U.S. patent application number 09/777308 was filed with the patent office on 2002-08-08 for coextruded tubing.
Invention is credited to Lopez, Leonardo, Redler, Julie M., Thrower, Nina, Walborn, Jonathan.
Application Number | 20020104574 09/777308 |
Document ID | / |
Family ID | 25109890 |
Filed Date | 2002-08-08 |
United States Patent
Application |
20020104574 |
Kind Code |
A1 |
Redler, Julie M. ; et
al. |
August 8, 2002 |
COEXTRUDED TUBING
Abstract
Flexible medical grade PVC tubing has inner and outer layers
coextruded with different plasticizers, with the first, inside
layer of the tubing containing a plasticizer, such as di-ethylhexyl
adipate, and having a thickness adapted to limit migration of a
second plasticizer, such as di-ethylhexyl phthalate, from a second,
outer layer of the tubing to the inside of the tubing. The flexible
medical grade tubing can optionally include a third, outermost
layer surrounding the second layer and containing a plasticizer
such as di-ethylhexyl adipate, so that the third layer limits
migration of the second plasticizer to the outside of the
tubing.
Inventors: |
Redler, Julie M.;
(Encinitas, CA) ; Walborn, Jonathan; (La Jolla,
CA) ; Thrower, Nina; (Murrieta, CA) ; Lopez,
Leonardo; (San Diego, CA) |
Correspondence
Address: |
FULWIDER PATTON LEE & UTECHT, LLP
HOWARD HUGHES CENTER
6060 CENTER DRIVE
TENTH FLOOR
LOS ANGELES
CA
90045
US
|
Family ID: |
25109890 |
Appl. No.: |
09/777308 |
Filed: |
February 5, 2001 |
Current U.S.
Class: |
138/137 ;
138/140 |
Current CPC
Class: |
B29C 48/09 20190201;
A61L 29/085 20130101; B29C 48/21 20190201; F16L 9/121 20130101;
A61L 29/141 20130101; Y10T 428/1393 20150115; F16L 9/12 20130101;
C08L 27/06 20130101; A61L 29/085 20130101 |
Class at
Publication: |
138/137 ;
138/140 |
International
Class: |
F16L 011/00 |
Claims
What is claimed is:
1. A flexible medical grade tubing having coextruded multiple
layers, comprising: a first layer formed of polyvinyl chloride
containing a first plasticizer, said first layer forming an
innermost layer of the tubing; and a second layer surrounding said
first layer formed of polyvinyl chloride containing a second
plasticizer different from said first plasticizer.
2. The flexible medical grade tubing of claim 1, wherein said first
layer limits migration of said second plasticizer to the inside of
the tubing.
3. The flexible medical grade tubing of claim 1, wherein said first
plasticizer is di-ethylhexyl adipate.
4. The flexible medical grade tubing of claim 1, wherein said
second layer comprises an outermost layer of the tubing.
5. The flexible medical grade tubing of claim 1, wherein said
second plasticizer is di-ethylhexyl phthalate.
6. The flexible medical grade tubing of claim 1, further comprising
a third layer surrounding said second layer and containing a
plasticizer different from said second plasticizer, and wherein
said third layer limits migration of said second plasticizer to the
outside of the tubing.
7. The flexible medical grade tubing of claim 6, wherein said
plasticizer in said third layer is di-ethylhexyl adipate.
8. The flexible medical grade tubing of claim 6, wherein said third
layer comprises an outermost layer of the tubing.
9. A coextruded flexible medical grade tubing having inner and
outer layers for supplying medical fluids to a patient and limiting
exposure of the patient to an additive in the outer layer, the
flexible medical grade tubing comprising: an inner layer formed of
polyvinyl chloride containing a first plasticizer; and an outer
layer surrounding said inner layer formed of polyvinyl chloride
containing a second plasticizer different from said first
plasticizer.
10. The coextruded flexible medical grade tubing of claim 9,
wherein said first layer has a thickness adapted to limit migration
of said second plasticizer to the inside of the tubing to a desired
level.
11. The coextruded flexible medical grade tubing of claim 9,
wherein said first plasticizer is di-ethylhexyl adipate.
12. The coextruded flexible medical grade tubing of claim 9,
wherein said second plasticizer is di-ethylhexyl phthalate.
13. A coextruded flexible medical grade tubing having inner and
outer layers for supplying medical fluids to a patient and limiting
exposure of the patient to an additive in an outer layer, the
flexible medical grade tubing comprising: an inner layer formed of
polyvinyl chloride containing a first plasticizer; and at least one
outer layer surrounding said inner layer formed of polyvinyl
chloride containing a second plasticizer different from said first
plasticizer, and wherein said first layer has a thickness adapted
to limit migration of said second plasticizer to the inside of the
tubing to a desired level.
