[0001] The present invention relates to an inflatable head or forearm support device. More
particularly, the present invention relates to a support device comprising cells or
compartments designed to be inflated with air.
[0002] Hence the present invention relates to the field of mattress or cushion-type support
devices for supporting the body or a part of the body of a reclining person.
[0003] Known support devices of this type comprise inflatable elements, generally in the
form of essentially sausage-shaped cylinders disposed side by side and which are used
in particular as mattresses to form an inflatable supporting layer on which an individual
can be reclined and supported in optimum comfortable conditions, in particular for
therapeutic purposes.
[0004] Mattresses referred to as therapeutic mattresses consisting of cells inflated with
air, particularly sausage-shaped cells extending crossways relative to the longitudinal
axis of the bed on which the mattress is intended to be used, wherein said cells are
filled with air by means of an air pressure regulator system making it possible, as
needed, to vary the air pressure in the cells in different mattress zones relative
to the parts of the body exerting pressure on said mattress zones in such a way as
to homogenize the interface pressure on the various parts of the body, are also known.
[0005] The main purpose of these therapeutic mattresses, which are described, for example,
in French patent no.
07 55812, is to prevent or alleviate bedsores caused by high interface pressure between certain
parts of the patient's body and the surface of the mattress, which is a common problem
in hospitals when the patient is confined to a bed for a prolonged period with limited
mobility.
[0006] Such mattresses, enable the filling of the inflatable elements in the various mattress
zones and hence the pressure to be controlled individually, in order to produce an
interface pressure distribution adapted to each part of the patient's body, thanks
to a mechanism for controlling the inflation/deflation of the cells.
[0007] The aim of these control mechanisms is not only to ensure the patient's optimum comfort
but also to ensure optimum vascularization of the patient's body by homogenizing the
pressure exerted by the mattress on the different parts of the patient's body.
[0008] The use of a plurality of sausage-shaped cylinders disposed side by side in combination
with a system for controlling the inflation of the cells makes it possible to homogenize
the pressures exerted locally by the mattress surface at various points on the body
relative to the morphology and the position of the patients, and thus avoid or reduce
the risks of decubitus sores forming in the at-risk zones of the body, such as, in
particular, the sacrum and the heels.
[0009] A support device especially suited for reducing the formation of bedsores in the
region of the feet is described in
US-5,952,872.
[0010] An inflatable cushion having different cells disposed side by side longitudinally
with lateral cells greater in height so as to provide a wedging of the head in a channel
is described in
WO 2006/043861.
[0011] The elbow and the forearm are also zones that are very likely to develop complications,
in particular bedsores, because they consist of numerous bony protuberances and they
are cited in studies on the prevalence of nosocomial infections.
[0012] Elevating the patient's chest by tilting the back rest at the head end of the mattress
on which the patient is reclining, particularly after a prolonged period of bed rest,
results in a position that quickly becomes uncomfortable for the patient and leads
to edema because the forearm and the hand are poorly vascularized, and the arm is
in a lower position relative to the heart.
[0013] Furthermore, it is often necessary to position the forearm with the inside facing
upwards for drawing blood or inserting a catheter.
[0014] The present invention provides a support device for the forearm or head of a patient
comprising an inflatable plastic envelope forming two larger side compartments each
having, in the inflated state and an unfolded position, first, second, third and fourth
side surfaces and a fifth, bottom, surface and a sixth, top, surface, and one smaller
third compartment in the shape of a tubular sleeve positioned crosswise between the
side compartments,
characterized in that the two large side compartments are symmetrically disposed relative to a first vertical
median plane extending in a longitudinal direction, each of the large side compartments
having a first side surface at a first longitudinal end and a second side surface
at a second longitudinal end; in that the two large side compartments are joined together
by the third compartment which interconnects opposing third side surfaces of the large
side compartments, the third compartment being located near said first longitudinal
end of the large side compartments, and having a second vertical plane of symmetry
extending perpendicular to said first plane of symmetry and to said longitudinal direction
in that said second surfaces each cooperate with or each comprise first connection
elements capable of releasably engaging with each other so as to join said second
side surfaces of the two large side compartments together, the two large side compartments
and the third small crosswise compartment thus being able to assume the following
two positions with the device positioned on a horizontal planar support P in its inflated
state:
- a) the unfolded position for forming a head support in which the first connection
means are not engaged and a patient's neck can be supported by the third compartment,
with the two large side compartments controlling sideways tilting of the head and
without the back of the patient's head, contacting said support plane and
- b) a folded position for forming a forearm support in which said first connection
elements are engaged and the two large side compartments are in a folded position,
in which the second surfaces are in close contact and said third and fourth surfaces
of said large compartments become the top and bottom surfaces, respectively, of said
large compartments and said first, said second, said fifth and said sixth surfaces
become the inner and outer side surfaces, respectively, of said large compartments,
and portions of said fifth surfaces of the two large compartments between the top
surfaces formed by said third surfaces form a channel, and the ends of said third
surfaces are bridged by said third compartment in such a way that a patient's forearm
can rest on said third surfaces of the two large side compartments with the patient's
elbow suspended in space without contacting the third surfaces and the fifth surfaces
of the large side compartments, and wherein the patient's hand can be inserted in
an open space between the two large side compartments and the third compartment and
can grasp hold of said third compartment.
