Source: https://patents.google.com/patent/TW201002276A/en
Timestamp: 2019-12-08 01:49:13
Document Index: 559337870

Matched Legal Cases: ['Application No. 61', 'Application No. 61', 'Application No. 61', 'Application No. 61', 'Application No. 61', 'Application No. 61', 'Application No. 61', 'Application No. 61', 'Application No. 61', 'art 131']

TW201002276A - Inflatable bladder dressings, systems, and methods - Google Patents
TW201002276A
TW201002276A TW98118080A TW98118080A TW201002276A TW 201002276 A TW201002276 A TW 201002276A TW 98118080 A TW98118080 A TW 98118080A TW 98118080 A TW98118080 A TW 98118080A TW 201002276 A TW201002276 A TW 201002276A
TW98118080A
2010-01-16 Publication of TW201002276A publication Critical patent/TW201002276A/en
2013-12-20 First worldwide family litigation filed litigation Critical https://patents.darts-ip.com/?family=40809887&utm_source=google_patent&utm_medium=platform_link&utm_campaign=public_patent_search&patent=TW201002276(A) "Global patent litigation dataset” by Darts-ip is licensed under a Creative Commons Attribution 4.0 International License.
201002276 VI. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates generally to medical treatment systems, and more particularly to expandable pouch dressings, systems and methods. U.S. Provisional Patent Application No. 61/057,807, entitled "Reduced-pressure Surgical Wound Treatment System", filed on May 30, 2008, which is hereby incorporated herein by reference in its entirety in its entirety in its entirety in US Provisional Patent Application No. 61/057,798, entitled "See-Through, Reduced-Pressure Dressing", filed on May 30, 2008, entitled "Dressing Assembly For Subcutaneous Wound Treatment Using Reduce Pressure" US Provisional Patent Application No. 61/057,802, entitled "Reduced-Pressure Dressing Assembly For Use in Applying a Closing Force", No. 61/057,808, May 30, 2008, filed May 30, 2008, May 30, 2008 U.S. Provisional Patent Application No. 61/057,803, entitled "Reduced-Pressure, Linear-Wound Treatment System", filed on May 30, 2008, entitled "Reduced-Pressure, Compression System and Apparatus for use on A Curved Body Part, US Provisional Patent Application No. 61/057,800, May 30, 2008, entitled "Reduced-Pressure, Compression Syste" U.S. Provisional Patent Application No. 61/057,797, filed on May 30, 2008, entitled "Super-Absorbent, Reduced-Pressure Wound Dressing and System", US Provisional Patent Application No. 61/057,797, filed on May 30, 2008 U.S. Provisional Patent Application No. 61/057,810, 2008, entitled "Reduced-Pressure, Compression System and Apparatus for use on a Joint", No. 61/057, 805, 2008, 5,140, 743. U.S. Provisional Patent Application No. 61/121,362, entitled "Reduced-Pressure Wound Treatment System Employing an Anisotropic Drape", and "Reduced-Pressure, Compression System and Apparatus", filed on January 10, 2009. The use of the application of U.S. Provisional Patent Application Serial No. 61/144,067, the entire disclosure of which is incorporated herein. All such interim applications are hereby incorporated by reference for all purposes. [Prior Art] Clinical studies and practices have shown that providing a reduced pressure near a tissue site and accelerating the growth of new tissue at the tissue site. There are many applications for this phenomenon, but the application of decompression has been particularly successful in treating wounds. This treatment (commonly referred to as "negative pressure wound therapy", "decompression therapy" or "vacuum therapy" in the medical community) provides several benefits that may include faster healing and increased repair of the granulation tissue. As used herein, "or" does not need to be mutually exclusive unless otherwise indicated. In addition, the wound can heal faster with additional care using other devices, such as sutures, staples, or other devices that help close the wound. SUMMARY OF THE INVENTION According to an illustrative embodiment, a system for providing reduced pressure therapy to a tissue site of a patient includes a reduced pressure source for supplying reduced pressure, a fluid source for supplying a fluid, and A plurality of expandable bladders placed adjacent to the tissue site. The expandable bladders are operable to receive the fluid 140743.doc 201002276 to expand from the unexpanded position to the expanded position. The system is a dust chamber. At least one of the plurality of chambers is set to = one-two: According to another illustrative embodiment, the device includes a plurality of expandable bladders for placement in adjacent groups of posts. The bladder expands to a -expanded position in a receiving-fluid and self-unexpanded position. : The system also contains a plurality of compressible rooms. At least one of the plurality of chambers: placed in the plurality of expandable bladders - and a further one is known to be between the bladder and the bladder. According to another illustrative embodiment, a method for providing decompression therapy to a tissue-centered portion of a centripetal body comprises applying a ceramial dressing to the iliac crest. The multi-compartment dressing comprises beads of expandable bladders. The swellable stuns are operative to receive the fluid and expand from an unexpanded position to a person, swell position. The multi-compartment dressing also includes a plurality of compressible chambers. At least one of the plurality of chambers is disposed between a plurality of expandable bladders - a first - swellable bladder and a second expandable bladder. When the expandable pouch expands to the expanded position or when a reduced pressure is supplied to the chamber, the temple is compressed to the extent. The method also includes applying the fluid to the bladder. The swellable bluntness causes the swellable sacs to expand to the swelled position, and the stagnation, sputum, and &amp; amps are applied to the tissue site by a decompression dressing. An illustrative embodiment, - J manufacturing method comprises the steps of: forming a plurality of expandable pouches and forming a plurality of chambers. The method proceeds to step 140743.doc 201002276 comprising engaging the plurality of expandable pouches a bag and the