U.S. patent application number 09/790092 was filed with the patent office on 2001-07-26 for support pillow.
Invention is credited to Langer, Victoria A..
Application Number | 20010009043 09/790092 |
Document ID | / |
Family ID | 23829436 |
Filed Date | 2001-07-26 |
United States Patent
Application |
20010009043 |
Kind Code |
A1 |
Langer, Victoria A. |
July 26, 2001 |
Support pillow
Abstract
A support pillow for assisting to position a person on their
side. The support pillow has a cylindrical foam core and a foam
exterior portion wrapped around the circumference of the core. The
exterior portion has a plurality of projections extending radially
from a longitudinal axis of the support pillow, each projection
having a height selected in the range of 3.5 to 8 inches. The core
has a higher density and a higher firmness than the exterior
portion. The pillow can be coated with a layer of vinyl. The pillow
can be part of a support pillow assembly also having a fabric
cover, the cover being laminated with a polyurethane film and
covering a semi-cylindrical portion of the pillow. Alternative
embodiments used to support the lower leg extremities of a person
are also presented.
Inventors: |
Langer, Victoria A.;
(Mansfield, OH) |
Correspondence
Address: |
M. David Galin
Renner, Otto, Boisselle, & Sklar, L.L.P.
19th Floor
1621 Euclid Avenue
Cleveland
OH
44115
US
|
Family ID: |
23829436 |
Appl. No.: |
09/790092 |
Filed: |
February 21, 2001 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
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09790092 |
Feb 21, 2001 |
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09460622 |
Dec 14, 1999 |
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Current U.S.
Class: |
5/632 |
Current CPC
Class: |
A61G 7/0755 20130101;
A61G 7/05707 20130101 |
Class at
Publication: |
5/632 |
International
Class: |
A47C 020/00 |
Claims
What is claimed is:
1. A support pillow for assisting to position a person on their
side, comprising a foam core and a foam exterior portion wrapped
around the circumference of the core, the exterior portion having a
plurality of projections extending radially from a longitudinal
axis of the support pillow, and the core having a higher density
and a higher firmness than the exterior portion.
2. The support pillow according to claim 1, wherein each projection
has a height selected in the range of 3.5 to 8 inches.
3. The support pillow according to claim 1, wherein the core has a
density of 1 to 3 pounds per cubic foot and a firmness measured as
initial load deflection (ILD) of 30 to 70 pounds and the exterior
portion has a density of 0.9 to 1.3 pound per cubic foot and an ILD
of 10 to 18 pounds.
4. The support pillow according to claim 1, wherein the exterior
portion is initially a rectangular block of foam which has been
convoluted to form the projections and lengthwise edges of the
exterior portion have been beveled.
5. The support pillow according to claim 1, wherein the projections
are arranged in rows, adjacent rows of projections being offset
from each other.
6. The support pillow according to claim 5, wherein adjacent
projections in the rows of projections are spaced apart 1.5 to 3
inches.
7. The support pillow according to claim 1, wherein the core and
the exterior portion are made from open cell polyurethane foam.
8. A support pillow for assisting to position a person on their
side, comprising a foam core and a foam exterior portion wrapped
around the circumference of the core, the exterior portion having a
plurality of projections extending radially from a longitudinal
axis of the support pillow, and the core having a higher density
and a higher firmness than the exterior portion, wherein the pillow
is coated with a layer of vinyl.
9. The support pillow according to claim 8, wherein each projection
has a height selected in the range of 3.5 to 8 inches.
10. The support pillow according to claim 8, wherein the core has a
density of 1 to 3 pounds per cubic foot and a firmness measured as
initial load deflection (ILD) of 30 to 70 pounds and the exterior
portion has a density of 0.9 to 1.3 pound per cubic foot and an ILD
of 10 to 18 pounds.
11. The support pillow according to claim 8, wherein the exterior
portion is initially a rectangular block of foam which has been
convoluted to form the projections and lengthwise edges of the
exterior portion have been beveled.
12. The support pillow according to claim 8, wherein the
projections are arranged in rows, adjacent rows of projections
being offset from each other.
13. The support pillow according to claim 12, wherein adjacent
projections in the rows of projections are spaced apart 1.5 to 3
inches.
14. The support pillow according to claim 8, wherein the core and
the exterior portion are made from open cell polyurethane foam.
15. A support pillow assembly for assisting to position a person on
their side, comprising: a pillow having a foam core and a foam
exterior portion wrapped around the circumference of the core, the
exterior portion having a plurality of projections extending
radially from a longitudinal axis of the support pillow, and the
core having a higher density and a higher firmness than the
exterior portion; and a fabric cover, the cover being laminated
with a polyurethane film, the cover covering a semi-cylindrical
portion of the pillow.
16. The support pillow according to claim 15, wherein each
projection has a height selected in the range of 3.5 to 8
inches.
17. The support pillow assembly according to claim 15, wherein the
cover has straps disposed around an uncovered portion of the
pillow, the straps positioned between at least a pair of adjacent
protrusions.
18. The support pillow assembly according to claim 15, wherein the
cover is made from a polyester circular knit interlock fabric.
19. The support pillow assembly according to claim 15, wherein the
pillow is coated with a layer of vinyl.