14. The coextruded flexible medical grade tubing of claim 13,
wherein said first plasticizer is di-ethylhexyl adipate.
15. The coextruded flexible medical grade tubing of claim 13,
wherein said second plasticizer is di-ethylhexyl phthalate.
Description
BACKGROUND OF THE INVENTION
[0001] This invention relates generally to materials for making
medical grade products, and more particularly concerns coextruded
flexible multilayer medical polyvinyl chloride (PVC) tubing with
inner and outer layers coextruded with different plasticizers to
provide the tubing with improved bonding properties, and to limit
migration of a plasticizer in an outer layer to the inside of the
tubing to minimize contact of the plasticizer with patient fluids,
drugs or therapeutic agents carried in the tubing.
[0002] In the modern medical industry, medical grade tubing is
commonly used to carry bodily fluids to and from patients such as
in renal or blood therapies, and for delivering various drugs and
therapeutic agents to patients. Such medical grade tubing is also
useful in carrying patient specimens, carrier fluids and analytical
agents in medical apparatus or apparatus used for medical analysis.
Plastic materials are useful in forming medical grade tubing
because the characteristics of the tubing can be adapted by
appropriate formulation of the plastic material forming the tubing,
and formation of the tubing with multiple layers having different
characteristics that contribute to the desired overall
characteristics of the tubing. In the formulation and construction
of such medical grade tubing, it is important that such tubing be
capable of being bonded with y-sites, burettes, and other devices.
Other properties that may be desirable for medical grade tubing
include flexibility, clarity, durability, heat resistance,
strength, and the ability to shield the interior lumen of the
tubing from radio waves, light or other radiation such as
X-rays.
[0003] Flexible medical grade polyvinyl chloride (PVC) tubing is
widely utilized due to its generally good flexibility, clarity,
ease of assembly with solvent bonding, relatively low cost, and the
ease of manufacturing such tubing with varying wall thicknesses and
inside diameters to suit a variety of medical devices. Varying the
amounts of plasticizer in the PVC formulation can be used to change
the durometer or hardness and flexibility of the PVC tubing for
specific applications. For example, softer, more flexible tubing
can be useful in connection with parenteral infusion applications,
while high durometer, less flexible, more durable PVC tubing can be
more suitable for monitoring lines and medical equipment. However,
some additives which contribute such desirable properties to the
plastic material of the tubing may migrate from the plastic medical
tubing, which may become a concern when patient bodily fluids,
drugs or therapeutic agents are in contact with the tubing, such as
in chronic renal dialysis when there is prolonged contact of tubing
with circulating blood.
[0004] Various types of flexible, plastic, multilayer medical grade
tubing are known which contain different compounds on the outside
and inside of the tubing. One type of flexible medical tubing
includes a coextruded PVC multilayer medical grade tubing having an
outer layer containing a polypropylene copolymer and a core formed
from PVC plasticized with di-ethylhexyl phthalate (DEHP, also known
as dioctyl phthalate or DOP). However, polypropylene copolymer is
crystalline and difficult to solvent bond to y-sites, burettes and
other devices, and migration of DEHP plasticizer from the core of
the tubing can occur.
[0005] Another type of medical tubing has multiple layers formed
from a soft set PVC, with a physiologically unobjectionable wall,
and an adjacent physiologically questionable wall containing one or
more physiologically questionable and/or untested additives. The
physiologically questionable or untested additive may be one or
more radiation absorbing substances which tend to migrate. This
tendency to migrate is counteracted by providing a gradient of a
plasticizer or softener substance such as DEHP or di-ethylhexyl
adipate (DEHA, also known as dioctyl adipate, or DOA) from the
physiologically unobjectionable wall to the physiologically
questionable wall, which prevents migration of the questionable
additive. The outer jacket of the tube of PVC is formed with a
lesser amount of the plasticizer, and the inner layer of the tubing
of PVC is formed with a greater amount of the plasticizer. Such a
plasticizer gradient between two layers of PVC is undesirable
because it makes one layer softer than the other, and can cause the
tubing to peel apart or kink. With a greater amount of plasticizer
in the inner jacket of the tubing, the inner jacket becomes softer,
so that the inner softer jacket of the tubing can become thinned,
pinched, or cut through when the tubing is pinched, for example
with a pinch type clamp such as a C-clamp.
[0006] While PVC with DEHP plasticizer is readily bondable to
y-sites, burettes and other devices, it may be desirable to limit
direct contact of DEHP with patient fluids, drugs or therapeutic
agents. While DEHA can be used as a PVC plasticizer, it is
difficult to bond PVC with DEHA plasticizer to other devices, so
that stronger solvents are required to attain bonding of such
tubing with other devices, which is undesirable. DEHA also
chemically reacts with styrene based materials, such as
polystyrene, so that bonding of PVC with DEHA plasticizer can
eventually result in bond failure, because the DEHA can destroy the
styrene material over time.