plurality of chambers. The expandable bladders are operable to receive a fluid The expansion from the unexpanded position to the swelled position. [Embodiment] In the following embodiments of the illustrative embodiments, reference is made to the accompanying drawings in which: The embodiments are described in sufficient detail, and it is understood that other embodiments may be made, and logical, mechanical, electrical, and chemical changes may be made without departing from the spirit or scope of the invention. The skilled artisan is able to practice the details that are not required by the embodiments described herein, and the description may omit certain information known to those skilled in the art. The following embodiments should not be considered as limiting, and The scope of the illustrative embodiments is defined solely by the scope of the accompanying claims. Referring now to Figures 1, 2A-2C and 3, there is shown a system for applying reduced pressure therapy to a tissue site 102 of a patient 104. 1 Illustrative embodiment. The reduced pressure treatment can include reduced pressure therapy or a reduced pressure to create a closing force. System 100 includes a multi-compartment dressing 106 that reduces the amount of pressure from the source 1 - 7 And a fluid from a fluid supply 116 is supplied to the multi-compartment dressing. The reduced pressure source 107 can be any device for supplying a reduced pressure, such as a vacuum pump, a wall suction device, or other source. The amount and nature of the reduced pressure to a tissue site will generally vary depending on the application, but the reduced pressure will typically be between -5 mm Hg and -500 mm Hg and more typically at -loo mm Hg and -300 mm Hg As used herein, "reduced pressure" generally means less than being treated with treatment. 140743.doc 201002276
The pressure of the surrounding pressure at one of the tissue sites. In most cases, this decompression will be less than the atmospheric pressure at the patient's location. Alternatively, the reduction may be less than one of the hydrostatic pressures at the tissue site. Unless otherwise indicated, the pressure values described herein are pressures. The reduced pressure delivered can be constant or varied (regularly or randomly) under reduced pressure and can be delivered continuously or intermittently. Although the terms "vacuum" and "negative pressure" can be used to describe the pressure applied to a tissue site, the actual pressure applied to the tissue site can be greater than the pressure typically associated with a full vacuum. Consistent with the use herein, an increase in decompression or vacuum pressure generally refers to the expansion of one of the absolute pressures relative to the inter-compartment dressing 106 containing a /, a &quot; π彳τ丄ιυ and fluidly engaging each other. The pocket (10). The expandable bladder ι 8 also includes 3 - interface 1 1 2, a fluid for the temple; the J 1 claw supply conduit 114 can be fluidly coupled to the face so that the fluid can be supplied to the fluid by the fluid supply 116 Capsule 108 that can be inflated. As used herein, the term "face-to-face" includes coupling via an early-form object and includes direct Φ^5 coupling, which also includes two components, each of which is a helper component. Formed by the same = material and continuous with each other. In addition, the term "engaged" may include a morphing (column such as via a chemical bond), a machine finger, a *thorn - τ, ., , 4 private fluid coupling: the body is in the right part of the specified portion Or communicate between locations. The multi-compartment dressing 106 also includes a towel 118 that covers a plurality of chambers 120. —/Expanding,. 8 to form between the bags 108. Therefore, Qi Zhixi is placed in the mother-to-swelling capsule 120 stomach compartments, such as the expandable pockets m and 120. The towel 118 is formed to expand in one of the sealed spaces 122 when it covers the vestibule, the m-shirt 108 and the bulging pouch (10) and is sealed to the patient's 140743.doc 201002276 skin 125. The towel &quot;8 can be provided as a - fluid seal. The towel (1) can, for example, be a non-permeable or semi-permeable elastomeric material. "Elasticity" means having the property I of an elastomer. It generally refers to a polymeric material having rubber-like properties. More specifically, most of the scorpionfish have an elongation of more than 100% and a significant amount of rebound. —Colding 4 _ 回 回 弹 refers to the ability of the material to recover from an elastic deformation. Examples of the elastomer may include, but are not limited to, natural rubber, polyisoindole-~, I acetyl bismuth rubber, chloroprene rubber, polybutylene dilute rubber, nitrile rubber, isobutylene rubber, ethylene propylene rubber, Ethylene-propylene-baked dilute monomer, chlorine-based polyethylene, polysulfide rubber, poly-carbamic acid _, New film, copolymerized vinegar, polyfluorene. Specific examples of the material of the towel 118 include a polyoxygen wipe, a 3 Μ Tegadem® wipe, an acrylic wipe (for example, an acrylic wipe available from Avery Dennison) or a cut dress. The seal of the towel 118 to the skin 125 of the patient is facilitated by an adhesive 124 disposed in the interior of the garment 10 or facing the periphery of the tissue side. Adhesives !24 can be used to hold the wipes 118 on the epidermis 125 or another layer of the subject (e.g., a pad or extra pad). Adhesive 124 can take many forms. For example, the adhesive 124 can be a medically acceptable pressure sensitive adhesive 124 extending around a periphery of the wipe 118. The wipe 118 can also include an aperture (not shown) into which a reduced pressure interface 126 can be coupled. The reduced pressure conduit 128 can be coupled to the reduced pressure interface 126. The reduced pressure from the reduced pressure source 1〇7 can be transmitted to the sealed space 122 via the reduced pressure interface 126 and the reduced pressure conduit 128. The function of delivering the decompression to the multi-compartment dressing 1〇6 provides decompression therapy to the tissue site 102. 140743.doc 201002276 The tissue site m can be tied to - human, animal or other organisms _ ': weaving, including bone tissue, adipose tissue, muscle tissue, dermal tissue, pulsed tissue, connective tissue, cartilage band or any other The treatment of the woven "weave portion (10) may include removal of fluid (eg, ascites, effluent) or delivery reduction. The tissue site 102 may be or include a wound 129. The wound 129 on the 16 woven site 102 may be Caused by various causes, including trauma, surgery, etc. 卞