20. The support pillow assembly according to claim 15, wherein the
core has a density of 1 to 3 pounds per cubic foot and a firmness
measured as initial load deflection (ILD) of 30 to 70 pounds and
the exterior portion has a density of 0.9 to 1.3 pound per cubic
foot and an ILD of 10 to 18 pounds.
21. The support pillow assembly according to claim 15, wherein the
exterior portion is initially a rectangular block of foam which has
been convoluted to form the projections and lengthwise edges of the
exterior portion have been beveled.
22. The support pillow assembly according to claim 15, wherein the
projections are arranged in rows, adjacent rows of projections
being offset from each other.
23. The support pillow assembly according to claim 22, wherein
adjacent projections in the rows of projections are spaced apart
1.5 to 3 inches.
24. The support pillow assembly according to claim 15, wherein the
core and the exterior portion are made from open cell polyurethane
foam.
25. A support pillow assembly for supporting the lower leg
extremities of a person, comprising a pillow having a
semi-cylindrical foam core and a foam exterior portion, the
exterior portion having a bottom defining a semi-cylindrical notch
in which the core is received, the exterior portion having a top,
the top defining a plurality of projections extending in a
generally upward direction, and the core having a higher density
and a higher firmness than the exterior portion.
26. The support pillow according to claim 25, wherein each
projection has a height selected in the range of 3.5 to 8
inches.
27. The support pillow assembly according to claim 25, wherein the
projections form a crown-like arrangement.
28. The support pillow assembly according to claim 25, further
comprising a fabric cover, the cover being laminated with a
polyurethane film, the cover covering the projections of the pillow
and having an opening so that a bottom of the pillow is
uncovered.
29. The support pillow assembly according to claim 28, where the
cover is retained by straps around the uncovered portion of the
pillow.
30. The support pillow assembly according to claim 28, wherein the
cover is made from a polyester circular knit interlock fabric.
31. The support pillow assembly according to claim 25, wherein the
pillow is coated with a layer of vinyl.
32. The support pillow assembly according to claim 25, wherein the
core has a density of 0.75 to 2 pounds per cubic foot and a
firmness measured as initial load deflection (ILD) of 30 to 70
pounds and the exterior portion has a density of 0.75 to 1.5 pound
per cubic foot and an ILD of 8 to 20 pounds.
33. The support pillow assembly according to claim 25, wherein the
projections are arranged in rows, adjacent rows of projections
being offset from each other.
34. The support pillow assembly according to claim 33, wherein
adjacent projections in the rows of projections are spaced apart
1.5 to 3 inches.
35. The support pillow assembly according to claim 25, wherein the
core and the exterior portion are made from open cell polyurethane
foam.
36. A support pillow assembly for supporting the lower leg
extremities of a person, comprising a pillow having a foam core and
a foam exterior portion, the core having a flat bottom side and an
arcuate top side, the arc of the top side being defined the locus
of a radius, the radius being larger than a height of the core, the
exterior portion having a bottom secured to the top of the core and
having a top, the top defining a plurality of projections extending
in a generally upward direction, and the core having a higher
density and a higher firmness than the exterior portion.
37. The support pillow according to claim 36, wherein each
projection has a height selected in the range of 3.5 to 8
inches.
38. The support pillow assembly according to claim 36, wherein the
projections form a crown-like arrangement.
39. The support pillow assembly according to claim 36, further
comprising a fabric cover, the cover being laminated with a
polyurethane film, the cover covering the projections of the pillow
and having an opening so that a bottom of the pillow is
uncovered.
40. The support pillow assembly according to claim 39, where the
cover is retained by straps around the uncovered portion of the
pillow.
41. The support pillow assembly according to claim 39, wherein the
cover is made from a polyester circular knit interlock fabric.
42. The support pillow assembly according to claim 36, wherein the
pillow is coated with a layer of vinyl.
43. The support pillow assembly according to claim 36, wherein the
core has a density of 1.5 to 5 pounds per cubic foot and a firmness
measured as initial load deflection (ILD) of 50 to 120 pounds and
the exterior portion has a density of 0.75 to 1.5 pound per cubic
foot and an ILD of 8 to 20 pounds.
44. The support pillow assembly according to claim 36, wherein the
projections are arranged in rows, adjacent rows of projections
being offset from each other.
45. The support pillow assembly according to claim 44, wherein
adjacent projections in the rows of projections are spaced apart
1.5 to 3 inches.
46. The support pillow assembly according to claim 36, wherein the
core and the exterior portion are made from open cell polyurethane
foam.
Description
TECHNICAL FIELD
[0001] The present invention generally relates to support pillows
and, more particularly, to a pillow for positioning a person.
BACKGROUND ART
[0002] There is an ever present demand for devices to support and
position patients when they are in a lying position. Traditionally,
patients have been supported by ordinary pillows made from a fabric
bag filled with feathers, foam granules, a smooth foam core or the
like. These pillows have been made in a variety of shapes and
sizes. Patients have also been supported by folded blankets. Other
supports having a convoluted surface and typically made of foam are
also known. Examples of these supports are illustrated in U.S. Pat.
Nos. 4,620,337, Des. 368,824, Des. 369,491 and Des. 370,819.