[0015] Preferably:
- a) in said unfolded position for forming a head support, the section lines in a third
median horizontal plane of said first and second side surfaces are parallel to said
second plane of symmetry, wherein said section lines of said second side surfaces
have a length shorter than that of the section lines of the first surfaces, wherein
each of the two large side compartments has a first trapezoidal shape in the third
median horizontal plane, wherein said third side surfaces and the third compartment
delineate a first open space of second trapezoidal shape in this third plane, wherein
the third compartment has a top surface lower than said fifth top surfaces at said
first longitudinal end of the large side compartments, and
- b) in the folded position for forming a forearm support, portions of said fifth surfaces
of the two large compartments extending from said second surfaces are in close contact
with each other, and the remaining portions up to said first surfaces are progressively
spaced apart in such a way that the fifth surfaces form a second open space between
them, with a V-shaped longitudinal section, in a third plane parallel to the support
plane, wherein the space between the top surfaces constituted by said third surfaces
forms the channel above the close contact portions of the fifth surfaces adjacent
said second longitudinal end of said large side compartments, wherein each third surface
of the large side compartments in the inflated state has a curved, convex cross-section,
and the ends of said third surfaces as well as the end of said second open space beside
the first longitudinal ends of the large side compartments are spaced apart from each
other and bridged by the third compartment which interconnects the third surfaces.
[0016] The support device is designed to rest on a horizontal mattress on which the patient
is seated, reclined on a bed with his/her chest elevated, with the bottom surfaces
of the two large side compartments resting on said mattress.
[0017] In said folded position for forming a forearm support, because the length of the
first surfaces is greater than the length of the second surfaces in a third horizontal
plane, said large side compartments have a height toward their first end that is greater
than the height at their second longitudinal end. Hence, when the device is in the
forearm support position, the elbow is at a lower elevation than the hand when the
latter is engaged above or below the third compartment.
[0018] In other words, in said folded forearm support position, the third surfaces of the
two large side compartments are inclined relative to the support plane on which rest
said bottom surfaces at an upward slope from said second surfaces to said first surfaces
of the large side compartments and hence to said third compartment.
[0019] The device when used as a forearm support makes it possible to relieve interface
pressure on the elbow and on the forearm via the channel shape, because the elbow
and the bottom surface of the forearm are suspended in space above the interconnection
zone or line of contact of the fifth surfaces of the two large compartments, with
the elbow and the forearm supported on each side by the convex, curved top rims of
the fifth surfaces joining up with the third surfaces, which also have convex cross-sections.
[0020] The channel of the forearm support device of the invention is formed on one hand
by the line of contact between the fifth surfaces of the two large side compartments,
and on the other hand by the progressive increased width between the top rims of the
fifth surfaces of the two large compartments above the line of contact, as well as
by the progressive widening between the fifth surfaces above the end of said line
of contact forming a longitudinal sectional channel, of second trapezoidal shape.
This channel thus makes it possible to wedge the forearm and, if need be, prevent
it from pivoting sideways, hence facilitating the drawing of blood and the possible
insertion of a catheter.
[0021] Furthermore, said third compartment forms a handle overhanging and joining up with
said third surfaces when said first connection elements are cooperating with each
other and when the compartments are inflated, and with the two large compartments
folded against each other. Hence the device makes it possible to support the forearm,
the elbow being wedged in said channel, while enabling the hand to be held between
the third surfaces of the two large compartments and the bottom surface of the third
compartment. The hand can be inserted above said third surfaces or preferably below
said third compartment in such a way that it is possible to grasp hold of said third
compartment with the hand turned with its inner surface facing upwards. This position
allows easy access to the wrist for drawing blood and the possible insertion of catheters
by immobilizing the forearm in the channel and the hand between the handle and the
third surfaces of the large side compartments.
[0022] The same handle thus serves as a handhold, so also enabling the device to be used
as a kinesiotherapy tool for the functional rehabilitation of the flexor and tensor
muscles of the hand, fingers and wrist.
[0023] Furthermore, the forearm support device prevents the development of complications
linked to poor vascularization by elevating the forearm and by aligning the axis of
the forearm perpendicular to the torso. Plus, in this position the elbow support device
makes it possible to keep the forearm at the same elevation as the heart, thus facilitating
the vascularization of the end of the hand.
[0024] The forearm support device can also serve as a lateral wedging mechanism and cushioning
zone between the patient's body, particularly between the patient's thighs, and the
side rails of the bed.
[0025] In the unfolded position said third compartment is capable of supporting a patient's
neck, with the patient's chest and head wedged between and against the two side compartments,
and the sides of the chest can be wedged against the third surfaces of the two side
compartments.
[0026] The device, thanks to its horseshoe shape when it is unfolded and flatly positioned
for supporting the neck, thus makes it possible to wedge the patient's head comfortably
while leaving the neck zone free. An unobstructed access to the neck while keeping
the head wedged is very advantageous for an intubated patient, a patient on a respirator
and/or a patient needing other types of care via this zone.
[0027] Hence the unfolded configuration of the support device has the advantage of being
able to allow good support of the head in various positions. In particular, the head
is supported in the vicinity of the neck or cheek by the third compartment, with the
skull then tilted rearwards and the chin and the throat, in contrast, tilted upwards
and perhaps sideways, this position making it easier to insert a tube in the trachea
of a patient reclining on a mattress.
[0028] This configuration of the head support device is also useful for washing the patient's
head and hair or for performing other healthcare tasks with a pan placed under the
back of the patient's head.
