Apparatus and method for pressure management

Information

  • Patent Grant
  • 6383153
  • Patent Number
    6,383,153
  • Date Filed
    Monday, June 4, 2001
    24 years ago
  • Date Issued
    Tuesday, May 7, 2002
    23 years ago
  • Inventors
  • Examiners
    • Donnelly; Jerome W.
    • Hamilton; Lalita M
    Agents
    • Brooks & Kushman P.C.
Abstract
An apparatus and method for alleviating excessive pressure development on a body area includes a cushion having bottom and top surfaces which are spaced apart. The top surface has a plurality of channels formed therethrough. A compressible inner layer is disposed between the top and bottom surfaces, and a plurality of elongate, inflexible members are supported by the inner layer and are disposed at least partially within the channels. The members have first ends that extend through the channels to project beyond the top surface. Pressure applied to the first ends causes the members to be displaced axially along the channels toward the bottom surface without deformation. Pressure produced by body contact creates point pressures on the body area, and displacement of the members maintains the plurality of point pressures on the body area, alleviating excessive pressure. The apparatus includes a enclosure cover and the members have large, tapered ends.
Description




TECHNICAL FIELD




This invention relates to an apparatus and method for alleviating or preventing excessive pressure, and therefore pressure sores, from developing on a contacted body area.




BACKGROUND ART




A pressure sore is any lesion caused by excessive, unrelieved pressure on an area of the body. When pressures above normal homeostatic pressure are applied to a body region and its associated blood vessels, the blood vessels can partially or fully collapse, thereby disrupting normal circulation. As a result, the affected area becomes devoid of blood supply, which prohibits oxygen and nutrients from being delivered to the surrounding tissue. Pressure sores often occur over bony prominences, and can range in severity from partial thickness skin loss to full thickness skin loss with tissue necrosis and damage to underlying muscle and bone.




Pressure sores are a common and costly problem in bed and chair-bound individuals, as well as in patients having an impaired ability to reposition themselves, such as those on ventilators or under anesthesia. In such individuals, various areas of the body may be permanently or almost permanently in contact with the support surface of the bed or chair, resulting in excessive pressure, lack of air circulation, and often increased shear between the contacted body area and the support surface.




Various systems have been proposed to reduce or prevent pressure sores. Among the most common prevention systems are mattresses, cushions, or pads that include some type of raised members extending from a flat base as shown, for example, in U.S. Pat. No. 5,153,956 issued to Nold. The raised members are spaced apart and designed to contact the body at numerous points in an attempt to lower the pressure between the affected body area and the support surface and equalize the pressure over the entire surface of the body. In order to be effective in this capacity, the raised members are designed to be of a height sufficient to maintain the body away from the base. However, upon the application of pressure by contact with the body, the raised members tend to bend and collapse into contact with the base, such that the body is resting against a substantially flat surface with broad points of contact. This action negates any lowering of pressure of the affected area, while also decreasing aeration and increasing the potential for shear between the body member and the pad.




DISCLOSURE OF INVENTION




Therefore, it is an object according to the present invention to provide an apparatus and method for pressure management, including alleviating or preventing excessive pressure development on a contacted body area.




It is a further object according to the present invention to provide an apparatus and method for alleviating or preventing excessive pressure development on a body area that function reliably regardless of the pressure applied by the contacted body area.




It is a still further object according to the present invention to provide an apparatus and method for alleviating or preventing excessive pressure development on a body area wherein the apparatus is embodied in a cushion or the like.




Still another object according to the present invention is to provide an apparatus for alleviating pressure which incorporates a member having a first end for exerting focused pressure upon the body area.




Yet another object according to the present invention is to provide a breathable cover for an apparatus for alleviating excessive pressure wherein the breathable cover shields the apparatus from unwanted foreign agents and is easy to clean and store.




A further object according to the present invention is to combine a hospital appliance such as a chair or bed with differently sized covered apparatus usable across various areas of the appliance to accommodate different portions of a user's body.




Accordingly, an apparatus for alleviating, and preferably preventing, excessive pressure development on a body area is provided. The apparatus includes a bottom surface and a top surface which is spaced from the bottom surface, and where the top surface has a plurality of channels formed therethrough. A compressible inner layer is disposed between the top and bottom surfaces, and a plurality of elongate, inflexible members are supported by the inner layer and disposed at least partially within the channels. The members have first ends that extend at least partially through the channels to project beyond the top surface, and in the absence of pressure the members are located at a neutral position. In operation, pressure applied to the first ends by contact with the body area causes the members to be displaced axially along the channels away from the neutral position and toward the bottom surface without deformation.