However, all of the supports to date suffer from one or more
problems. These problems include failing to provide enough support
to keep the patient in a secure position or adequately elevate a
portion of the patient. These problems are often caused by supports
having an inadequate shape and/or firmness. Another common support
problem is the failure to have a firmness and/or a surface contour
which offers enough pressure relief. If pressure caused by the
weight of a bed ridden patient on the patient's soft tissue over
bony prominences is not decreased, the patient will develop
pressure ulcers and existing ulcers will not heal. Pressure ulcers
include any type of tissue necrosis that develops when soft tissue
is compressed between a bony prominence and an external surface for
a prolonged period of time and are also referred to as decubitus
ulcers, diabetic ulcers, dermal ulcers, arterial ulcers, venous
ulcers, stasis ulcers, bedsores and pressure sores. The supports to
date are not capable of providing sufficient pressure reduction
where prominent areas of the patient can sink into the support
while also allowing a maximum amount of blood to flow in the area
supported by the support.
SUMMARY OF THE INVENTION
[0003] The present invention provides a support pillow for
assisting to position a person on their side. The support pillow
has a foam core and a foam exterior portion wrapped around the
circumference of the core. The exterior portion has a plurality of
projections extending radially from a longitudinal axis of the
support pillow, each projection having a height selected in the
range of 3.5 to 8 inches. The core has a higher density and a
higher firmness than the exterior portion.
[0004] According to another aspect of the invention, the pillow is
coated with a layer of vinyl.
[0005] According to another aspect of the invention, the pillow is
part of a support pillow assembly also having a fabric cover, the
cover being laminated with a polyurethane film and covering a
semi-cylindrical portion of the pillow.
[0006] According to another embodiment of the invention a support
pillow assembly for supporting the lower leg extremities of a
person is provided. The support pillow assembly has a
semi-cylindrical foam core and a foam exterior portion. The
exterior portion has a bottom defining a semi-cylindrical notch in
which the core is received. The exterior portion has a top defining
a plurality of projections extending in a generally upward
direction. Each projection has a height selected in the range of
3.5 to 8 inches. The core has a higher density and a higher
firmness than the exterior portion.
[0007] According to another embodiment of the invention a support
pillow assembly for supporting the lower leg extremities of a
person is provided. The support pillow assembly has a foam core,
the core has a flat bottom side and an arcuate top side. The arc of
the top side is defined the locus of a radius where the radius is
much larger than a height of the core. The support pillow assembly
also has a foam exterior portion, the exterior portion having a
bottom secured to the top of the core. The exterior portion has a
top, the top defining a plurality of projections extending in a
generally upward direction. Each projection has a height selected
in the range of 3.5 to 8 inches. The core has a higher density and
a higher firmness than the exterior portion.
BRIEF DESCRIPTION OF DRAWINGS
[0008] These and further features of the present invention will be
apparent with reference to the following description and drawings,
wherein:
[0009] FIG. 1 is an perspective view of a support pillow according
to a first embodiment of the present invention.
[0010] FIG. 2 is a perspective view of an exterior portion of the
support pillow according to the first embodiment of the present
invention shown in an intermediate stage of fabrication.
[0011] FIG. 3 is an end view of the exterior portion of the support
pillow according to the first embodiment of the present invention
shown in an intermediate stage of fabrication.
[0012] FIG. 4 is a front view of the support pillow according to
the first embodiment of the present invention having a cover
according to another aspect of the present invention.
[0013] FIG. 5 is a cross section taken along the line 5-5 in FIG.
4.
[0014] FIG. 6 is a an end view of the support pillow according to
the first embodiment of the invention cut in half along a
longitudinal axis.
[0015] FIG. 7 is an end view of a support pillow according to a
second embodiment of the present invention.
[0016] FIG. 8 is an end view of a support pillow according to a
third embodiment of the present invention.
[0017] FIG. 9 is a perspective view of the support pillow according
to the second embodiment of the present invention having a cover
according to another aspect of the invention.
DISCLOSURE OF INVENTION
[0018] In the detailed description which follows, identical
components have been given the same reference numerals, regardless
of whether they are shown in different embodiments of the present
invention. In order to clearly and concisely illustrate the present
invention, the drawings may not necessarily be to scale and certain
features may be shown in somewhat schematic form.
[0019] FIG. 1 shows a first embodiment of a support pillow 10
according to the present invention. The support pillow 10 has a
generally cylindrical configuration which allows the support pillow
10 to be used as a positioning pillow for a patient with a medical
condition that prevents the patient from lying on his or her back.
With the patient lying on his or her side the pillow 10 can be
placed on the patient's bed in back of the patient and against the
patient's spine. As will be discussed in more detail below, the
pillow 10 grips the bedding to minimize movement of the pillow 10
relative to the bed and the pillow 10 supports the patient and
substantially prevents the patient from rolling onto his or her
back. The pillow 10 also reduces pressure placed on the soft tissue
of the patient thereby reducing the possibility of the patient
developing pressure ulcers.
[0020] The pillow 10 is provided with a core 12 and an exterior
portion 14, both of which are made from open cell polyurethane
foam. The core 12 is generally cylindrical. The term cylindrical
should be understood to include a core having a regular or
irregular cross-section at every point along the length of the core
12. It also includes a continuous or discontinuous core 12. One
skilled in the art will appreciate that the core 12 can
alternatively have a non-round cross-sectional shape, such as
elliptical, triangular, rectangular or other polygon, with similar
results.