The intermediate portion 130 of the waste reduction conduit 128 can have one or more devices, such as device 131. For example, device 131 can be a fluid reservoir or a member to hold the effluent and other fluids removed. Other examples of devices 131 that may be included in the intermediate portion 13 of the reduced pressure = tube 128 or otherwise fluidly coupled to the reduced house guide 128 include the following non-limiting examples: - pressure feedback device, a volumetric detection system - blood detection system, system, infection detection system, a flow monitoring system, a temperature monitoring system, and so on. Some of these devices can be formed with a reduced pressure source (4). By way of example, one of the reduced pressure ports on the reduced pressure source may comprise a filter member comprising one or more filters (e.g., an odor filter). In addition, the pressure reducing tube 128 and the fluid supply conduit! 14 can be combined into a multi-lumen catheter having two or more (10). Any number of expandable pouches can be included in the evening compartment dressing 1 〇6. The sacs 1G8 can be substantially parallel to each other. However, in other embodiments, the expandable bladders 108 can have a different orientation relative to each other. Example fFt &amp; + ★ 5 'Expandable bladder 108 may have a radial configuration, a wavy pattern, and the like. In addition, the expandable bladder 1 8 can be formed from any flexible material that allows expansion and contraction of the expandable bladder 140743.doc 201002276 108. For example, the expandable bladder 108 can be formed from a soft polymer or any other flexible material. Fluid may be supplied from the fluid supply 116 to the expandable bladder 1〇8 to expand the expandable bladder (10) from the unexpanded position to the expanded position. Reduced pressure may also be supplied to the chamber 120 to reduce the volume of the chamber 120 or provide reduced pressure therapy to the tissue site. Figures 2A-2C show various states of the multi-compartment dressing 1〇6 at different points in time. In Fig. 2A, the expandable bladder 1 is in an unexpanded state and no reduced pressure is applied to the chamber 12A. The expandable bladder 108 is in an expanded position in Figure 2B and no reduced pressure has been applied to the chamber 120. In Figure 2C, the expandable bladder 1 8 is in an expanded position and a reduced pressure is being applied to the chamber 120, causing the chamber 12 to collapse and provide reduced pressure treatment. As shown in Figures 2B and 2C, the expandable bladder 1 8 has a larger inner valley and a larger cross section in the expanded position. The distance between the walls of the adjacent inflatable bladder 108 can also be reduced as the bladder 10 is filled with fluid from the fluid supply ι6, thereby compressing the chamber 12〇. The volume of the chamber 120 can be further reduced by applying a reduced pressure to the sealed space 122 below the wiper i 18 . The chamber 12〇 can be collapsed when this decompression is applied from the decompression source 1〇7 to cause the expandable pouches 1〇8 to move closer to each other. Applying a reduced pressure to the chamber 120 reduces the distance between the expandable bladders 1〇8. Therefore, the distance is in the unexpanded portion shown in Fig. 2B and is in the expanded portion shown in Fig. 2C - distance (12 and seven) (12. Referring particularly to Fig. 2C, the expandable pouch 1 08 Movement toward each other promotes an inward or closing force 134 that can help close or heal the wound 129. Expandable 140743.doc -10 - 201002276 The expansion of the pocket 108 and the compression of the chamber 120 promotes multi-compartment dressing ι〇6 along The overall compression of one direction (e.g., the direction indicated by the double arrow 138). However, in other embodiments, the multi-compartment dressing 106 can be compressed in two or more directions. The expansion of the expandable bladder 108 is also A downward compressive force 136 can be formed on the tissue site 102. The tissue portion 102 that is being treated is adjusted to adjust the amount of swellable bladder and the amount of application to the chamber 120. For example, The amount of fluid applied by the fluid = U6 to the expandable bladder (10) is varied to form different magnitudes of the inward force 134. Again, the inward direction can be adjusted by adjusting the amount of reduced pressure applied to the chamber 120 by the reduced pressure source 107. The magnitude of the force m varies, except that it is applied to the multi-compartment In addition to the reduced pressure and fluid changes of the dressing 106, the structure of the multi-compartment dressing 106 can also be modified for different types of home treatments. For example, the old one can be modified from the 可: 中:: - transverse: the cross-sectional shape and length of the face. In addition, the expandable bladders are required - and alternatively each have a different structure and each receives a different amount of fluid, thereby expanding the expandable bladder to varying degrees In a similar manner, the chambers 120 can each receive different amounts of reduced pressure, thereby forming a different compressive force 136 between each pair of expandable: bladders 108. The pleated structure of the distribution duct U0 (as shown in Figure i) It is clearly shown that the inwardly compressed, and in particular expandable, capsular bag 108 of the intervening dressing (10) is pressed and contracted toward the t. In particular, the creases in the distribution conduit 110 allow the swellable pouches to - Accordion-like compression. The distribution catheter U facilitates the formation of any flexible material that functions as a multi-compartment dressing 106. - The care provider can be implemented by applying an expandable bladder to the tissue site 140743.doc 201002276 102 Treatment. Can be in the sac Apply a towel i J 8 over i 〇 8 so that the towel 118 covers the expandable bladder 1 〇 8. Apply the reduced pressure interface 126 to the orifice in the wipe 1 1 8. Then the conduit i 2 8 and i The crucible 4 is applied to the decompression interface 126 and the interface 1 12, respectively. The fluid supply n6 supplies the fluid to the swellable pocket after, during or after the decompression is applied to the sealed space 122 by the reduced pressure source 1〇7. 