Non-sticky medical tubing

Details Non-sticky medical tubing Non-sticky medical tubing

2001-01-08

2003-06-10

Seidleck, James J. (Department: 1711)

Stock material or miscellaneous articles

Hollow or container type article

Polymer or resin containing

C428S036920, C525S095000, C525S098000, C525S240000, C525S241000

Reexamination Certificate

active

06576310

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a non-sticky tubing that is used as a connecting tube in the medical fields, for instance, infusion solution sets, as extension tubing, tubing for blood circuits, tubing for blood transfusion, joint tubing, tubing for winged needles, and the like.
BACKGROUND OF THE INVENTION
Medical tubing used as connecting tubing for infusion solution sets, blood circuits and the like must be excellent in flexibility, rigidity, transparency and heat resistance. Therefore, soft vinyl chloride resins have heretofore been used as a base material. However, the soft vinyl chloride resins contain a large amount of dioctyl phthalate or 2-ethylhexyl phthalate as a plasticizer and the elution of such a plasticizer into the infusion solution, blood, etc. causes safety problems. In addition, the soft vinyl chloride resins adsorb lipid soluble drug components such as nitroglycerine, isosorbide nitrate and diazepam so that when drugs containing such components are administered to patients, it is very difficult to administer exactly the necessary amounts of the drugs.
As a medical base material developed in consideration of the above problems, attention has been paid to polyethylene type resins. For example, tubing formed of ultra-low density polyethylene having a specific gravity of 0.89 or less (JP-B-Hei
1-48775
) has been known. This resin is excellent in transparency but has a broad molecular weight distribution and includes low molecular weight components. As a result, tubing molded from this resin tends to be sticky and the inner surfaces of the tubing tend to stick to each other. Furthermore, once the tubes are folded, it takes a long time for the original configuration to be recovered and medical care may sometimes be interrupted.
To improve this problem, use of low-density polyethylenes and thermoplastic &agr;-olefin resins prepared with metallocene catalysts has been proposed. However, although tubing molded from these resins is slightly less sticky than tubing molded from resins prepared without the use of metallocene catalysts, the resins have low tensile strengths and tubing molded therefrom has a defect that it tends to be cut.
Furthermore, a blended resin composed of a linear low-density polyethylene having a density of 0.92-0.94 g/cm
3
and a thermoplastic polystyrene elastomer and a blended resin obtained by blending a thermoplastic polyolefin elastomer with these resins (JP-B-Hei 2-31989) have also been known. As the thermoplastic polystyrene elastomer, there are disclosed styrene/butadiene/styrene elastomer, styrene/ethylene-butylene/styrene elastomer, styrene/ethylene/butadiene/styrene elastomer and styrene/isoprene/styrene elastomer. However, tubing made of these blended resins have smaller flexural moduli than tubing formed of an ethylene type resin alone. Although stickiness of the tubing may be decreased depending on the ratio of the blended resins, the tubing tends to be broken since it also has low tensile strength.
Under the above-described circumstances, an object of the present invention is to provide a medical tubing which has not only rigidity, flexibility, transparency and heat resistance but also acceptable flexural modulus and tensile strength, and further, shows no stickiness between surfaces of the tubing.
SUMMARY OF THE INVENTION
The present inventors have carried out extensive research and as a result have found that a blend of an ethylene copolymer prepared with a metallocene catalyst and a specified thermoplastic polystyrene elastomer can avoid the above problems, thereby achieving the present invention.
The present invention relates to a medical tubing comprising a resin composition containing a low-density ethylene/&agr;-olefin copolymer having a density of 0.860-0.900 g/cm
3
polymerized with a metallocene catalyst and a styrene/ethylene-butylene/olefin block copolymer.