[0029] Controlling the position of the head in terms of sideways or rearwards pivoting,
however, is mainly advantageous for avoiding excessive pressure on the patient's skin,
which can lead to the formation of bedsores, and/or for treating said bedsores in
the occipital and frontal regions and on the back, respectively, of the patient's
head.
[0030] A device capable of being inflated with air as described has advantages over the
synthetic fabric or foam pillows generally used in hospital beds. Firstly, the device
is much lighter and less bulky when it is stored in its deflated state. Furthermore,
it is possible to manufacture such devices from a simple envelope made of plastic
or other impermeable synthetic material, hence the manufacturing cost is considerably
lower compared to synthetic fabric or foam-filled pillows. Last but not least, the
expense of using such devices is considerably reduced because the device can be washed
between two uses and hence reused for different patients, in contrast to foam pillows
in particular. Moreover, foam or fabric materials are particularly hard to sterilize
and therefore cannot be used for different patients.
[0031] The fact that the device is capable of being inflated with air is advantageous in
many respects.
On one hand, the device can be manufactured from a plastic envelope, which makes it
less bulky in the deflated state, economical to manufacture and to use because since
the device is washable, it can be reused for different patients. Furthermore, the
comfort of the device can be adjusted by controlling the air pressure inside of it.
In addition, it can be hooked up to the compressed air supply and pressure regulation
system of a therapeutic mattress formed of inflatable cells.
[0032] Preferably, the section lines of said fourth surfaces in a median horizontal plane
are disposed in said longitudinal direction XX' of said large side compartments, approximately
90° relative to the section lines in the median horizontal plane of said first and
second surfaces of said large side compartments which are disposed in the perpendicular
direction YY'.
[0033] By "section line of a surface in a median horizontal plane" is meant the straight
line or segment of intersection between said surface and a median horizontal plane,
i.e., halfway up said surface.
[0034] Preferably also, in said unfolded head support position, said median horizontal section
plane is a common median plane of the large side compartments and of the third compartment,
the extremes of said third compartment extend approximately halfway up said large
side compartments, and a bottom surface of said third compartment is positioned above
the support plane.
[0035] In this embodiment, it is also understood that the extremities of said third compartment
extend approximately to mid-width of said third surfaces when the device is in the
folded forearm support position.
[0036] The first connection elements may compromise zippers or Velcro positioned at the
center of the second surfaces and spanning their length in the direction perpendicular
to the longitudinal direction of the two large side compartments.
[0037] It will be understood that said perpendicular direction is a horizontal direction
when the device is in the unfolded position and that it is a vertical direction when
the device is in the folded, forearm support position.
[0038] Preferably the large compartments having second connection elements capable of keeping
said first longitudinal ends in the longitudinal direction of said fourth surfaces
of said large side compartments at a given distance apart in the folded forearm support
position.
[0039] Use of the device in its so-called folded forearm support position is achieved by
the first connection elements, with the ends of the two large side compartments being
brought in proximity to each other in the vicinity of the second surfaces, and that
this is done by folding the two large side compartments approximately 90°. This folding,
however, is reinforced if the first connection elements are complemented by second
connection elements.
[0040] More particularly, the second connection elements may be located near the common
end of said first, fourth and fifth surfaces of each of the two large side compartments,
and said second connection elements make it possible to adjust the distance between
said common ends of each of the two large compartments.
[0041] The ends of said third surfaces adjacent said first longitudinal ends of the two
large side compartments are brought in proximity to each other from a distance equal
at most to the length of the third compartment.
[0042] It will be understood that, in the so-called folded position for forming a forearm
support when said second connection elements are not used, the fourth surfaces of
the large compartments are spaced further apart from each other in the vicinity of
their first ends (the end beside the first surfaces) than the ends of the third surfaces.
As a result, when the second connection elements are not used, the section lines in
said second vertical median plane of said fifth surfaces are angled with respect to
the first vertical median plane of symmetry of the two large side compartments relative
to each other, being in closer proximity to each other toward the third surfaces than
toward the fourth surfaces. Moreover, the sixth surfaces or outer side surfaces are
inclined at a greater angle than the fifth surfaces.
[0043] It is possible to adjust the height of the device at the first longitudinal ends
of said two large compartments and to raise the height of said third compartment by
bringing those ends towards each other by adjusting the length of the second connection
elements. The effect of this will be to reduce the angle of the section lines of the
fifth and sixth side surfaces of the two large side sectional compartments in the
second vertical median plane of the third compartment.
[0044] This adjustment of the height of the device at the first longitudinal ends of the
two large side compartments is simultaneous with the adjustment of the width of the
device at the first ends of said fourth surfaces of the two side compartments.
[0045] It will be understood that the device when used as a forearm support has a maximum
height when the second connection elements are adjusted in such a way as to provide
a minimum distance between the first surfaces of the two large side compartments corresponding,
in the region of the fourth surfaces, approximately to the distance between the third
surfaces at the first ends of the two large side compartments. It is likewise understood
that if the second connection elements are not engaged, said first ends of said fourth
surfaces of the two large side compartments will obviously move a maximum distance
apart from each other.
[0046] This adjustment is advantageous, either as making it possible to elevate the patient's
hand to the same height as the patient's heart and/or for the wedging of the device
between the patient and the side rails of the hospital bed on which he/she is resting.
[0047] Preferably said two large side compartments communicate with each other by means
of said third compartment thus forming a single cell, with a single inflation valve
stem, and further preferably a single deflation valve stem disposed on a sixth surface
near its interconnection with a second surface and a fourth surface.