In a preferred embodiment, the members are longer than the distance between the top and bottom surfaces, such that the members extend beyond the top surface independent of the applied pressure in order to maintain a plurality of point pressures on a body area. In addition, the members include second ends located beneath the top surface, where each second end preferably includes an enlarged base operable to limit the distance that each member projects beyond the top surface. These second ends can be attached to the inner layer, which is preferably operable to return the members to the neutral position upon removal of the applied pressure.




In further accordance with a preferred embodiment of the present invention, the members have rounded first ends for added comfort when in contact with the body area. At least a subset of the channels are preferably densely spaced in order to provide a plurality of point pressures to the contacted body area. In terms of materials, the top and bottom surfaces are preferably constructed from a material, such as plastic, that is rigid relative to the inner layer. Additionally, the inner layer is preferably constructed of a foam material and the members can be constructed from either a rigid plastic or metallic material. In a preferred embodiment, the apparatus includes fasteners affixed thereto that are operable to removably attach the apparatus to another object, such as a standard chair, wheelchair, mattress, or to a part of the human body such as the heel or elbow.




Correspondingly, a method for alleviating or preventing excessive pressure development on a body area is provided. The method includes providing an apparatus which has a bottom surface, a top surface which is spaced from the bottom surface and has a plurality of channels formed therethrough, and a compressible inner layer which is disposed between the top and bottom surfaces. The method also includes providing a plurality of elongate, inflexible members which are supported by the inner layer and disposed at least partially within the channels, the members having first ends that extend at least partially through the channels to project beyond the top surface, such that in the absence of pressure the members are located at a neutral position. The method further includes applying pressure to one or more of the first ends by contact with the body area, thereby creating a plurality of point pressures on the body area. Still further, the method includes displacing the members axially along the channels away from the neutral position and toward the bottom surface without deformation so as to maintain the plurality of point pressures and prevent excessive pressure from developing on the body area.




In a preferred embodiment, the method further includes returning the members substantially to the neutral position by removing contact of the body area with the one or more first ends. Furthermore, displacing the members axially is preferably limited by compression of the inner layer and the bottom surface. Still further, the method preferably includes removably attaching the apparatus to another object, such as a chair, wheelchair, or mattress, or to a part of the body such as the heel or elbow.




In another embodiment, disclosed is an apparatus for alleviating the excessive pressure development on a body area comprising a cushion including a bottom surface, a top surface spaced from the bottom surface, where the top surface has a plurality of channels formed therethrough. Also included is a compressible inner layer which is disposed between the top and bottom surfaces, and a plurality of elongate, inflexible members supported by the inner layer and disposed at least partially within the channels. The members have first ends that extend at least partially through the channels to project beyond the top surface. In the absence of pressure the members are located at a neutral position, and wherein pressure applied to the first ends by contact with the body area causes the members to be displaced axially along the channels away from the neutral position and toward the bottom surface without deformation. The apparatus also includes a cover for enclosing the cushion, the cover having a topper surface for engaging the first ends of the members, a base surface, a plurality of side surfaces, wherein the topper surface serves to limit the upward movement of the members. The topper surface of the cover is comprised of polymeric material and weft knitted fabric, and the base surface of the cover is formed of hard vinyl material.




At least some of the plurality of members may have longitudinally extending shaft portions and first ends supported by the shaft portions, wherein the first ends have a tapered head configuration to focus the applied pressure upon the body area. Further, the top and bottom surfaces may be attached by fasteners disposed therebetween. Also, the topper surface of the cover may include a thin, impermeable membrane to provide moisture protection to the cushion, or such membrane may be separately and generally disposed between member first ends and topper surface.




Another apparatus according to the present invention includes a top surface having a plurality of channels formed therethrough, a compressible inner layer disposed below and proximate to the top surface, and a plurality of elongate, inflexible members supported by the inner layer and disposed at least partially within the channels. The members have first ends that extend at least partially through the channels to project beyond the top surface. In the absence of pressure the members are located at a neutral position, wherein pressure applied to the first ends by contact with the body area causes the members to be displaced axially along the channels away from the neutral position without deformation. At least some of the plurality of members have first ends with a relatively large, tapered head configuration to focus the applied pressure upon the body area. The apparatus may also include a cover having a topper surface, a base surface, and a plurality of side surfaces for enclosing the top surface, the inner layer and the inflexible members. At least some of the members have shaft portions which are elongated for supporting the first ends. The apparatus may further comprise a bottom surface spaced apart from the top surface, wherein the compressible inner layer is disposed between the top and bottom surfaces.