1 08. Applying both decompression and fluid in this manner facilitates treatment of the tissue site 102. In other embodiments, the multi-compartment dressing 1〇6 can include a third pocket or chamber that is independently occupied ( Not shown). In addition, chamber 12 can also receive positive pressure without degrading C to form a modified dressing structure. While only the layers of the capsules 108 of the expandable compartment are shown, in other embodiments, two or more layers of the bladder 1G8 of the expandable compartment may be stacked on top of each other. The wall of the inflatable capsule 108 can also include a rigid structure (e.g., a rigid embedded panel) to modify the shape of the expandable bladder (10) when in the expanded position. Fluid (including healing and growth factors that promote healing of wound 129) can be introduced into 120 during decompression therapy. It can be supplied over time to the multi-compartment dressing (9), fluid and lining to form a dynamic loading of the tissue part (5). This 5-week change can include rapid pulse or pressure wave blowing of air or other gases. 1 匕 Modulation can also occur within the span of the multi-compartment dressing to promote fluid flow in the guiding gap in the tissue site 102. Referring now to Figures 4A and 4B, there is shown a balloon that expands in accordance with another illustrative embodiment. The expandable pouch 2〇8 can be used as a system for applying therapy (for example, the system-part of the system. The expandable pouch is applied to the swellable pouch 140743. Doc •12· 201002276 struts 24 〇. When the expandable bladder 2〇8 is in the expanded position, the struts limit the expansion of the swellable bag in one direction (indicated by the double arrow Μ). The expandable bladder 2〇8 is shown in the unexpanded position and in Figure 4B, it is in the expanded position. The struts 240 can be inserted into all or a portion of the expandable bladder 2〇8 located in the multi-compartment dressing 1〇6. By limiting the expansion of the expandable bladder 2〇8, compression and other forces applied to a tissue site can be tailored to enhance tissue treatment.
&gt; Strip 240 can be attached to the wall 245 of the expandable film 208 at any length and in any manner. For example, the struts 24b can have a flange 244 embedded in the wall 245 of the expandable bladder 208 at each end. In other embodiments the struts 240 can be inserted into the expandable bladder gauge in a plurality of orientations to limit expansion of the swellable bladders 2〇8 in two or more directions. Referring now to Figure 5, another illustrative embodiment of an expandable bladder 308 is shown. In contrast to the expandable bladder 1 〇 8 having a generally rounded shape when in the expanded position, as shown in Figures 3 to 3, each of the expandable bladders is looped or looped. The expandable bladder 308 forms a concentric ring. The swellable bladders 308 are fluidly coupled to each other by a distribution conduit 31() to a knurling pattern to allow the expandable bladders 308 to move toward each other. The distribution conduit 31A includes an interface 312 to which fluid can be applied via a supply fluid conduit. Like the expandable bladder 108 of Figures i to 3, the expandable bladder 3〇8 shown in Figure 5 can be covered by a dressing to form a sealed space that is expandable in each pair. Individual compartments are included between the pockets 3〇8. The use of the annular expandable bladder 3〇8 promotes specific compression and healing at the tissue site to which the expandable bladder 308 is applied. 140743.doc -13- 201002276 Characteristics. For example, the expandable bladder 308 can be compressible in a plurality of radial directions 346. Referring now to Figures 6, 7A and 7B, another illustrative embodiment of a multi-compartment dressing 606 is presented. The multi-compartment dressing 606 includes a flat structure 648 having an inflatable bladder 608 and a chamber 620. The flat structure 648 is formed by a top wall 650 and a bottom wall 652. Top wall 650 and bottom wall 652 are joined together by a plurality of flexible side walls 654 that form a plurality of compartments including expandable bladder 608 and chamber 620. As shown in Figure 7A, when the expandable bladder 608 is in an unexpanded position and no reduced pressure is applied to the chamber 620, both the expandable bladder 608 and the chamber 620 have a generally rectangular cross section. However, in other embodiments, the expandable bladder 608 and chamber 620 can have other cross-sectional shapes. A fluid supply conduit 614 supplies fluid to the expandable bladder 608. A reduced pressure conduit 628 supplies reduced pressure to chamber 620. The fluid supply conduit 614 and the reduced pressure conduit 628 each have a forked configuration such that fluid and reduced pressure can be supplied to the individually expandable bladder 608 and chamber 620. However, in other embodiments, only a single fluid supply conduit 614 and a reduced pressure conduit 628 each having a non-retailed configuration may be used or a plurality of individual conduits may be used. In the absence of such a forked conduit structure or individual conduits, the expandable bladders 608 can be in fluid communication with each other and the chambers 620 can each be in fluid communication with one another. In this manner, the reduced pressure supplied to a single chamber 620 can be transferred to the remaining chamber 620 in the planar structure 648. Likewise, fluid supplied to a single expandable bladder 