[0048] Said inflation/deflation valve stems thus do not bother the patient, as they are
located beside an outer side surface and the ends of the two large compartments, said
ends being in proximity to each other when the device is in the folded position for
forming a forearm support and corresponding to the rim of the top surfaces of each
of the two side compartments remotest from the third compartment supporting the neck
when the device is in the unfolded position for forming a head support.
[0049] In an advantageous embodiment, the device has a cover with a shape of the three compartments
of the inflatable envelope, with said first connection elements provided on the portion
of the cover facing the portions of the inflatable envelope corresponding to the second
surfaces of the large side compartments, and said cover has an opening equipped with
releaseable closing elements enabling the introduction and confinement of said inflatable
envelope in the cover.
[0050] The cover will have openings for the inflation or deflation valve stems if provided.
[0051] With the cover embodiment, second connection elements may be provided on the portion
of the cover facing the portion of the inflatable envelope corresponding to the longitudinal
ends of said fourth surfaces of said large side compartments, preferably near the
common ends of said first and fourth surfaces.
[0052] Advantageously, said second connection elements are elements suitable for adjusting
the distance between said first ends of the two large side compartments and comprise
at least one strap fastened to each end, wherein said strap or straps is/are equipped
with complementary mutual fastening elements and wherein the length of at least one
strap is adjustable.
[0053] The device may be formed from a single inflatable envelope made of PVC or polyurethane
film or fabric impregnated with PVC or polyurethane or two films of said plastic or
fabric materials assembled together, preferably by welding along lines delimiting
the large compartments and the third compartment in the unfolded, flat position.
[0054] The surface of the envelope is easily cleaned with standard cleansers, or it can
be uncovered and machine-washed.
[0055] Advantageously, the device can be connected to a therapeutic mattress via a simple
quick coupler for supplying air, particularly at the same regulated pressures as for
the mattress or other support. It can also be inflated by a separate air supply and
used separately.
[0056] Preferably the device is pneumatically connected to a device for supplying compressed
air to and regulating the air pressure in a therapeutic mattress formed of inflatable
cells on which the device is resting, or the device is pneumatically connected to
an air outlet valve of such a mattress
[0057] The present invention at least in the preferred embodiments provides a universal
device solving the problems discussed above and, in particular, capable of acting
as both a pillow that not only provides additional means for fighting against the
formation of bedsores, but also facilitates the necessary head and neck movements
for interventions by healthcare personnel, more particularly in the vicinity of the
head, and a forearm support that is capable of resolving the problems of bedsore formation
and poor vascularization of the patient, as well as the problem of immobilizing the
forearm discussed previously.
[0058] The invention will now be further described by way of example with reference to the
accompanying drawings, in which:
Figures 1A and 1B show a support device of the invention in the unfolded position
on a plane P in the deflated state (figure 1A) and in the inflated state (figure 1B).
Figures 1C and 1D show the support device of figure 1B, folded in the forearm or elbow
support position.
Figures 2A-2D show an inflatable envelope (figure 2A) and a cover equipped with first
and second connection elements, wherein said cover is capable of accommodating said
inflatable envelope consisting of two large side compartments 2-3 and a third compartment
4 for forming a head support device after closure (figure 2C) and after inflation
(figure 2D).
Figures 3A and 3B show perspective views of the front (figure 3A) and the back (figure
3B) of a device of the invention in the folded, forearm support position.
Figure 4A is a side view of the device of figures 3A and 3B.
Figure 4B is a back view of the device of figures 3A-3B.
Figure 4C shows a view from above of the device of figures 3A-3B.
Figure 5A is a cutaway view along line AA of figure 4A.
Figure 5B is a cutaway view along line BB of figure 4B.
Figure 6 is a view of a forearm in position on a forearm support device of the invention.
Figure 6A is a side view.
Figure 6B is a cutaway view along line CC of figure 6A.
Figure 7 is a view of the support device of the invention being used as a head support.
Figures 8A, 8B and 8C are views of the support device of the invention being used
as a forearm support by a patient on a hospital bed.
[0059] In figure 1A, a support device 1 is shown in a deflated position and flat on a planar
support P.
The device comprises a single plastic envelope having the following three intercommunicating
compartments: two large side compartments 2, 3 with an approximately trapezoidal shape
T
2 and disposed symmetrically relative to a longitudinal axis XX', and a third compartment
4.
[0060] The two large side compartments 2,3 have a right-angled trapezoidal shape T
2 such that:
- their large base is constituted by a first side 2-1, 3-1 extending in the direction
YY' perpendicular to the longitudinal axis XX' of the large side compartments 2-3,
wherein each first side 2-1, 3-1 has a length I1, and
- a small base constituted by second sides 2-2, 3-2 of length I2 likewise disposed in said perpendicular direction YY', and
- fourth sides 2-4, 3-4 interconnecting outer ends 2c-3c, 2b-3b, first sides 2-1, 3-1
and second sides 2-2, 3-2, wherein said fourth sides extend in said longitudinal direction
XX', i.e., perpendicular to said small and said large base,
- third sides 2-3, 3-3 interconnecting between the inner ends 2a, 3a of said second
sides and the ends of the third compartment 4.
[0061] The third compartment 4 extends in the perpendicular direction YY' with a first side
4-4 which interconnects the two large bases or first sides 2-1, 3-1 of the two large
side compartments and a second side 4-3 parallel to said first side 4-4 and forming
with third sides 2-3 and 3-3 and the space between the inner ends 2a-3a of the second
sides 2-2, 3-2, a trapezoid T
1 having the longitudinal median axis XX' as an axis of symmetry.