[0021] The foam of the core 12 has a higher density and a higher
firmness than the foam of the exterior portion 14. The density and
the firmness of the core 12 and the exterior portion 14 can be
changed proportionally to the patient's size and weight. The
density of the core 12 in one embodiment is 0.5 to 15
lbs/cu.multidot.ft, in one embodiment 0.75 to 5 lbs/cu.multidot.ft,
and in one embodiment 1.0 to 3 lbs/cu.multidot.ft. The firmness
measured in terms of initial force deflection (IFD) under ASTM
D3574, also referred to as initial load deflection (ILD), for the
core 12 in one embodiment is 15 to 100 lbs, in one embodiment 25 to
85 lbs, and in one embodiment 30 to 70 lbs. The density of the
exterior portion 14 in one embodiment is 0.25 to 5.0
lbs/cu.multidot.ft, in one embodiment 0.75 to 2.5
lbs/cu.multidot.ft, and in one embodiment 0.9 to 1.3
lbs/cu.multidot.ft. The ILD of the exterior portion 14 in one
embodiment is 5 to 30 lbs, in one embodiment 7.5 to 20 lbs and in
one embodiment 10 to 18 lbs. The more dense and firm core 12 of the
pillow 10 also reduces the risk of the pillow 10 collapsing under
the weight of a patient. As one skilled in the art will appreciate,
foams, especially open cell foams, having the foregoing range of
densities and ILDs are compressible under pressure and will return
to their original shape when the pressure is removed.
[0022] It has been found that the size of the pillow 10 and the
density and the ILD of both the core 12 and the exterior portion 14
can be optimized for the height and weight of the patient as
indicated below in TABLE 1. It is noted that the last entry in
TABLE 1 is for a cervical pillow which can be used to support a
patient's neck. The cervical pillow is otherwise the same as the
pillow 10 of the first embodiment. Also identified in TABLE 1 is
the length of a pillow 10 suitable for patients with the specified
height and weight. With additional reference to FIG. 3, TABLE 1
also identifies the dimensions in terms of height H, width W, and
length L of the exterior portion, and the convolution height C of
the exterior portion. TABLE 1 also identifies the diameter and the
length of the core for each pillow.
1TABLE 1 Patient Exterior Portion 14 Core 12 Height Overall
Dimension Convolute Density Density and Pillow H .times. W .times.
L to C (lbs/ ILD Diameter Length (lbs/ ILD Weight Length (inches)
(inches) cu .multidot. ft) (lbs) (inches) (inches) cu .multidot.
ft) (lbs) Up to 14 6 .times. 14 .times. 15.5 0.75 1.1 14 1.5 15.5
1.2 36 5'1" and 100 lbs Up to 18 7 .times. 16 .times. 21 1.25 1.1
14 2 21 1.2 36 5'2" and 130 lbs Up to 21 7 .times. 16 .times. 25
1.25 1.1 14 2 25 1.2 36 5'8" and 180 lbs Up to 26 7 .times. 16
.times. 21 1.25 1.1 14 2 27 1.35 50 6'2" and 225 lbs Up to 28 7
.times. 16 .times. 21 1.25 1.1 14 2 31 2.6 65 6'5" and 250 lbs
Cervical 14 6 .times. 13 .times. 17 0.75 1.1 14 1.5 17 1.2 36
Pillow
[0023] In the foregoing table it is noted that the overall pillow
length for each embodiment is shorter than the length of the core
12 and the exterior portion 14. This is a result of a manufacturing
step in the fabrication of the pillow 10. After the pillow 10 is
fabricated as described in more detail below, the pillow 10 is cut
to the length identified in the overall pillow length column.
[0024] As illustrated, the exterior portion 14 of the pillow 10 is
provided with a plurality of protrusions 16, also referred to as
projections, fingers or spikes. The protrusions 16 radially extend
from a longitudinal axis of the pillow 10. The protrusions 16 have
a generally conical or pyramid shape. A valley 18 is formed between
each adjacent projection 16.
[0025] With reference to FIGS. 2 and 3, the pillow 10 is shown in
intermediate stages of fabrication. As illustrated, the protrusions
16, are formed in rows. Adjacent protrusions 16 in the rows of
protrusions 16 are spaced apart by 1 to 4 inches, in one embodiment
1.5 to 3 inches and in one embodiment by 2 inches. Every other row
of protrusions 16 is offset from its adjacent rows so that the
protrusions are formed in a "checkerboard" type arrangement. The
exterior portion 14 starts as a rectangular block of foam (not
shown) having height H, length L and width W. The rectangular block
of foam, is then convoluted using a convoluting machine as is well
known in the art. After the exterior portion 14 is convoluted it
retains its basic dimensions of HxLxW but with the checkerboard
arrangement of protrusions 16 as illustrated in FIG. 2. The
convoluting machine convolutes the exterior portion 14 so that the
projections 16 have a height measured from tips 22 of the
protrusions 16 to bottoms 24 of the valleys 18 equal to the height
H minus the convolution height C. Convolution height C is measured
from a base 20 of the exterior portion 14 to the bottoms 24 of the
valleys 18. The heights of all of the protrusions 16 are
substantially uniform with respect to one another over the entire
surface of the pillow 10. It is noted that in actual implementation
the height of the protrusions may be slightly shorter than the
height H minus the convolution height C due to some permanent
compressing of the foam of the exterior portion 14 by the
convoluting machine. As will become more apparent below, the
protrusions 16 should have a minimum height of 3.5 inches measured
from the bottoms 24 of the valleys 18 to the tips 22 of the
protrusions 16 to provide pressure relief to the patient's soft
tissue. In one embodiment the height of the protrusions is 3.5 to 8
inches, in one embodiment the height of the protrusions is 4 to 7
inches, and in one embodiment the height of the protrusions is 5 to
6 inches.