[0007] One type of medical grade tubing has a multilayer structure
not containing PVC, avoiding the use of any PVC plasticizers
altogether. However, since PVC has proved to be such an extremely
versatile and useful plastic, it would be desirable to provide a
flexible medical grade PVC tubing utilizing DEHP, which is a useful
and otherwise desirable PVC plasticizer, in a configuration that
would limit migration and direct contact of DEHP with patient
fluids, drugs or therapeutic agents, and that provides improved
bonding properties to the flexible medical grade PVC tubing. The
present invention meets these and other needs.
SUMMARY OF THE INVENTION
[0008] Briefly, and in general terms, the present invention
provides for a flexible medical grade PVC tubing with inner and
outer layers coextruded with different plasticizers to provide
improved bonding properties to the tubing, and limited migration of
plasticizer in an outer layer of the tubing to the inside of the
tubing. The flexible medical grade PVC tubing is useful for
carrying fluids, drugs and therapeutic agents.
[0009] The present invention accordingly provides for a flexible
medical grade tubing having coextruded first and second layers. The
first layer is formed of PVC containing a first plasticizer, and
forms an innermost layer of the tubing. The second layer surrounds
the first layer, and is formed of PVC containing a second
plasticizer different from the first plasticizer. The second
plasticizer in the second layer provides valuable properties to the
characteristics of the tubing, and the first layer with the first
plasticizer limits migration of the second plasticizer to the
inside of the tubing. In a presently preferred embodiment, the
first layer can be dimensioned to have a thickness sufficient to
limit migration of the second plasticizer to the inside of the
tubing to a desired level. In a presently preferred embodiment, the
first plasticizer is di-ethylhexyl adipate (DEHA). The second
plasticizer is preferably a plasticizer that contributes desired
characteristics and improved bonding properties to the medical
tubing. In one presently preferred embodiment, the second
plasticizer is diethylhexyl phthalate (DEHP).
[0010] In a presently preferred embodiment, the second layer forms
the outermost layer of the tubing. In an alternate embodiment, the
flexible medical grade tubing can optionally include a third layer
surrounding the second layer and containing a plasticizer different
from the second plasticizer, such as di-ethylhexyl adipate (DEHA).
The third layer can have a thickness dimensioned sufficient to
limit migration of the second plasticizer to the outside of the
tubing to a desired level. The third layer can optionally form the
outermost layer of the tubing.
[0011] These and other aspects and advantages of the invention will
become apparent from the following detailed description and the
accompanying drawings, which illustrate by way of example the
features of the invention.
BRIEF DESCRIPTION OF THE DRAWINGS
[0012] FIG. 1 is a cross-sectional view of the flexible medical
grade tubing of the invention; and
[0013] FIG. 2 is a cross-sectional view of an alternative
embodiment of the flexible medical grade tubing of the
invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0014] It is important for medical grade tubing to have good
bonding properties for bonding with y-sites, burettes and other
devices, and it can be important for medical grade tubing, such as
that used for supplying medical fluids to a patient, to minimize
the risk of exposing the patient to substances that can migrate
from the tubing to the medical fluids. Particularly with medical
grade PVC tubing, it may be desirable to limit the migration to the
inside of the tubing of additives, such as DEHP, that can otherwise
be useful in PVC tubing to provide the medical grade PVC tubing
with useful bonding properties.
[0015] As is illustrated in the drawings, the invention is embodied
in a flexible medical grade PVC tubing with inner and outer layers
coextruded with different plasticizers, in order to provide desired
characteristics and improved bonding properties to the medical
tubing, with the layers of the tubing arranged and dimensioned to
limit migration of a plasticizer in an outer layer of the tubing to
the inside of the tubing.
[0016] Referring to FIG. 1, in a first presently preferred
embodiment, the invention provides for a flexible medical grade
tubing 10 having multiple layers that can be produced by
coextrusion of the tubing to form a first, innermost layer 12 and a
second, outer layer 14 surrounding the first layer. Coextrusion and
consequent thermal bonding of the layers can be accomplished by
joining one or more smaller extruders to a main extruder to produce
the layers of tubing desired. The first, innermost layer is
currently preferably formed of PVC containing a first plasticizer,
such as di-ethylhexyl adipate (DEHA). The thickness of the first,
innermost layer of tubing can be adjusted as needed to limit the
migration of a second plasticizer in one or more outer layers of
the tubing to the inside of the tubing to less than or equal to a
desired level. While DEHA is presently preferred as the plasticizer
used in the innermost layer of the PVC tubing, other plasticizers,
such as phthalates, other adipates, azelates, phosphates, maleates,
epoxidized vegetable oil, derivatives and combinations thereof and
the like may also be suitable.