[0062] The large base of the trapezoid T
1 between the inner ends 2a and 3a has a length I
4 of about 40 cm, the length I
2 being about 20 cm.
[0063] The fourth sides 2-4, 3-4 have a length L of about 45 cm.
[0064] The width I
3 of the third compartment 4 in the direction XX' is about 10 cm.
[0065] The incline of the third sides 2-3, 3-3 relative to the direction XX' is about 20°,
hence the length of the third sides between the inner ends 2a, 3a of the second sides
2-2, 3-2 and the ends 2d, 3d of the third compartment in the vicinity of the interconnection
with the third sides 2-3, 3-3 is around 40 cm.
[0066] The length I
3 of the third compartment 4 in the direction YY' is around 20 cm, hence the lengths
I
1 of the first sides 2-1 and 3-1 are about 30 cm.
[0067] After inflation, the envelope of figure 1A transforms into a cushion or pillow as
shown in figure 1B, comprising two large side compartments 2,3 having four side surfaces
and a top and bottom surface.
[0068] The first, second, third and fourth sides of the envelope of figure 1A become the
first, second, third and fourth side surfaces of the side compartments of the inflated
envelope of figure 1B.
[0069] At this point it should be noted that the envelope of figure 1A can be obtained by
welding two sheets of the same shape cut out according to said first, second, third
and fourth sides of the two trapezoids T
2, as well as the two sides 4-3 and 4-4 of the third compartment of figure 1A and welded
along their periphery.
[0070] However, in order to limit the number of cut-outs and welds, preferably a single
sheet is used folded at said first sides 2-1, 3-1 and 4-4 and welded at the other
sides 2-4, 2-2, 2-3, 4-3, 3-3, 3-2 and 3-4.
[0071] After inflation, what were the sides of the compartments of figure 1A in fact becomes
the section segments or section lines of the corresponding surfaces of the large side
sectional compartments in a median horizontal section plane, i.e., halfway up said
inflated large side compartments as shown in figure 1B.
[0072] Because the third compartment 4, when inflated, will have a tubular shape essentially
circular in cross-section in a transverse vertical plane corresponding to the vertical
plane of symmetry P1 in the longitudinal direction XX', the top surface 4-1 of the
third compartment 4 will be slightly sunken relative to the height of the top surfaces
2-6, 3-6 of the two large side compartments 2,3 which it interconnects. And, conversly,
the bottom surface 4-2 of said third compartment 4 which interconnects the bottom
surfaces 2-5, 3-5 of the two large side compartments will not be in contact with the
plane P on which the two bottom surfaces 2-5, 3-5 of the two large side compartments
2,3 rest.
[0073] Likewise, because the two sides 2-2, 3-2 are of a length I
2 shorter than the length I
1 of the first sides 2-1, 3-1, after inflation the corresponding second surfaces 2-2,
3-2 will have a height slightly lower than the height of the third side surfaces 2-1,
3-1.
[0074] As shown in figure 7, this unfolded cushion shape is used in particular as a neck
17 support combined with two pillows formed by said large side compartments 2, 3 suitable
for allowing a controlled, sideways tilting of the head, particularly during interventions
in the oral zone, particularly for intubating a patient.
[0075] Furthermore, the fact that the back of the head is elevated by the neck support also
prevents bedsores from forming in this area. It should also be noted that because
the side compartments 2, 3 extend from only one side of the third compartment 4 supporting
the neck, the latter will allow the head to tilt sideways in the vicinity of the jaw
while maintaining contact in the vicinity of the frontal occiputs and/or the cheekbones.
[0076] In figure 1A, it can be discerned that the outer ends 2c-3c of said first sides 2-1,
3-1 are equipped with straps 6a,6b with complementary hooking elements 6c,6d.
[0077] One of the straps 6a is adjustable in length, i.e., it can have a longer or shorter
length depending on how it is adjusted.
[0078] Furthermore, said second sides 2-2 and 3-2 are equipped along their entire length
with closing elements 5a,5b in the form of zippers or Velcro strips capable of connecting
the second sides 2-2, 3-2 of each of the two large side compartments with each other.
[0079] It can also be discerned that the two large side compartments are equipped respectively
with an inflation valve 10-1, to which is connected an inflation hose 11 and a deflation
valve 10-2 on the top surfaces 2-6, 3-6 of the two large side compartments near the
common end of the second and fourth sides, which, when inflated, move these inflation
elements to a position near the outer angle between the second and fourth surfaces
2-2, 2-4 of each of the two large side compartments.
[0080] After folding of the device shown in figures 1A and 1B in such a way that the second
sides 2-2, 3-2 are in proximity to each other in order to allow the cooperative in
closing of the first connection elements 5a,5b of each of the two second sides 2-2,
3-2 of the two side compartments 2, 3, the first connection elements 5a,5b and second
connection elements 6a,6b enable both of the second sides 2-2, 3-2 to align themselves
in an essentially vertical position so that the two large side compartments 2 and
3 end up folded approximately 90°, with their outer side surfaces 2-6, 3-6 essentially
vertical, as shown in figures 1C and 1D.
[0081] In this folded position, the device is capable of forming a forearm or elbow support.