[0026] Referring to FIG. 3, the exterior portion 14 is shown in a
subsequent stage of fabrication. After the exterior portion 14 is
convoluted as illustrated in FIG. 2, lengthwise edges 26 of the
exterior portion 14 are beveled to form beveled edges 28 as
illustrated in FIG. 3. Remaining partial protrusions 30 are
optionally removed by cutting. Next, a layer of adhesive is
deposited on the exterior cylindrical surface of the core 12 and/or
on the base 20 and on the beveled edges 28 of the exterior portion
14. The exterior portion 14 is then wrapped around the core 12 so
that the base 20 is secured with the adhesive to the exterior
cylindrical portion of the core 12 and so that the beveled edges 28
are secured to each other in a flush manner. This results in the
exterior portion 14 being wrapped completely around the
circumference of the core 12 as best illustrated in FIG. 1. A seam
32 will be present where the beveled edges 28 meet each other. As
is apparent from FIG. 1, the pillow 10 is generally cylindrical. It
is noted that in actual implementation, the end rows of protrusions
16 tend to bend inward about 30.degree. to 45.degree.. This is a
result of a tendency of cut edges of foam to be drawn inward by
tension.
[0027] Referring to FIG. 4, the pillow 10 is provided with a fabric
cover 34. The fabric cover assists in keeping the pillow 10 clean
and dry. For example, the cover resists moisture from liquids such
as spilled beverages, perspiration, urine and blood. The cover 34
covers approximately one-half of the pillow 10 as illustrated in
FIG. 4. This is so that the uncovered portion of the pillow may be
placed against the bedding of the patient's bed so that the texture
of the surface of the pillow will help minimize movement of the
pillow relative to the patient and the bed. The covered half of the
pillow is intended to be directed towards the patient and assist in
keeping the pillow 10 clean and dry.
[0028] The cover 34 is provided with a pair of semi-circular ends
36 and an initially rectangular piece 38. Ends of the rectangular
piece 38 are stitched, using known sewing techniques, to the
arcuate edges of the ends 36, thereby forming a semi-cylindrical
cover 34 adapted to receive the pillow 10 as best illustrated in
FIGS. 4 and 5. A strip, or strips, of reinforcing material 40 is
wrapped around any exposed edges of the cover 34 and stitched in
place using known sewing techniques. The strip of reinforcing
material 40 prevents fraying of the fabric material used for the
ends 36 and the initially rectangular piece 38. The strip of
reinforcing material 40 can have a soft, felt-like texture to
provide comfort to the patient. Alternatively, the reinforcing
material 40 can be elastic to help retain the cover 34 on the
pillow 10. The cover 34 is provided with at least two straps 42.
The straps 42 assist in retaining the cover 34 on the pillow 10.
Ends of the straps 42 are stitched to edges of the cover 34 a few
inches from the ends 36. When the pillow 10 is inserted into the
cover, the straps 42 are positioned between protrusions 16 so that
the straps 42 and the protrusions 16 cooperate to secure the cover
34 in place. Since the protrusions 16 are flexible and will yield
under pressure, the straps 24 are easily positioned by pressing and
moving the protrusions 16 into place. As indicated above, the cover
34 allows a portion of the pillow to directly contact the patient's
bed. The straps 42 also allow exposure of the protrusions 16 so
that the protrusions 16 grip the bed.
[0029] The cover 34 is made of a stretch knit material such as a
100% polyester woven circular knit interlock fabric. The fabric is
laminated with a one mil polyurethane film which is impermeable to
sub-micron sized particles (i.e., dust mites, cat and dog dander,
fungi, bacteria, etc.). The laminated film is water resistant and
will stretch to conform to the stretch patterns of the fabric that
it is applied to. The film helps to minimize or prevent
perspiration, blood, urine, and other liquids from permeating the
cover 34 and/or the pillow 10 and damaging either one. Tests on the
fabric of the cover with a polyurethane film as described above
indicate that the cover 34 is substantially impervious to water,
bacteria, viruses and dust mite allergens.
[0030] Referring to FIG. 5 the pillow 10 is optionally provided
with a layer of vinyl 44 on the external surfaces of the pillow 10.