Further disclosed herein is a mattress arranged for use with a personal support device, such as a hospital bed, for alleviating the excessive pressure development on plurality of body areas. The apparatus comprises at least one cushion having a bottom surface, a top surface spaced from the bottom surface, the top surface having a plurality of channels formed therethrough. Also disclosed is a compressible inner layer disposed between the top and bottom surfaces, and a plurality of elongate, inflexible members, the members having shaft portions supported by the inner layer and disposed at least partially within the channels. The members further have first ends that extend at least partially through the channels to project beyond the top surface. Also included is a cover for enclosing the at least one cushion, the cover having an upper surface for engaging the first ends, wherein pressure applied to the cover upper surface by contact with the body area causes the members to be displaced axially along the channels toward the bottom surface without deformation. At least some of the plurality of members have longitudinally extending shaft portions and first ends supported by the shaft portions. The first ends have a tapered head configuration to focus the applied pressure upon the body area. The mattress may include a plurality of cushions each selectively comprised to accommodate different portions of a body lying on the bed, wherein the plurality of cushions comprises a head portion, a torso portion, and a feet portion, corresponding to those respective portions of the body. Any of the disclosed apparatus or mattresses may include a thin, impermeable membrane to provide moisture protection to the cushion, which is disposed proximate the lower surface of the cover topper surface, between the topper surface and the first ends of the members. Similarly, a membrane may be disposed between inner layer and shaft portions, to impede perforation of inner layer by members during use.




The above objects and other objects, features, and advantages of the present invention are readily apparent from the following detailed description of the best mode for carrying out the invention when taken in connection with the accompanying drawings wherein like reference numerals correspond to like components.











BRIEF DESCRIPTION OF DRAWINGS





FIG. 1

is a perspective view of the apparatus of the present invention shown as a cushion of the preferred embodiment;





FIG. 2

is a side, cross-sectional view of the cushion of

FIG. 1

upon contact with a body area;





FIG. 3

is an enlarged, cut-away view of the cushion of

FIG. 2

;





FIG. 4

shows the apparatus of the present invention removably attached to a standard wheelchair;





FIG. 5

shows a partial cut-away view of the apparatus according to the present invention removably attached to a body area, illustrated in the drawing as a elbow;





FIG. 6

shows an enlarged, cut-away view like that of

FIG. 3

, illustrating an alternative embodiment of a cushion including alternate shaped elongate members and a cover for enclosing the cushion; and





FIG. 7

is a perspective view of a three cushion configuration removably attached to a hospital bed.











BEST MODE FOR CARRYING OUT THE INVENTION




The present invention is directed to an apparatus and method for alleviating or preventing excessive pressure development on a contacted body area. As described in greater detail below, the apparatus according to the present invention functions to maintain a plurality of focused, point pressures on a body area, independent of the pressure applied by the body area to the apparatus. The ability of the apparatus of the present invention to maintain these numerous point pressures aids in preventing or alleviating the development of widespread, excessive pressure on the contacted body area, thereby reducing the likelihood that pressure sores (also known in the art as bed sores) will develop.




Referring first to

FIG. 1

, the apparatus of the present invention is illustrated in a preferred cushion embodiment and is indicated generally by reference numeral


10


. Cushion


10


comprises a generally planar bottom surface


12


and a generally planar top surface


14


which is spaced from and overlying the bottom surface


12


. In this embodiment, top


14


and bottom


12


surfaces are preferably oriented substantially parallel to one another. Top


14


and bottom


12


surfaces are also preferably constructed from a rigid material, most preferably a plastic material such as polypropylene, ABS, or the like. A compressible inner layer


16


, best shown in

FIGS. 2 and 3

, is disposed between top


14


and bottom


12


surfaces. Although inner layer


16


can be composed of any compressible material, in a preferred embodiment inner layer


16


comprises a foam material. The foam material preferably has a durometer between approximately 1 and 5 lb/in. Inner layer


16


is preferably enclosed between top


14


and bottom


12


surfaces as well as two sets of opposing side surfaces


18


,


19


.