[0082] In effect, said third and fourth surfaces 2-3, 3-3 and 2-4, 3-4 of the large compartments
have become the top and bottom surfaces, respectively, of said large compartments
2, 3; said first and second surfaces 2-1, 3-1, 2-2, 3-2 and said fifth and sixth surfaces
2-5, 3-5, 2-6, 3-6 becoming the inner and outer side surfaces, respectively, of the
two large compartments.
[0083] In order to achieve this folding of the two large side compartments by approximately
90° and the connection of the second surfaces 2-2, 3-2 with the first elements 5a,5b,
it is necessary to employ second connection elements 6a,6b simultaneously, while allowing
a certain distance between the ends 2c-3c of said first surfaces 2-1, 3-1 by adjusting
the length of the second connection elements constituted by the straps 6a,6b.
[0084] By bringing the second surfaces 2-2, 3-2 in proximity to each other, a portion of
said fifth inner surfaces 2-5, 3-5 of the two large side compartments 2, 3 are in
close contact with each other; the remaining portions up to the first surfaces 2-1,
3-1 progressively widening in such a way that the remaining portions fifth surfaces
2-5, 3-5 form between them a second empty space 7-2 with a V-shaped longitudinal section
in a third median plane P
3 parallel to the support plane P on which the bottom surfaces 2-4, 3-4 rest when the
support device is folded for forming an elbow support.
[0085] The portions of said fifth inner side surfaces 2-5, 3-5 in contact with each other
form, as shown in figures 4B and 6B, a cross-sectional channel 8 constituted by the
convex, curved top rims 8-1 of said inner side walls 2-5, 3-5 extending above their
line of contact 8-2.
[0086] The ends of said third top surfaces 2-3, 3-3 of the device folded in this manner
are spaced apart from each other toward said first side surfaces 2-1, 3-1 and bridged
by the curved, tubular sleeve-shaped third compartment 4 ensuring the interconnection
in the form of a handle between said third surfaces 2-3, 3-3 at their end near the
first surface 2-1, 3-1.
[0087] As shown in figures 6, 6A and 6B, it is thus possible to position the forearm 13-2
in such a way that it is resting on said third top surfaces 2-3, 3-3 at their back
end i.e. the end beside the second surfaces 2-2, 3-2, wherein the point of the elbow
13-3 is suspended in space in said channel 8 above the zone of the contact line 8-2
between the two inner side surfaces 2-5, 5-5 and therefore not in contact with the
elbow support device.
[0088] The forearm 13-2 is wedged and held in the channel 8, which reduces the contact zone
by virtue of the convex, curved top surface 8-1 on one hand, and because of the progressive
widening above the second open space 7-2 of the two inner side surfaces 2-5, 5-5 on
the other hand.
[0089] The third compartment 4 is then useful in terms of placing the hand with the palm
facing upwards and grasping hold of said handle by its bottom surface 4-2. This position
is particularly useful in many circumstances, such as:
- stabilizing the wrist 13-1 and the forearm for drawing blood and/or inserting catheters,
and
- performing kinesiotherapeutic exercises for the functional rehabilitation of the flexor
and tensor muscles of the hand, fingers and wrist.
[0090] As shown in Figures 8A, 8B and 8C, the device folded in the elbow support position
enables the forearm to be elevated by aligning the axis of the forearm 13 approximately
perpendicular to the torso at the same time the patient's 18 chest 20 is raised by
raising his back rest 19; furthermore, this position makes it possible to keep the
forearm at the same or nearly the same height as the heart, thus enhancing the vascularization
of the end of the hand in such a way that overall, raising the patient's chest does
cause the patient discomfort, which in turn can lead to edema because the arm is in
a position lower than the heart.
[0091] Furthermore, as shown in figures 8B and 8C, by virtue of the adjustable distance
of the second connection elements 6a,6b, it is possible to wedge the support device
1 between the lower limbs 16 of the patient 18 and the side rails 15 of the bed for
contributing to the stabilization of the forearm for drawing blood and/or inserting
a catheter, as mentioned above.
[0092] Depending on the width of the bed, the second connection elements 6a,6b can be adjusted
to the minimum width I
5 as shown in figure 8B or to the maximum width I
6 as shown in figure 8C.
[0093] Enlargement of the space between the ends 2c-3c of the first surfaces 2-1, 3-1 which
produces an enlargement between the ends of the fourth inner surfaces 2-4, 4-4 also
makes it possible to lower the height of the end of the elbow support device in the
vicinity of the first surfaces as needed and thus reduce the slope of the top surfaces
2-3, 3-3 from the second surfaces 2-2, 3-2 at the back end (or second longitudinal
end) of the device to the first surfaces 2-1, 3-1 at the front end (or first longitudinal
end) of said device.
[0094] In figure 4B, the maximum height H of the device at the top surface 4-1 of the handle-shaped
third compartment 4 is about 30 cm and essentially equal to the width L
1 of the device in the vicinity of said third compartment, i.e., between the ends of
the outer side surfaces 2-6, 3-6 beside the front end (or first longitudinal end)
of the device.
[0095] The ends of said third top surfaces 2-3, 3-3 of the elbow support device, beside
their first longitudinal end or front end, reach a maximum height H1 of about 25 cm
when the device is set in its position of minimum width L1 with the outer side surfaces
2-6, 3-6 essentially vertical as shown in figures 1C, 3A and 4C
[0096] When the bottom surfaces 2-4, 3-4 are moved apart from each other by adjusting the
straps of the second connection elements 6a, 6b in such a way that the distance between
the ends 2c and 3c is widened, the heights H and H1 at the front end of the device
diminish. The outer side surfaces 2-6, 3-6 simultaneously assume a slight vertical
inclination.