The layer of vinyl 44 is applied using a spraying technique as is
known in the art. Alternatively, the layer of vinyl 44 can be
applied by dipping the pillow 10 into a liquid vinyl bath. In one
embodiment, the layer of vinyl 44 is 0.05 mm to 1.0 mm thick. The
layer of vinyl is thin enough to flex and move with the movement
and compression of the foam components 12, 14 of the pillow 10. The
vinyl coating 44 protects the pillow from contaminants, such as
liquids, bacteria, viruses and dust mites, and allows the pillow 10
to be disinfected. The layer of vinyl 44 also helps to reduce
cutting and tearing of the pillow 10.
[0031] As discussed above, the pillow 10 is provided with a core 12
which is more dense than the exterior portion 14. In addition, the
exterior portion is provided with protrusions 16. It has been found
that the configuration of protrusions 16 described above and the
differing foam density and firmness of the core 12 and exterior
portion 14 will adequately support the patient while reducing
pressure placed on the patient's soft tissue caused by compression
of the soft tissue by bony prominents. The pillow 10 provides
enough pressure relief on the soft tissue to reduce the risk of the
patient developing pressure ulcers and may also help heal existing
pressure ulcers. Without this pressure reduction, the patient may
experience tissue breakdown resulting in pressure ulcers,
especially if the patient is bed ridden or forced to remain in
lying positions for extended periods of time. It has been found
that the spacing and height of the protrusions identified above
provides enough support to the patient so he or she may be
comfortably supported on their side, allows the pressure reduction
as described above and allows sufficient blood flow volume to flow
through the soft tissue of the patient in the area adjacent to
pillow 10.
[0032] As discussed above, the configuration of the pillow resists
movement of the pillow with respect to the bed. This is in part due
to the fact that the protrusions 16 tend to grab and hold against
the bedding such as sheets, blankets, mattress pads and the like.
In addition, a more dense core provides increased stiffness to the
pillow 10 than if the pillow had been made solely out of the foam
used for the exterior portion 14. The combination of the enhanced
stiffness of the core 12 and the protrusions 16 interacting with
the bed will help keep the pillow 10 in position and substantially
prevent the patient from being able to roll onto his or her
back.
[0033] FIG. 6 shows a pillow 10 which has been cut lengthwise in
half along a longitudinal axis of the pillow 10. The foam used in
both the core 12 and the exterior portion 14 can be cut using known
techniques, such as wire cutting or with a serrated blade.
Therefore, the pillow 10, after it has been constructed as
illustrated in FIG. 1, can also be cut using known foam cutting
techniques. The resulting semi-cylindrical pillow illustrated in
FIG. 6 can be used for various forms of patient positioning such as
lumbar support, spinal support, neck or head support and leg
support. It is noted that any of the pillows discussed herein have
application outside of use with a bed ridden patient. Example
alternative uses include use when sitting on a sofa or chair,
reading in bed and traveling in a car or airplane.
[0034] Referring to FIG. 7, a second embodiment of the present
invention is illustrated. The second embodiment provides a pillow
50 for use with a patient who is at risk for the development of
arterial ulcers or who has already developed arterial ulcers.
Arterial ulcers are caused by insufficient arterial perfusion to an
extremity or location on a patient's body and are also commonly
referred to as ischemic ulcers. Ischemic ulcers denote a skin
lesion with tissue loss related to arterial disease and is
typically not used to describe an actual profusion state of the
ulcer. Although arterial insufficiency may affect any portion of a
patient's body it usually involves the lower extremities. The
pillow 50 aids in relieving or reducing pressure by spreading
support over the patient's body to minimize ischemic pressure to
help relieve or prevent arterial ulcers form forming. The pillow 50
is not intended to elevate the patient's legs, but does provide
lift to the patient's heels to support bony prominents found in the
patient's heel area. Similar to the pillow 10, the pillow 50 has
protrusions 16 to offer conforming support to the patient's lower
legs, heels and ankles while allowing blood circulation through
these areas. The pillow 50 slightly lifts the patient's heels, but
not high enough so as to compromise arterial hydraulic
pressure.
[0035] The pillow 50 has a semi-cylindrical core 12 made from open
cell polyurethane foam having a density in one embodiment of 0.5 to
5 lbs/cu.multidot.ft, in one embodiment 0.75 to 2
lbs/cu.multidot.ft and in one embodiment 1.25 to 1.35
lbs/cu.multidot.ft and an ILD in one embodiment of 15 to 100 lbs,
in one embodiment of 30 to 70 lbs, in one embodiment of 45 to 55
lbs and in one embodiment 50-52 lbs. As used herein, the term
semi-cylindrical is approximately one half of a cylinder cut along
a longitudinal axis. However, one skilled in the art will recognize
that the pillow 50 can also be made with a core 12 which is less
than or greater than semi-cylindrical. The pillow 50 has an
exterior portion 14 made from open cell polyurethane foam having
density in one embodiment of 0.25 to 5.0 lbs/cu.multidot.ft, in one
embodiment 0.75 to 1.5 lbs/cu.multidot.ft and in one embodiment 0.9
to 1.0 lbs/cu.multidot.ft and a ILD in one embodiment of 5 to 30
lbs, in one embodiment 8 to 20 lbs and in one embodiment 12-16 lbs.
The more dense and firm core 12 of the pillow 50 also reduces the
risk of the pillow 50 collapsing under the weight of a patient.
