Sheaths of material having improved surface barriers

Coating processes – Medical or dental purpose product; parts; subcombinations;... – Fluid barrier or fluid transporting product – other than...

Reexamination Certificate

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C427S248100, C427S255390

Reexamination Certificate

active

06632471

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates generally to sheaths for the human body. More specifically, the invention relates to protective sheaths which have been treated to enhance the surface barrier properties.
2. Prior Art
The human body and parts thereof are sometimes exposed to harmful agents such as chemicals, viruses, bacteria and other materials capable of causing injury or illness. To reduce the opportunity for injury or illness, a protective sheath or garment may be placed over parts of the body which are exposed to such harmful agents. For example, a mask and/or gloves may be worn by a person who is going to be exposed to dangerous chemicals, viruses, bacteria and other potentially harmful materials.
A glove is an example of a sheath which is ergonomically shaped to cooperate with the human hand, and offers protection by forming a barrier between the hand and harmful agents. Similarly, a condom is a sheath which is ergonomically shaped to cooperate with the penis, and forms a protective barrier against transfer both ways through the condom of fluids and pathogens. It thus prevents transfer of semen and viral matter, e.g., the human immunodeficiency virus (HIV), from the penis into a vagina, and also prevents transfer of fluids and viral matter from the vagina to the penis.
Unfortunately, the effectiveness of a conventional glove or condom in blocking transmission of HIV is not perfect. Because the human immunodeficiency virus is very small, it can pass through high quality latex rubber gloves or condoms, not only through microscopic holes which may exist in the glove or condom, but also by natural penetration or migration through the latex material matrix, which is necessarily porous.
Thus, in order to improve the barrier properties of materials such as latex and silicone rubber, these materials are sometimes treated or modified. This is accomplished in the prior art by forming a lining or coating on the surface of the material. In this way, the beneficial properties associated with latex, e.g., ease of use, low cost and tactile feel, are combined with the improved barrier protection offered by linings or coatings.
For instance, it is possible to place a thin layer of oil or inert powder on a glove to improve its efficacy, or acetate can be used to form a layer on gloves. Each of these added materials offers some improvement in the function of the gloves, but are relatively expensive and introduce foreign material to the glove.
One prior art method of treating gloves is disclosed in U.S. Pat. No. 3,992,221 to HOMSY et al. In this patent, a fluorinating gas is introduced into the glove during manufacture to improve its lubricity. As set forth in column 5, lines 49-52, the treatment must be carried out while the glove is extended by at least 10%, or the desired changes do not occur. There is no mention in this patent of improving the barrier properties of the glove. Instead, the object of the patent is to manufacture a glove having improved lubricity without the use of lubricating or donning powder that is typically used in gloves.
U.S. Pat. No. 5,780,112 to PUGH et al. discloses another method of making a powder-free latex glove, wherein the glove is contacted with a reaction mixture comprising effective amounts of water, an aqueous emulsion comprising a high-density, substantially linear hydrocarbon polymer, and an acid-activated oxidizing agent or initiator, and an effective amount of acid to activate the oxidizing agent or initiator. The reaction is stopped after the appropriate time by introducing a stopping agent, and then neutralized by contacting the article with a neutralizing mixture comprising water and a base. This is a relatively complex and expensive process, and there is no mention of improving the barrier properties of the glove.
In U.S. Pat. No. 4,935,260 to SCHLENKER, a thin chemical barrier is applied to a suit, glove, condom or other sheath to act as a barrier against harmful agents.
Although adding layers of material can be useful in forming or improving the barrier properties of protective sheaths, other methods of treatment or modification of the surface characteristics of rubber or plastic articles are also known. For instance, plastic bottles are sometimes briefly subjected to a flame to alter the surface to improve its characteristics for printing processes.
U.S. Pat. No. 5,671,754 to SCHMUKLER discloses a process in which a condom is charged with electrostatic forces that tend to repel viral material. Although this approach may show some positive effects on improving barrier protection, the cost and complexity may be excessive for use on relatively inexpensive items such as condoms or gloves. In addition, the use of charged particles in connection with condoms presents prospective difficulties relating to electroshock of sensitive parts of the body.
Other known processes for treating materials to improve their performance involves the exposure of the material to a volatile agent which operates to change the surface property and porosity of the material. For instance, plastic bottles are sometimes used to contain solvents whose volatile components are aggressive and may penetrate the wall of the bottle. The alcohol in hairspray, for example, tends to leach through or “boil off” through the plastic. The performance of these bottles may be improved by reducing the surface porosity. This can be accomplished by exposing the surface of the plastic to fluorine gas, which reacts with the plastic to smooth the surface and block access to large pores in the material. Bottles treated in this way are more effective at containing strong solvents and also at preventing migration of materials into the bottle through the wall.
In spite of the existence in the prior art of various processes for treating materials, including gloves and condoms, to improve their barrier properties or to improve lubricity, there remains a need for an inexpensive system and method for treating protective sheaths such as gloves and condoms to improve their barrier properties and resistance to transmission of harmful chemicals and pathogens without the need for applying a separate material layer.
SUMMARY OF THE INVENTION
The present invention is an inexpensive process for treating protective sheaths such as gloves and condoms to improve their barrier properties and resistance to transmission of harmful chemicals and pathogens without the need for applying a separate material layer to the sheath.
The invention includes conventionally manufactured sheaths made of conventional materials, for use in protection of human tissue from exposure or contact with harmful agents, wherein the sheaths are treated with a low level of reactive gas to improve their surface barrier properties.
Articles such as gloves and condoms made of latex rubber are particularly improved by subjecting the article to an environment of a reactive gas such as fluorine, which operates on the latex or other materials to modify the surface of the material to form a greatly improved barrier without the potential problems associated with prior art devices and methods which add layers of foreign material to a base material, or which involve expensive washing procedures and expose the article to a reactive agent in liquid form.
In accordance with the invention, a condom or glove may be manufactured in a conventional process and then subjected to the treatment of the invention. Although the invention is particularly described herein as applied to articles made of latex, e.g., gloves and condoms, many alternative materials are suitable for manufacture of gloves and condoms, and the invention is not necessarily limited to the treatment of articles made from latex.
In the treatment process of the invention, an article is exposed to an environment of reactive gas, i.e., a halogen gas, in suitable concentration, for a suitable period of time, to achieve the desired results. The reactive gas interacts with the material from which the article is made to modify the surface structure of the mater

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