608 can be delivered to the remaining expandable bladder 608. Figure 7A shows the expandable bladder 608 in an unexpanded position in the absence of a fluid supply 140743.doc • 14-201002276 and also shows the chamber 620 in the absence of decompression. In Figure 7B, fluid has been supplied to the expandable bladder 6〇8 such that the inflatable bladder 608 is in an expanded position. Additionally, reduced pressure has been applied to the chamber 620, thereby causing the chamber 620 to collapse and moving the expandable bladders 6A8 closer to each other. The flat structure 648 has been compressed along the two-way arrow 638. This compression provides the desired compression force on a tissue site to enhance healing (as described above -). In some cases, the flat structure 048 can be covered by a dressing (e.g., the towel 1 18 in Figure 1). In an alternative embodiment, the bottom wall 652 can be formed with an aperture to allow the reduced pressure in the chamber 62 to communicate with a tissue site. Although the expandable bladder 608 and chamber 620 are shown generally parallel to one another, the expandable bladder 608 and chamber 620 can have any orientation relative to each other and can have any shape. For example, either or both of the expandable bladders 6〇8 and 62〇 can be concentric rings. Referring now to Figures 8 through 10, another embodiment of a dressing 8-6 is shown that includes coupling to one another at a joint 860 to form an expandable bladder pocket 808 and a first sheet 856 of a chamber 820. And a second sheet 858. Although shown in Figure 8 as a single expandable bladder 8〇8 and a single chamber, it will be appreciated that a plurality of bladders and chambers may also be formed. The first and second sheets 856, 858 can be made of any flexible material, including the materials described above that form the garment 118 of Figure 1. The first and second sheets 856, 858 generally define a boundary between the expandable pocket 808 and the chamber 820 along line 862. Fluid is prevented from flowing through lines 862 and 863 by such bonding. To facilitate fluid impermeability along lines 862 and 863, any conventional technique (including but not limited to fusion (eg, ultrasonic or RF fusion), bonding, adhesive, water 140743.doc -15-201002276, etc. may be used. The first sheet 856 is bonded to the second sheet 858. The expandable bladder 808 is in fluid communication with an interface 866 via a distribution conduit 810. In dressing 806, distribution conduit 81 0 is also formed by the configuration of line 862 where the first and second sheets 85 6 , 85 8 are joined. Figures 9A and 9B show the expandable bladder 808 in an unexpanded position and an expanded position, respectively. A conduit 864 supplies fluid to the expandable bladder 808, additional details will be provided below for this. The dressing 806 can be adhered to a tissue site 802 by an adhesive 824 that can be located at the periphery 865 of the dressing 806. When fluid is supplied to the expandable bladder 808, the expandable bladder 808 expands into the expanded position thereby moving the dressing 806 along the surface of the tissue site 802. The direction in which dressing 806 moves as the expandable bladder 808 expands is indicated by a double arrow 838. The contraction force along the two-way arrow 838 helps to create an inward or closing force 834 that is beneficial for the closure or healing of the wound 828. Adhesion 824 adhering dressing 806 to tissue site 802 can also assist in providing or transmitting this inward force 834. A compressive force can also be provided along the arrow 836 to the tissue site 802 when the expandable bladder 808 is in the expanded position. In the embodiment illustrated in Figures 8 through 10, chamber 820 is not subjected to a reduced pressure that causes chamber 820 to collapse. However, chamber 820 does provide a spatial region along which expandable bladders 808 can move closer to one another as the expandable bladder 808 is in an expanded position. However, in other embodiments, reduced pressure may be supplied to chamber 820. Moreover, in one embodiment, the reduced pressure can be delivered to the chamber 820 and an aperture can be formed on the bottom of the dressing 806 that allows the reduced pressure in the chamber 820 to communicate to the tissue site 802. 140743.doc -16· 201002276 Both fluid and reduced pressure can be supplied to the dressing 806 by a multi-lumen catheter 8M coupled to an interface 866. Interface 866 can be disposed in aperture 868 through first sheet 856 and second sheet 858. The multi-lumen catheter 864 includes at least a first-class internal lumen 870 and a reduced-pressure lumen 872. The interface 866 is configured to deliver fluid transported through the fluid lumen 870 to a distribution conduit 81, which distributes the fluid to the expandable bladder 808. The interface 866 is also configured to transmit a reduced pressure from the reduced pressure lumen gw through the orifice 86S in the first and second sheets 856, 858 and to one of the dressings 8〇6 facing the tissue side 874; in this manner, a Fluid (containing a gas) is drawn from the tissue-facing side 874 of the dressing 806 into the reduced pressure lumen 872. After traveling through the dressing 806, the reduced pressure can be received by another structure, such as a pillow or manifold for a tissue site or wound. The multi-lumen structure of the catheter 864 and the delivery function of the interface 866 allow the use of a single multi-lumen catheter 864 to supply decompression and fluid to the dressing 806. In other embodiments, the reduced pressure may be supplied to chamber 82 by interface 866. U Additionally, another conduit (e.g., a tube) can be inserted between the first sheet 856 and the second sheet 858 to transfer fluid from the interface 866 to the expandable bladder 8〇8. If such a catheter is used, the catheter can have perforations at the regions within the expandable bladder 8A 8 such that the catheter can be routed there. The dip 8 〇 6 may also be used in conjunction with the other illustrative aspects described in the illustrative embodiments (e.g., the wipes 1-8 of Figure 1). Although the present invention has been described in the context of certain illustrative and non-limiting embodiments, it is understood that various changes, substitutions, changes and changes may be made without departing from the scope of the accompanying claims. The scope of the invention is defined by 140743.doc -17· 201002276. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic diagram of a system for providing decompression therapy to a patient according to an illustrative caution A, 1 by a top view, a view from a top view Figure 2 is a schematic cross-sectional view of the dressing shown in Figure 1 in which the sputum is placed in an unexpanded position; Figure 2B is a view of the expandable sputum garment in one One of the dressings shown in Figure 1 in the % bulging position is a schematic cross-sectional view; Figure 2 C is the swellable sac, the dressing prescription; in the expanded position and in which the subtraction has been applied to the swellable Figure 1 is a schematic cross-sectional view of the dressing shown in Figure 1 of the chamber between the bladders; Figure 3 is a schematic perspective view of the expandable bladder shown in Figure 1; Figure 4A is based on - Illustrative embodiment - a schematic cross-sectional view of a swellable pouch having a struts in an unexpanded position; Figure 4B is an expandable pouch of Figure 4A in an expanded position; Figure 5 is another illustrative example of a portion of a system for providing a reduced pressure treatment - schematic Figure 6 is a schematic top plan view of one of the flat structures of the chamber between the expandable bladder and the swellable bladder according to the illustrative embodiment; Figure 7A is Figure 6 taken along line 7A-7A Figure 1B is a diagram of the case where the expandable bladder is in the expanded position while the reduced pressure is supplied to the chamber between the expandable bladders. A schematic cross-sectional view of one of the flat structures shown in 7A; 140743.doc -18· 201002276 FIG. 8 is an unintentional top view of another illustrative embodiment of a dressing having an expandable bladder and chamber; 9A is a schematic cross-sectional view of the dressing shown in Figure 8 taken along line 9A-9A; Figure 9B is an illustration of one of the dressings shown in Figure 9A in the case where the expandable bladder is in the expanded position. Cross-sectional view; and Figure 10 is a schematic cross-sectional view of one of the dressings shown in Figure 8 taken along line 10-10. [Main component symbol description] 100 System 102 Tissue site 104 Patient 106 Multi-compartment dressing 107 Decompression source 108 Expandable pouch 110 Distribution catheter 1 12 Interface 114 Fluid supply conduit 116 Fluid supply 118 Wipe 122 Sealing space 125 Patient Skin 126 Decompression interface 128 Decompression catheter 140743.doc -19· 201002276 129 Wound 130 Middle part 131 Device 120 Room 124 Adhesive 134 Inward or closing force 136 Compressive force 208 Expandable bladder 240 Strut 242 Two-way arrow 244 Flange 245 Wall 308 Expandable bladder 310 Distribution conduit 312 Interface 606 Multi-compartment dressing 614 Fluid supply conduit 648 Flat structure 650 Top wall 628 Pressure relief conduit 608 Expandable bladder 620 Chamber 648 Flat structure 652 Bottom wall 140743. Doc -20 201002276
654 flexible side wall 806 dressing 808 inflatable bag 810 distribution catheter 820 chamber 856 first sheet 862 line 863 line 864 lumen catheter 865 perimeter 866 interface 824 adhesive 858 second sheet 860 joint portion 834 inward force 828 wound 868 hole Mouth 870 fluid lumen 872 decompression lumen 874 facing tissue side 140743.doc -21
201002276 VII. Patent application scope: A system for providing decompression therapy in one of the patient's tissue sites, the system includes: ... a decompression source 'for supplying decompression; a fluid source 'for supplying a fluid; — ' a swellable bladder for placement adjacent to the tissue, the expandable bladder operable to receive the fluid and expand from an unexpanded position to an expanded position; and a plurality of chambers At least one of the plurality of compressible; at least one of the plurality of expandable bladders disposed between the first expandable bladder and the second expandable pocket. 2. The system of claim 1, wherein the chambers are compressed as the expandable bladder expands from the unexpanded position to the expanded position. The system of claim 1, further comprising: - a towel for covering the expandable bladder when the expandable bladder is placed adjacent to the patient's epidermis to form a sealed space, the sealed space Included in the chambers; and wherein the chambers are operable to receive the dust reduction, the depression causing the chambers to collapse and moving the expandable bladders closer to each other. 4. The system of claim 1, further comprising: - a towel for covering the expandable bladders when the expandable bladders are placed adjacent to the patient's epidermis to form a sealed space, The sealed space includes the chambers; 140743.doc 201002276 a reduced pressure conduit for delivering the reduced pressure; a reduced pressure interface for coupling to the wipe and operable to be between the conduit and the sealed space Fluid communication is provided; and wherein the chambers are operable to receive the reduced pressure and collapse under reduced pressure. 5. The system of claim 1, further comprising: a dressing for covering the expandable bladders to form a sealed space adjacent to the tissue site, the sealed space comprising the chambers; and a binder And for coupling a circumference of the dressing to the patient to facilitate sealing of the sealed space; and wherein the chambers are operable to receive reduced pressure and at least partially collapse under reduced pressure. 6. The system of claim 1, wherein: the expandable bladders and the chambers are formed with a top wall, a bottom wall and a plurality of flexible side walls, and at least a portion of the flexible side walls are An expanded bladder is spaced apart from the chambers; and the chambers are operable to receive the reduced pressure, the chambers being operable to collapse under reduced pressure and to move the expandable bladders closer to each other . 