[0036] The exterior portion 14 is provided with protrusions 26 as
found on the pillow 10. However, the protrusions extend generally
upward and are "fanned-out" to form a "crown-like" arrangement when
viewed from the end of the pillow 10 as illustrated in FIG. 7. In
this arrangement, the protrusions 16 in the center of the pillow
extend radially from the center of the core 12 but the protrusions
16 on the sides of the pillow extend so that a longitudinal axis of
the protrusions 16 will be approximately tangential to the
circumference of the core 12. Alternatively, all of the protrusions
16 can extend radially from a center of the core 12. In another
embodiment, the tips of the protrusions 16 define an arc with a
very large radius as compared to the overall height of the pillow
50.
[0037] The crown-like arrangement is partially dependent upon how
the pillow 50 is fabricated. The pillow 50 is fabricated by
providing a convoluted piece of exterior portion 14 foam as
illustrated in FIG. 2. A semi-circular notch is then formed or cut
into the base 20 of the exterior portion. The notch has a radius
the same as or slightly smaller than the radius of the core 12.
Adhesive is then sprayed on the arcuate portion of the core 12
and/or the arcuate portion of the notch and then the exterior
portion 14 is fitted onto the core 12 so that the arcuate portion
of the notch 42 receives the arcuate portion of the core 12, If the
radius of the notch 52 is smaller than the radius of the core 12,
then as the exterior portion 14 is mated with the core 12 the
exterior portion 14 will bend slightly around the core 12 giving
the protrusions 16 the crown like appearance illustrated in FIG. 7.
In addition, the lengthwise edges 26 of the exterior portion 14 for
the pillow 50 can be beveled to provide more of a "trapezoidal"
shape between a bottom 54 of the pillow and the lengthwise edges 26
of the pillow 50. The resultant pillow 50 has a generally planar
bottom 54. Planar bottom 54 helps prevent the pillow 10 from
shifting, rolling or moving while in use to support a patient's
legs. As with the pillow 10, all of the exterior surfaces of the
pillow 50 are coated with a layer of vinyl.
[0038] The core 12 has a radius in one embodiment of 0.25 inches to
2 inches, in one embodiment of 0.5 to 1.5 inches and in one
embodiment of about 1 inch. The radius of the notch 52 is similarly
sized. The bottom 54 of the pillow 50 has a width in one embodiment
of 8 to 12 inches and in one embodiment about 10 inches. The
overall uncompressed height of the pillow 50 is preferably about
5.5 inches. In another embodiment, the overall uncompressed height
of the pillow 50 is 4 to 9 inches. A convolution height C of the
exterior portion 14 in one embodiment of 1 to 5 inches, in one
embodiment 2 to 4 inches and in one embodiment about 3 inches. The
protrusions 16 have a height (i.e., height H minus height C) in one
embodiment of 1 to 5 inches, and in one embodiment 2.5 to 3 inches.
If the radius of the core 12 is 1 inch, the convolution height of
the exterior portion 14 is 3 inches, the density of the core 12 is
1.25 to 1.35 lbs/cu.multidot.ft, the ILD of the core 12 is 50 to 52
lbs, the density of the exterior portion 14 is 0.9 to 1.0
lbs/cu.multidot.ft and the ILD of the exterior portion 14 is 12 to
16 lbs, then the height of the protrusions 16 cannot effectively be
greater than 3 inches. The pillow 50 of the second embodiment is
about three feet long so that a patient's legs will not easily be
dislodged from the pillow 50.
[0039] Referring to FIG. 8, a third embodiment of the present
invention is illustrated. The third embodiment provides a pillow 60
to treat venous and stasis ulcers and to minimize their appearance
in bed ridden patients. The pillow 60, similar to the pillows 10,
50, has a core 12 and an exterior portion 14 with protrusions 16.
The protrusions 16 are arranged in a generally crown-like
arrangement similar to the protrusions 16 of the pillow 50.
However, the core has a crescent-like shape as illustrated in FIG.
8. The crescent shape may be formed by starting with a rectangular
piece of foam and convoluting the rectangular piece into a piece of
foam with an arcuate top having a large radius and a generally
planar bottom. The shape of the core 12 may also be described as a
portion of a cylinder having one arcuate side and a generally
planar side, the arcuate side being defined by the locus of a
radius where the radius is much larger than a height M of the core.
The core 12 of pillow 60 can also be fabricated by starting with a
cylindrical piece of foam and cutting an appropriate section from
the cylindrical piece of foam. The core 12 of pillow 60 is an open
cell polyurethane foam having a density in one embodiment of 0.5 to
15 lbs/cu.multidot.ft, in one embodiment 1.5 to 5
lbs/cu.multidot.ft, in one embodiment 2.5 to 3.0 lbs/cu.multidot.ft
and in one embodiment about 2.7 lbs/cu.multidot.ft and a ILD in one
embodiment of 30 to 200 lbs, in one embodiment 50 to 120 lbs in one
embodiment 70 to 80 lbs and in one embodiment about 75 lbs. The
exterior portion 14 of the pillow 60 has a density in one
embodiment of 0.25 to 5.0 lbs/cu.multidot.ft, in one embodiment
0.75 to 2.5 lbs/cu.multidot.ft and in one embodiment 0.9 to 1.0
lbs/cu.multidot.ft and a ILD in one embodiment of 5 to 30 lbs, in
one embodiment 8 to 20 lbs and in one embodiment 12-16 lbs.
