluble fraction of the composition of less than 1.0 part per thousand (ppt).
It is also preferred that the multilayered structure have the following physical properties: a mechanical modulus as measured by ASTM D 638 of less than 50,000 psi, more preferably less than 40,000 psi and most preferably from 35,000-40,000 or any range or combination of ranges therein. When fabricated into containers and used to store medical liquids, the total organic carbon that leaches out from the layered structure to the solution is less than 1.0 p
Buchanan Bradley
Ding Y. Samuel
Fan Suchuan C.
Giovanetto Steven
Nebgen Gregg
Baxter International Inc.
Buonaiuto Mark J.
Fuchs Joseph A.
Kiliman Leszek
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