7. The system of claim 1, wherein: the expandable bladders and the chambers are formed with a top wall, a bottom wall and a plurality of flexible side walls, and at least a portion of the flexible side walls are An expanded bladder is spaced apart from the chambers; the chambers are operable to receive the reduced pressure and collapse under reduced pressure and to move the expandable bladders closer to each other; and the expandable Each of the bladders has a generally rectangular cross-sectional shape when the expandable bladder is in the unexpanded position of 140743.doc 201002276, and each of the chambers has a general shape in the absence of the reduced pressure Rectangular cross-face shape. 8. The system of claim 1, further comprising: a first sheet; and a second sheet 'coupled to the first sheet to form the swellable pouches, the chambers, and a distribution conduit, The distribution conduit is for providing fluid communication between the expandable bladders. 9. The system of claim 1, further comprising: a first sheet; and a second sheet coupled to the first sheet to form the expandable bladder, the chambers, and a distribution conduit, the distribution A conduit provides fluid communication between the expandable bladders; and wherein the chambers are operable to receive the reduced pressure and collapse under reduced pressure and to move the expandable bladders closer to one another. 10. The system of claim 1, further comprising: a first sheet; a first sheet coupled to the first sheet to form the expandable bladder, the chambers, and a distribution guide f, the distribution The conduit provides fluid communication between the expandable bladders; - a dual lumen (four) that fluidly couples to the reduced pressure source and the fluid source - the dual lumen catheter has a means for delivering the reduced pressure a first inner chamber and a second inner chamber for transferring the fluid; an interface for fluidly transferring to the plurality of chambers and the reducing source and the surface The fluid source and the plurality of expandable surfaces are operable to deliver the reduced pressure and the fluid: and a bladder, wherein the chambers are operable to receive the minus (four) the expandable bladders move closer to each other. And wherein: 11 is played as in claim 1, further comprising: a first sheet; and a second sheet which is welded along the weld line to the expandable bladder, the 嗲It tile to form The temple is connected to a distribution duct, and the four (four) materials are provided between the swellable (four). The system of the present invention, wherein the expandable person comprises: at least one of the shock absorbers, wherein the at least one of the shocks is used to make the at least one of the at least one expandable The expandable pouch is along the _ one | expansion time limit 13. As claimed in the system, it further includes: expansion. a fluid conduit 'which is used to provide fluid communication between the fluid sources; and a X-specific expandable bladder: a fluid interface that fluidly treats the expandable bladder. Coupled to the same. 14. As claimed in the system, the further steps include: a distribution conduit for communicating in the body. Providing a flow between the sacs of the sacs 15 • a system for requesting items, the further comprising: a distribution conduit for providing accommodation between the shackles and the sacs , wherein the distribution catheter system, grasping wrinkles to promote the movement of the expandable 140743.doc 201002276 pouch. 16. The system of claim 1, wherein: x = the expandable bladders - each of which is substantially cylindrical when in the expanded position, and wherein the temple expandable bladders are substantially parallel to one another. 1 7. As requested, the swells of the swells form a concentric ring. 18. The system of: month, item, wherein the chambers are operable to receive the reduced pressure, X, [causing to wait until the collapse and bringing the expandable bladders closer to each other 19 At the site of the tissue - the scar is applied - the closing force. A device for providing decompression therapy to a patient-tissue site, the device comprising: a plurality of expandable bladders for placing adjacent to the tissue site, the expandable bladders being operable to receive - the core from the unexpanded position is expanded to an expanded position; and the plurality of chambers are compressible; wherein at least one of the plurality of chambers is disposed in the plurality of expandable bladders - the first The expandable bladder is between - the second expandable. The device of claim 19, wherein the chambers are compressed as the expandable bladder expands from the unexpanded position to the expanded position. 21. The device of claim 19, further comprising: a dressing for covering the expandable bladders to form a plurality of sealed spaces adjacent to the patient 'the sealed spaces include the chambers and ^ 140743 .doc 201002276 wherein the chambers are operable to receive a reduced pressure and collapse and move the expandable bladders closer to each other. 22. The device of claim 19, further comprising: a dressing for covering the expandable bladders to form a plurality of sealed spaces adjacent to the patient, the sealed spaces comprising the chambers; a conduit for delivering reduced pressure; a reduced pressure interface for fluidly coupling the reduced pressure conduit and the plurality of sealed spaces; and wherein the chambers are operable to receive the reduced pressure and collapse and cause the The expandable bladders move closer to each other. 23. The device of claim 19, further comprising: a dressing for covering the expandable bladders to form a plurality of sealed spaces, the sealed spaces comprising the chambers; an adhesive for use A perimeter of the wipe is coupled to the patient to facilitate sealing of the sealed spaces; and wherein the chambers are operable to receive reduced pressure and collapse and move the expandable bladders closer to each other. 