[0040] The core 12 of the pillow 60 offers sufficient support to
elevate the patient's legs while the exterior portion 14 provides
the pressure relief reduction as described above. It has
experimentally been found that existing venous ulcers on a patient
start to heal within two weeks of using a pillow 60 of the third
embodiment of the present invention. The more dense and firm core
12 of the pillow 60 also reduces the risk of the pillow 60
collapsing under the weight of a patient. As with the pillow 10,
all of the exterior surfaces of the pillow 60 are coated with a
layer of vinyl.
[0041] Venous leg ulcers are the most common type of lower
extremity ulcers and are generally caused by the failure of valves
in the venous system which leads to failure of the pedal and calf
muscle pumps. Failure of the muscle pumps results in communication
of high pressures from central veins to superficial veins and
capillaries in the lower extremities. The result is venous
hypertension which dilates the capillaries and causing fluids,
including red and white blood cells, to leak into surrounding
tissue. This escaped fluid causes edema and leg pain. Red blood
cells which have leaked into surrounding tissue will break down and
cause staining of the leg. Leaked white blood cells may become
activated and contribute to tissue dysfunction. Another
complication is that fibrinogen can be converted to fibrin-forming
cuffs that reduce capillary function. The pillow 60 provides
support to a patient's lower extremities by providing sufficient
elevation of the feet and lower legs to promote good venous
drainage while also providing the pressure relief reduction as
described in more detail above.
[0042] The pillow 60 is made by providing an exterior portion 14 as
illustrated in FIG. 2 with or without beveled lengthwise edges 26.
Adhesive is sprayed onto the arcuate portion of the core 12 and/or
the base 20 of the exterior portion 14 and then the exterior
portion 14 is mated to the core 12 as illustrated in FIG. 8.
Generally, there is no need to form a notch in the exterior portion
14 when fabricating the pillow 60. However, as the exterior portion
14 bends around the arcuate portion of the core 12, the protrusions
16 will fan out into the crown-like pattern as illustrated in FIG.
8. The planar bottom of the core 12 forms the entire bottom, or
almost the entire bottom, of the pillow 60 as illustrated in FIG.
8. The core 12 has a width N in one embodiment of 6 to 15 inches,
in one embodiment 8 to 10 inches and in one embodiment about 9
inches. The core 12 of pillow 60 has a height M in one embodiment
of 1 to 5 inches, in one embodiment 2 to 4 inches and in one
embodiment 3.25 inches. The overall uncompressed height of the
pillow 60 in one embodiment is 6-10 inches and in one embodiment
about 8.25 to 8.75 inches. A convolution height C of the exterior
portion 14 in one embodiment of 1 to 5 inches, in one embodiment 2
to 4 inches and in one embodiment about 2.75 inches. The
protrusions 16 have a height (i.e., height H minus height C) in one
embodiment of 1 to 5 inches, and in one embodiment 2.5 to 3 inches.
If the height M of the core 12 is 3.25 inches, the convolution
height of the exterior portion 14 is 2.75 inches, the density of
the core 12 is 2.7 lbs/cu.multidot.ft, the ILD of the core 12 is 75
lbs, the density of the exterior portion 14 is 0.9 to 1.0
lbs/cu.multidot.ft and the ILD of the exterior portion 14 is 12 to
16 lbs, then the height of the protrusions cannot effectively be
greater than 3 inches. The pillow 60 of the second embodiment is
about three feet long so that a patient's legs will not easily be
dislodged from the pillow 60. The flat bottom of the pillow 60
substantially prevents the pillow 60 from rolling or moving with
respect to the patient's bed.
[0043] Referring to FIG. 9, the pillows 50 and 60 are also provided
with a cover 70 similar to the cover 34 provided for the pillow of
the first embodiment, support pillow 10. The cover 70 is made from
the same coated fabric as used for the cover of 34. The cover 70
covers the protrusions 16 of either the pillow 50 or the pillow 60,
but does not cover the bottom of the pillows 50, 60. Similar to the
cover 34, the cover 70 has ends 72. The ends 72 have a shape which
conforms to the general cross-sectional shape of the pillows 50,
60, rather than the semi-circular shape of the ends 36. The cover
70 also has a originally rectangular shaped piece 74 stitched to
the ends 72. Exposed edges of the cover are wrapped with a strip of
reinforcing material 76 to give the exposed edges a comfortable,
tear resistant edge. Straps 78 are also provided to help keep the
cover on the pillow 50 or 60. The straps 78 are similar to the
straps 42 for the cover 44. The pillow 50 or 60 is inserted into
the cover by compressing the pillow and pushing it into the cover
70 through an opening between the straps 78. Alternatively, the
covers 34 and 70 can be secured to their respective pillows with
other types of fasteners, such as a hook and loop type fastener
(e.g., VELCRO).
[0044] Although particular embodiments of the invention have been
described in detail, it is understood that the invention is not
limited correspondingly in scope, but includes all changes,
modifications and equivalents coming within the spirit and terms of
the claims appended hereto.
* * * * *