[0097] Because the device is constituted from a single envelope having different folding
positions between its various compartments, it will be understood that the surfaces
of said compartments are not flat, but rounded (with convex curves after inflation)
and that the terms "side surface, vertical," "top surface, planar" etc are approximations.
The device is illustrated most accurately in figures 1B,2D and 8B-8C.
[0098] A preferred embodiment is illustrated in figures 2A to 2D, in which the envelope
forming said compartments has neither first connection elements 5a-5b on said first
surfaces or first sides 2-2, 3-2, nor second connection elements at the end of said
first surfaces or first sides 2-1, 3-1.
[0099] Instead, the envelope 1a is inserted into a cover 9 having the same shape with two
trapezoidal compartments joined at their end near their large base by a rectangular
compartment, by introducing the envelope 1a via an opening 9-1 extending the length
of the large bases.
[0100] The cover 9 has first connection elements on its sides corresponding to or facing
the second sides 2-2, 3-2 of the envelope 1a when the latter is inserted in the cover.
[0101] The cover likewise has, at its outer side ends beside its front longitudinal end,
in other words corresponding or facing the outer ends of the first sides 2-1, 3-1
of the envelope 1a when the latter is inserted in said cover, second connection elements
6a-6b.
[0102] The cover has perforations 12 near the angles between its outer sides in the longitudinal
direction XX' corresponding to said fourth side 2-4, 3-4 of both large compartments
2,3 of the envelope 1a when the envelope 1a is introduced inside said cover 9. The
envelope 1a is fastened to said cover in the vicinity of the orifices 12 in which
the inflation 10-1 and deflation 10-2 valve stems are introduced.
[0103] After closing the third connection elements 9-2 of the opening 9-1 of the cover 9,
a device 1 as shown in figure 2C is obtained, which after inflation has the same contours
as the device of figure 1B, as shown in figure 2D, the only difference being that
the third connection element 9-2 of the opening 9-1 is visible in the center of the
first surfaces 2-1, 3-1 and on the outer side surface turned towards the front end
of the third compartment 4, as shown in figure 3A.
[0104] The device can be connected in series or in parallel to a mattress formed from sausage-shaped
cylinders inflated by a device for supplying compressed air to and regulating the
air pressure in the interior of said cylinders when the patient is immobilized.
[0105] The support device is thus supplied, as needed, with air in a regulated manner by
the same compressed air system as the mattress on which it is resting.
[0106] Preferably the air pressure in the device is at a regulated pressure identical to
that of said mattress, which pressure can be a continuous pressure if the mattress
is in the continuous mode, or a regulated alternating pressure if the mattress is
in the alternating mode with successive inflation and deflation, as is well known.
[0107] The support device can also be disconnected from the mattress and/or the air supply
system, being airtight, the support device remains inflated.
1. A support device for the forearm or head of a patient (18) comprising an inflatable
plastic envelope forming two larger side compartments (2, 3) each having, in the inflated
state and an unfolded position, first, second, third and fourth side surfaces and
a fifth, bottom, surface and a sixth, top, surface, and one smaller third compartment
(4) in the shape of a tubular sleeve positioned crosswise between the side compartments
(2,3),
characterized in that the two large side compartments (2, 3) are symmetrically disposed relative to a first
vertical median plane P
1 extending in a longitudinal direction (XX'), each of the large side compartments
having a first side surface (2-1, 3-1) at a first longitudinal end and a second side
surface (2-2, 3-2) at a second longitudinal end;
in that the two large side compartments are joined together by the third compartment (4)
which interconnects opposing third side surfaces (2-3, 3-3) of the large side compartments,
the third compartment being located near said first longitudinal end of the large
side compartments, and having a second vertical plane of symmetry P
2 extending perpendicular to said first plane of symmetry P
1 and to said longitudinal direction (XX')
in that said second surfaces (2-2, 3-2) each cooperate with or each comprise first connection
elements (5a, 5b) capable of releasably engaging with each other so as to join said
second side surfaces of the two large side compartments together, the two large side
compartments (2, 3) and the third small crosswise compartment (4) thus being able
to assume the following two positions with the device positioned on a horizontal planar
support P in its inflated state:
a) the unfolded position for forming a head support in which the first connection
means are not engaged and a patient's neck (17) can be supported by the third compartment
(3), with the two large side compartments controlling sideways tilting of the head
(14) and without the back of the patient's head, contacting said support plane (P),
and
b) a folded position for forming a forearm (13) support in which said first connection
elements are engaged and the two large side compartments are in a folded position,
in which the second surfaces (2-2, 3-2) are in close contact and said third and fourth
surfaces (2-3, 3-3, 2-4, 3-4) of said large compartments become the top and bottom
surfaces, respectively, of said large compartments and said first, said second, said
fifth and said sixth surfaces (2-1, 3-1, 2-2, 3-2, 2-5, 3-5, 2-6, 3-6) become the
inner and outer side surfaces, respectively, of said large compartments, and portions
of said fifth surfaces of the two large compartments between the top surfaces formed
by said third surfaces (2-3, 3-3) form a channel (8), and the ends of said third surfaces
(2-3, 3-3) are bridged by said third compartment (4) in such a way that a patient's
forearm (13) can rest on said third surfaces (2-3, 3-3) of the two large side compartments
with the patient's elbow (13-3) suspended in space without contacting the third surfaces
and the fifth surfaces (2-5, 3-5) of the large side compartments, and wherein the
patient's hand (13-1) can be inserted in an open space (7-3) between the two large
side compartments (2,3) and the third compartment (4) and can grasp hold of said third
compartment (4).