As shown in

FIGS. 1-3

, top surface


14


has a plurality of channels


20


formed therethrough. At least a subset of channels


20


are preferably densely spaced, and most preferably at a distance of approximately {fraction (1/8″)} to {fraction (1/4″)} apart. Of course, channels


20


may be spaced at any desirable interval, in accordance with the teachings of the present invention. A plurality of elongate, inflexible members


22


are supported by inner layer


16


, where each member


22


is disposed at least partially within one of the channels


20


. Members


22


can be constructed from a rigid plastic material, such as nylon or ABS, or a rigid metallic material such as aluminum. The channels


20


and members


22


shown in

FIGS. 1-3

are cylindrical in shape, but can be embodied in any other shape suitable to impart a point pressure to a contacted body area. Depending on the intended use of cushion


10


, the spacing of channels


20


, and the corresponding members


22


, can be varied in any manner over top surface


14


.




Referring now to

FIGS. 2 and 3

, members


22


have first ends


24


that extend through channels


20


to project beyond top surface


14


of cushion


10


. It is these first ends


24


that, in operation, are in contact with a body area


26


. In a first preferred embodiment, first ends


24


are rounded for added comfort, however first ends


24


may take any shape feasible for the intended application. It is fully contemplated that body area


26


may be any portion of the body which is susceptible to the development of excessive pressure and pressure sores including, but not limited to, the arms, legs, back, and buttocks. An alternate design of members


22


, shown in

FIG. 6

as member


22


′ having a first end


24


′, is disclosed more fully herein.




As shown in

FIG. 3

, members


22


have second ends


28


located beneath top surface


14


of cushion


10


, wherein second ends


28


can be attached to inner layer


16


for added stability of members


22


within channels


20


. Each second end


28


may preferably include an enlarged base


30


which is operable to abut the underside


32


of top surface


14


, thereby limiting the distance that each member


22


projects beyond top surface


14


. In the absence of applied pressure, the distance at which each member


22


projects beyond top surface


14


is defined as its neutral position, which is indicated generally by reference numeral


34


in FIG.


3


.




Referring again to

FIGS. 2

,


3


and


6


, pressure is applied to one or more of first ends


24


,


24


′ by contact with body area


26


, thereby creating a plurality of focused point pressures on body area


26


. This applied pressure displaces members


22


,


22


′ axially along channels


20


away from the neutral position


34


and toward bottom surface


12


. Due to the inflexibility of members


22


,


22


′, this displacement of members


22


,


22


′ occurs without their vertical or lateral deformation, such that the plurality of point pressures on body area


26


is maintained. As a result, widespread contact, and therefore pressure, between body area


26


and cushion


10


is alleviated or avoided.




In the second preferred embodiment shown in

FIG. 6

, cushion assembly


40


includes an alternate embodiment of cushion


10


′ which is enclosed by a duvet-like cover


44


. Cover


44


generally comprises closure


46


, topper (upper) surface


48


, base surface


50


, and side surfaces


52


. Closure


46


is illustrated as a zipper in

FIG. 6

, but can be embodied in any other structure suitable to conceal the cushion


10


′. Examples of such alternative methods of closure include, but are not limited to, flaps, Velcro™, or snaps. Opening


54


is a longitudinal separation in one of the four side surfaces


52


, such as when the zipper is in an unzipped state. Cushion


10


′ is inserted into and received within cover


44


through opening


54


formed by disengaging closure


46


. Cushion


10


′ is subsequently concealed by closing closure


46


. Topper surface


48


serves as an upper barrier to the movement of members


22


′. Thus members


22


′ are generally in engagement, directly or indirectly, with topper surface


48


during use, which maintains members


22


′ in position such that they do not become disengaged from cushion


10


′.




Cover


44


also shields cushion


10


′ from unwanted foreign agents, such that cushion


10


′ requires less cleaning. Cover


44


is breathable, thus enhancing the comfort level of the user. Moreover, cover


44


is easily separated from cushion


10


′ for convenient cleaning and storage. In addition, topper surface


48


may also include a thin, impermeable membrane


49


(formed of latex or similar material) on its lower surface in order to enhance the liquid and moisture resistance properties of cover


44


.