[0017] The second, outer layer surrounding the first layer is also
preferably formed of PVC, but contains a second plasticizer
different from the first plasticizer that can provide improved
bonding characteristics to the tubing, such as di-ethylhexyl
phthalate (DEHP), that can migrate from the tubing. While DEHP is
currently preferred as the plasticizer utilized in the outer layer
of the PVC tubing, other plasticizers that can provide improved
bonding characteristics to the tubing, such as diisononyl phthalate
(DINP), other phthalates, adipates, azelates, phosphates, maleates,
derivatives and combinations thereof and the like, may also be
useful in the second layer. In a preferred embodiment, the second
layer forms the outermost layer of the tubing. In this embodiment,
the tubing can be used in medical equipment or for supplying
medical fluids to a patient to limit exposure of the patient to the
plasticizer in the outer layer through the medical fluids delivered
to the patient, because medical fluids carried within the tubing
will be separated and protected from the outer layer of the tubing
by the innermost layer of the tubing. In addition, the plasticizers
in the first and second layers are preferably provided in similar
amounts so that the first and second layers do not differ
substantially in softness.
[0018] The preferred overall tubing thickness is about 0.015 to
0.060 inch, although the overall tubing thickness is typically
0.020 inch. The outer diameter of the tubing is preferably about
0.080 to 0.165 inch, although the outer diameter of the tubing is
typically 0.145 inch. The first, innermost layer 12 is preferably
in the range of about 1/4 to 3/4 of the overall tubing thickness,
and is typically 0.006 inch thick. Due to manufacturing
limitations, the first layer is preferably no less than about 0.004
inch. The second, outer layer 14 surrounding the first layer is
preferably in the range of about 3/4 to 1/4 of the overall tubing
thickness, and is typically no less than about 0.004 inch thick.
The thickness of the layers also depends upon how much plasticizer
is in the layers, and the resultant softness of the layers.
[0019] In another presently preferred embodiment illustrated in
FIG. 2, the invention provides for a flexible medical grade tubing
20 having multiple layers that can be produced by coextrusion of
the tubing to bond the multiple layers together to form a first,
innermost layer 22 formed of PVC containing a first plasticizer,
such as DEHA. The thickness of the first, innermost layer of tubing
can be adjusted as needed to limit the migration of a second
plasticizer in an outer layer of the tubing to the inside of the
tubing to be less than or equal to an acceptable level. While DEHA
is presently preferred as the plasticizer used in the innermost
layer of the PVC tubing, other plasticizers, such as phthalates,
other adipates, azelates, phosphates, maleates, epoxidized
vegetable oil, derivatives and combinations thereof and the like,
may also be useful in the first layer.
[0020] A second layer 24 surrounding the first layer is also
preferably formed of PVC, but contains a second plasticizer
different from the first plasticizer that can provide improved
bonding characteristics to the tubing, such as di-ethylhexyl
phthalate (DEHP), that can migrate from the tubing. While DEHP is
currently preferred as the plasticizer utilized in the second layer
of the PVC tubing, other plasticizers that can provide improved
bonding characteristics to the tubing such as DINP, other
phthalates, adipates, azelates, phosphates, maleates, derivatives
and combinations thereof and the like, may also be useful in the
second layer. In this embodiment, the tubing includes a third layer
26 surrounding the second layer that is preferably the outermost
layer, and that contains a plasticizer that is different from the
second plasticizer, and that has a thickness that can be adjusted
as needed to limit migration of the plasticizer from the second
layer to be less than or equal to a desired level. In a presently
preferred embodiment, the plasticizer in the third layer is DEHA.
The plasticizer of the third layer may alternatively be selected
from other plasticizers, such as phthalates, other adipates,
azelates, phosphates, maleates, epoxidized vegetable oil,
derivatives and combinations thereof and the like, as noted above.
Fluids carried within the tubing will be separated and protected
from plasticizer in the second layer of the tubing by the innermost
layer of the tubing. The outermost layer can additionally limit
migration of the plasticizer in the second layer to the outside of
the tubing by adjusting the thickness of the third layer as needed,
to protect the patient and others from contact with plasticizer
from the second layer. In addition, the plasticizers in the
multiple layers are preferably provided in similar amounts so that
the multiple layers do not differ substantially in softness.
[0021] It will be apparent from the foregoing that while particular
forms of the invention have been illustrated and described, various
modifications can be made without departing from the spirit and
scope of the invention. Accordingly, it is not intended that the
invention be limited, except as by the appended claims.
* * * * *