2. A device as in claim 1, wherein
a) in said unfolded position for forming a head support (14), the section lines in
a third median horizontal plane P3 of said first and second side surfaces (2-1, 3-1, 2-2, 3-2) are parallel to said
second plane of symmetry P2, wherein said section lines of said second side surfaces (2-2, 3-2) have a length
(I2) shorter than that (I1) of the section lines of the first surfaces (2-1, 3-1), wherein each of the two large
side compartments (2, 3) has a first trapezoidal shape (T1) in the third median horizontal plane P3, wherein said third side surfaces (2-3, 3-3) and the third compartment (4) delineate
a first open space (7-1) of second trapezoidal shape (T2) in the third median horizontal plane P3, wherein a top surface (4-1) of the third compartment (4) has a height that is lower
than the height of said fifth top surfaces (2-5, 3-5) at said first longitudinal end
of the large side compartments (2,3), and
b) in the folded position for forming a forearm support (13), portions of said fifth
surfaces (2-5, 3-5) of the two large compartments extending from said second surfaces
(2-2, 3-2) are in close contact with each other, and the remaining portions up to
said first surfaces (2-1, 3-1) are progressively spaced apart in such a way that the
fifth surfaces form a second open space (7-2) between them, with a V-shaped longitudinal
section, in the third median plane P3, wherein the space between the top surfaces constituted by said third surfaces (2-3,
3-3) form the channel (8) above the portions of the fifth surfaces (2-5, 3-5) in close
contact with each other adjacent said second longitudinal end of said large side compartments,
wherein each third surface (2-3, 3-3) of the large side compartments in the inflated
state has a curved, convex cross-section (8-1), and the ends of said third surfaces
as well as the end of said second open space (7-2) beside the first longitudinal ends
of the large side compartments are spaced apart from each other and bridged by the
third compartment (4) which interconnects the third surfaces (2-3, 3-3).
3. A device as in claim 1 or 2, wherein the section lines of said fourth surfaces (2-4,
3-4) in the third median horizontal plane (P3) are disposed in said longitudinal direction (XX') of said large side compartments,
approximately at 90° relative to the section lines in the third horizontal median
plane (P3) of said first and second surfaces (2-1, 3-1, 2-2, 3-2) of said large side compartments
which are disposed in a perpendicular direction (YY').
4. A device as in any preceding claim, wherein in said unfolded head support position,
the third median horizontal section plane (P3) is a common median plane of said large side compartments (2, 3) and of said third
compartment (4), and a bottom surface (4-2) of said third compartment (4) is positioned
above the support plane P.
5. A device as in any preceding claim wherein said first connection elements (5a, 5b)
comprise zippers or Velcro positioned at the center of the second surfaces (2-2, 3-2)
and spanning their length in a direction (YY') perpendicular to said longitudinal
direction (XX') of said two large side compartments.
6. A device as in any preceding claim wherein said large compartments (2, 3) have second
connection elements (6a, 6b) capable of keeping said first longitudinal ends in the
longitudinal direction (XX') of said fourth surfaces (2-4, 3-4) of said large side
compartments at a given distance (I5, I6) apart in said folded forearm support position.
7. A device as in claim 6, wherein said second connection elements (6a, 6b) are located
near the common end (2c, 3c) of said first, fourth and fifth surfaces of each of the
two large side compartments, and wherein said second connection elements (6a, 6b)
allow adjustment of the distance between said common ends (2c, 3c).
8. A device as in preceding claim wherein said large side compartments (2, 3) communicate
with each other by means of said third compartment (4), thus forming a single cell
which has a single inflation valve stem (10-1).
9. A device as in any one of claims 1 to 4 wherein the device has a cover (9) with a
shape of the three compartments of the inflatable envelope wherein said first connection
elements (5a, 5b) are provided on a portion of the cover facing the portions of the
inflatable envelope (1a) corresponding to the second surfaces of the large side compartments,
and wherein said cover has an opening (9-1) with releasable closing elements (9-2)
allowing the introduction and confinement of said inflatable envelope in the cover.
10. A device as in claim 9, wherein the device has second connection elements (6a, 6b)
on a portion of the cover facing the portion of the inflatable envelope corresponding
to the longitudinal ends of said fourth surfaces (2-4, 3-4) of said large side compartments.
11. A device as in any one of claims 6, 7 and 10 said second connection elements (6a,
6b) allow adjustment of the distance between said first ends of the two large side
compartments and comprise two straps (6a, 6b) equipped with complementary fastening
elements (6c, 6d) and wherein the length of at least one strap (6a) is adjustable.
12. A device as in any preceding claim, wherein the device is formed from a single inflatable
envelope made of PVC or polyurethane film or fabric impregnated with PVC or polyurethane
or two films of said plastic or fabric materials assembled together.
13. A device as in any preceding claim, wherein the device pneumatically connected to
a supply device for supplying compressed air to and regulating the air pressure in
a therapeutic mattress formed of inflatable cells on which the device is resting,
or it is pneumatically connected to an air outlet valve of such a mattress.
14. A device as in any preceding claim, wherein the third compartment (4) is circular
in cross-section.
15. A device as in any preceding claim, wherein in the folded position the two large side
compartments are at approximately 90° relative to the unfolded position.