Topper surface


48


and side surfaces


52


are constructed from a breathable, anti-microbial combination of a soft polymeric material and weft knitted fabric. The combination is capable of weathering repeated use without tearing or ripping. Usable soft polymeric materials include polyurethane, polyamide or mixtures thereof. However, the soft material is not limited to these ingredients. One formulation of soft polymeric material may include a mixture of 39% by weight polyurethane and 61% by weight polyamide. The edges of side surfaces


52


are sewn to the edges of base surface


50


forming a seam, which is capable of withstanding repeated use without substantial wear. The base surface


50


extends to cover the bottom surface


12


of the cushion


10


′. Preferably, the base surface


50


is constructed of a hard vinyl material and may contain an anti-microbial agent.




In order to enhance the integrity of cushion assembly


40


, bottom surface


12


′ and top surface


14


′ of cushion


10


′ may be connected by one or more fasteners


70


, such as screws shown in FIG.


6


. Fasteners


70


are disposed between members


22


′ such that there is little or no interference between fasteners


70


and members


22


′ during use. The shaft of fastener


70


may be disposed within a sleeve, such as a nylon sleeve, in order to further minimize any potential interference with layer


16


or any other portion of cushion


10


′.




Referring again to

FIG. 3

, in one preferred embodiment, the distance between top


14


and bottom


12


surfaces is designed to be less than the length of members


22


, such that members


22


cannot become totally displaced from channels


20


and into inner layer


16


when pressure is applied by body area


26


. In particular, bases


30


of members


22


compress inner layer


16


until bottom surface


12


of cushion


10


limits the movement of members


22


. With such a configuration, members


22


always extend beyond top surface


14


to some degree, regardless of the applied pressure. Inner layer


16


is then operable to return projections


22


substantially to the neutral position


34


upon removal of the applied pressure. It is fully contemplated that, depending on the intended application, members


22


may be of different sizes, widths, and lengths, and may therefore have varying neutral positions.




For example,

FIG. 6

illustrates a second embodiment of members


22


′, wherein the first end


24


′ is relatively large and elliptical in relation to shaft


21


, and generally has the shape of a flanged, mushroom-like cap. The enlarged ends


24


′ efficiently focus the pressure exerted by the affected body area and thereby equalize the pressure over the entire surface of the affected body area. In one embodiment, the flanged area of first end


24


′ has a diameter of approximately 0.25 inch, a height of approximately 0.25 inch, and is generally tapered upward. Member


22


′ preferably has an overall length of approximately 2.325 inches, while shaft


21


itself is generally elongate, untapered and cylindrical in shape, and has a length of 2.075 inches. Unlike member


22


, member


22


′ does not include an enlarged base


30


. Members


22


′ are thus retained and secured within cushion assembly


40


by cover


44


, as well as within channels in top surface


14


, as disclosed herein. Layer


16


′ may also include a top cover or membrane


43


formed of a resilient plastic to impede any perforation or penetration of inner layer


16


′ by members


22


′ (or their shaft portions


21


) during use.




Therefore, the cushion


10


,


10


′ of the present invention functions to create multiple focused pressure points on the body area


26


contacted by members


22


,


22


′. In this way, weight is dispersed more evenly and many regions are formed between members


22


,


22


′ where a normal circulatory state exists. Due to these regions of normal circulation, the overall vascular and lymphatic supply of the body area


26


are kept intact and oxygen and nutrients are able to be delivered to the focused pressure points resulting from members


22


,


22


′. The existence of normal circulatory activity is a strong deterrent to the development of pressure sores.




Cushion


10


according to the present invention is preferably portable as well as disposable. Cushion


10


can be embodied in any type of mattress or pad, and can be of any dimension suitable for its intended use. With reference to

FIG. 7

, three cushion configuration


58


, which includes head cushion


60


, torso cushion


62


and foot cushion


64


, is adapted for use on a personal support device, such as a hospital bed


66


. The three separate cushions are sized to fit in a standard closet or a large wash basin. The cushions are therefore easy to store and clean. The cushions may be fitted with an appropriately sized duvet-like cover with the specifications for cover


44


. In addition to medical care applications, such as a mattress for hospital beds or a cushion for a wheelchair seat, cushion


10


can be used in a variety of other applications. For example, cushion


10


could be utilized as a covering for vehicle seats, or as a chair or mattress cover in domestic or office settings. As shown in

FIG. 4

, cushion


10


preferably includes fasteners


36


, such as Velcro™ straps, affixed to top


14


or bottom


12


surface that are operable to removably attach cushion


10


to another object, for example, a standard wheelchair


38


.