In the present invention, the low-density ethylene/&agr;-olefin copolymer is a copolymer prepared by polymerizing ethylene and &agr;-olefin with a metallocene catalyst. The lower density ethylene/&agr;-olefin copolymer having a density of 0.860-0.900 g/cm
3
polymerized with a metallocene catalyst is commercially available and can be prepared by a method as described in U.S. Pat. Nos. 4,327,009, 4,684,576, 5,272,236, and 6,162,935,the disclosures of which are incorporated herein by reference
The low-denisty ethylene/&agr;-olefin copolymer prepared with a metallocene catalyst has a density of 0.860-0.900 g/cm
3
, and preferably 0.870-0.900 g/cm
3
. If the density is lower than 0.860 g/cm
3
, medical tubing prepared using the copolymer has low tensile strength. If the density is higher than 0.900 g/cm
3
, medical tubing prepared using the copolymer has too small flexural modulus so that it tends to be folded.
The molecular weight distribution, (Mw (weight average molecular weight)/Mn (number average molecular weight)) of the low-density ethylene/&agr;-olefin copolymer prepared with a metallocene catalyst is 1.8-2.5, which is narrower than the molecular weight distribution of 3.0-4.5 of the ethylene copolymer prepared without a metallocene catalyst. This results in low stickiness of the medical tubing made from the copolymer, so that there is no fear that the inner surfaces of the tubing will stick to each other.
The molecular weight (number average molecular weight) of the low-density ethylene/&agr;-olefin copolymer is 20,000-250,000, and preferably 30,000-150,000. If the molecular weight is less than 20,000, tubing made from the copolymer has poor heat resistance while, if it is more than 250,000, tubing made from the copolymer has low transparency. Neither case is desirable.
The &agr;-olefin contained in the above low density ethylene/&agr;-olefin copolymer is preferably one having 4-8 carbon atoms and specific examples thereof include butene-1, pentene-1, 4-methyl-1-pentene, hexene-1, and octene-1. Specific examples of the copolymer include ethylene/butene-1 copolymer, ethylene/pentene-1 copolymer, ethylene/4-methyl-1-pentene copolymer, ethylene/hexene-1 copolymer and ethylene/octene-1 copolymer. More preferably, ethylene/octene-1 copolymer is used.
The &agr;-olefin content in the low density ethylene/&agr;-olefin copolymer is 10-50% by weight, and preferably 15-45% by weight. If the content is less than 10% by weight, medical tubing made from the copolymer has too large a flexural modulus and if it is more than 50% by weight, medical tubing made from the copolymer has high stickiness.
In the present invention, the styrene/ethylene-butylene/olefin block copolymer is a copolymer composed of a polystyrene block, an ethylene-butylene copolymer block, and a polyolefin block The copolymer is commercially available and is described, for example in U.S. Pat. No. 5,206,301 and Japanese Patent Application Laid Open Nos. Hei 3-72512, Hei 5-170844 and Hei 8-109288, the disclosures of which are incorporated herein by reference.
The monomer that constitutes the polystyrene block includes styrene and its derivatives, for example, p-methylstyrene, t-butylstyrene, vinylpyridine, and &agr;-methylstyrene.
The ethylene-butylene copolymer block is one obtained by hydrogenation of 80% or more, and preferably 90% of a polybutadiene block. If the ratio of hydrogenation is less than 80%, the copolymer is cross-linked by &ggr; rays, light, or heat when it is sterilized, causing a fear that medical tubing made from the copolymer will have too high a hardness.
The polyolefin block is such that the polyolefin is preferably crystallized since this makes it possible to form tubing having flexibility of the same level as that of tubing made of conventional thermoplastic polystyrene elastomers but which is rich in strength. The olefin is preferably one having 2-8 carbon atoms, specific examples of which include ethylene, propylene, and butene-1. Ethylene is preferred in view of affinity for low-density ethylene/&agr;-olefin.
The styrene content of the styrene/ethylene-butylene/olefin block copolymer is preferably 5-50% by weight. A block copolymer having a styrene conten

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