In addition, cushion


10


can be attached to a part of the human body for use as a guard. For example,

FIG. 5

shows cushion


10


attached to a body part


40


, shown for example as an elbow, and thus allows cushion


10


to serve as an elbow guard. Of course, it is fully contemplated that other parts of the body, including but not limited to the heel, knee, and head, would be equally suitable for this application according to the teachings of the present invention.




While embodiments of the invention have been illustrated and described, it is not intended that these embodiments illustrate and describe all possible forms of the invention. Rather, the words used are words of description rather than limitation, and it is understood that various changes may be made without departing from the spirit and scope of the invention.



Claims
  • 1. An apparatus for alleviating the excessive pressure development on a body area, the apparatus comprising:a cushion including a bottom surface, a top surface spaced from the bottom surface, the top surface having a plurality of channels formed therethrough, a compressible inner layer disposed between the top and bottom surfaces, and a plurality of elongate, inflexible members supported by the inner layer and disposed at least partially within the channels, the members having first ends that extend at least partially through the channels to project beyond the top surface, wherein in the absence of pressure the members are located at a neutral position, and wherein pressure applied to the first ends by contact with the body area causes the members to be displaced axially along the channels away from the neutral position and toward the bottom surface without deformation; and a cover for enclosing the cushion, the cover having a topper surface for engaging the first ends of the members, a base surface, a plurality of side surfaces, wherein the topper surface serves to limit the upward movement of the members.
  • 2. The apparatus of claim 1, wherein the topper surface of the cover is comprised of polymeric material and weft knitted fabric.
  • 3. The apparatus of claim 1, wherein the base surface of the cover is formed of hard vinyl material.
  • 4. The apparatus of claim 1, wherein at least some of the plurality of members have longitudinally extending shaft portions and first ends supported by the shaft portions, the first ends having a tapered head configuration to focus the applied pressure upon the body area.
  • 5. The apparatus of claim 1, wherein the top and bottom surfaces are attached by fasteners disposed therebetween.
  • 6. The apparatus of claim 1, wherein the topper surface of the cover includes a thin, impermeable membrane to provide moisture protection to the cushion.
  • 7. An apparatus for alleviating the excessive pressure development on a body area, the apparatus comprising:a top surface having a plurality of channels formed therethrough; a compressible inner layer disposed below and proximate to the top surface; and a plurality of elongate, inflexible members supported by the inner layer and disposed at least partially within the channels, the members having first ends that extend at least partially through the channels to project beyond the top surface, wherein in the absence of pressure the members are located at a neutral position, wherein pressure applied to the first ends by contact with the body area causes the members to be displaced axially along the channels away from the neutral position without deformation, and wherein at least some of the plurality of members have first ends with a relatively large, tapered head configuration to focus the applied pressure upon the body area and further comprising a cover having a topper surface, a base surface, and a plurality of side surfaces for enclosing the top surface, the inner layer, and the inflexible members.
  • 8. The apparatus of claim 7, wherein the topper surface of the cover is comprised of polymeric material and weft knitted fabric.
  • 9. The apparatus of claim 7, wherein the base surface of the cover is formed of hard vinyl material.
  • 10. The apparatus of claim 7, wherein the at least some of the members have shaft portions which are elongated for supporting the first ends.
  • 11. The apparatus of claim 7, further comprising a bottom surface spaced apart from the top surface, wherein the compressible inner layer is disposed between the top and bottom surfaces.
  • 12. The apparatus of claim 11, wherein the top and bottom surfaces are connected by fasteners disposed therebetween.
CROSS-REFERENCE TO RELATED APPLICATION

This application is a continuation-in-part of application Ser. No. 09/371,685, filed Aug. 10, 1999 now U.S. Pat. No. 6,241,695, entitled “Apparatus and Method For Pressure Management”.

US Referenced Citations (10)
Number Name Date Kind
1982516 Holmested Nov 1934 A
3107665 Nordgren Oct 1963 A
4037591 Sarno Jul 1977 A
4509510 Hook Apr 1985 A
4967433 Neal Nov 1990 A
5153956 Nold Oct 1992 A
5327598 Liou Jul 1994 A
5820573 Ramos Oct 1998 A
5896605 Branman Apr 1999 A
6241695 Dabir Jun 2001 B1
Continuation in Parts (1)
Number Date Country
Parent 09/371685 Aug 1999 US
Child 09/874430 US