24. The device of claim 19, wherein: the expandable bladders and the chambers are formed with a top wall, a bottom wall and a plurality of flexible side walls; and the chambers are operable to receive reduced pressure and collapse, Thereby the swellable bladders are moved closer together. 25. The device of claim 19, wherein: the expandable bladders and the chambers are formed by a top wall, a bottom wall and a plurality of flexible sides of the 140743.doc 201002276; «Hai until operable to receive Decompressing and collapsing and moving the bags closer to each other; and each of the I swells in the swellable pocket of the swellable sac of the swell is in the swellable, unexpanded position , ^ ^ , A The shock coat has a substantially rectangular cross-sectional shape when it is in the 1st, and has a shape in the absence of the Lang. A substantially rectangular inspection surface 26. The apparatus of claim 19, further comprising: a first sheet; and a second sheet coupled to the first sheet to form the expandable bladder, the chamber, and A distribution conduit, wherein the distribution tube provides fluid communication between the expandable bladders. 27. The device of claim 19, further comprising: a first sheet; and a second sheet coupled to the first sheet to form the expandable bladder, the chamber, and a distribution conduit, The distribution conduit provides fluid communication between the expandable bladders; and wherein the chambers are operable to receive reduced pressure and collapse under reduced pressure and move the expandable bladders closer to one another . 28. The device of claim 19, further comprising: - a first sheet; a second sheet coupled to the first sheet to form the expandable pouches, the chambers, and a distribution conduit, The distribution conduit provides fluid communication between the expandable bladders; 140743.doc 201002276 a reduced pressure source for supplying reduced pressure; a fluid source 'for supplying the fluid; - a double lumen catheter, The fluid is fluidly coupled to the reduced pressure source and the fluid source, the dual lumen catheter having a first lumen for delivering the reduced pressure and a second lumen for delivering the fluid; Causing for fluidly arranging to the plurality of chambers and the subtractive surface to the fluid source and the plurality of expandable bladders, the interface operable to deliver the reduced pressure and the fluid; and the chambers are The operation is to receive the reduction and collapse under reduced pressure and to move the pockets of the inflated body closer to each other. 29. The device of claim 19, further comprising: - a first sheet; and - a second sheet that is welded along the weld line to the expandable bladder, the chamber, and the __ dispensing tube, === Fluid communication is provided between the expandable bladders. ^ 彳 在 3 3 3 = = = = = = = = 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 其中 , , , , , , , , , , , , , , The expansion of the mouth. 31. The device of claim 19, further comprising: a &quot;丨•• body source for supplying the fluid; a fluid conduit for providing fluid communication between the fluid source and the; T-expansion bag - fluid interface 'its heart money Μ 主 main such 140743.doc 201002276 inflatable bag. 32. The apparatus of claim 19, further comprising: - a distribution conduit </ RTI> for communicating in the expandable bodies. The apparatus of claim 19, further comprising: a cloth for providing a flow sac between the inflatable bladders; 34. The device of claim 19, wherein the names of the expandable capsules are substantially cylindrical, and the parent is in the swell position &quot; The bags are substantially parallel to each other. 35. As requested in item 19, the ring is installed. * "The device for finding an expandable bladder forms a concentric squid 19" wherein the chambers are operable to receive - decompress, the chambers are collapsed and the expandable bladders are placed closer to each other The force is applied at the (four) site - the wound is applied - closed 37. The species is used for the _* eve, Λ the method includes, the method of providing a decompression treatment for the tissue site, the multi-compartment dressing Applied to the tissue site, the dressing includes: a swellable bladder that is used to swell the swellable bladder adjacent to the tissue portion to be operable to receive - fluid and self-unexpanded Position expansion to - expansion position, and 140743.doc 201002276 38. 39. 40. 41. 42. a plurality of chambers, the chambers are compressible; wherein at least 4 of the plurality of chambers are disposed in the plurality of expandable Between one of the first expandable bladders of the bladder and a second expandable bladder; applying the fluid to the expandable bladders to cause the expandable bladders to expand to the expansion In position; and applying a reduced pressure to the tissue site via the dressing. Method 'where the chambers are compressed when the expandable bladder is expanded to the expanded position. The method of claim 37, further comprising: applying the waste reduction to the towering |V #芏忑寺 to the The chambers are collapsed to cause the expandable bladders to move closer to each other. The method of [beta] 37, wherein applying the dressing to the tissue site further comprises: covering the expandable with a towel The pouch is formed to form a sealed space, and the sealed space includes the chambers. The coating device provides a means for reducing the treatment to a tissue portion of a patient, the method comprising: forming a plurality of swellable capsules a plurality of capsules that are coupled to the expandable bladders to which the expandable bladders are operable to receive/mellow and expand from an unexpanded position to an expanded position, the expandable bladders And wherein the plurality of expandable bladders and the plurality of chambers are combined. The method of claim 41, further comprising: 140743.doc -10- 201002276 providing a Distribution catheter Using the distribution conduit, the expandable bladders are fluidly coupled to each other. The method of claim 41, further comprising: providing a distribution conduit; using the distribution conduit to fluidly The expandable bladders are coupled to each other; and a garment adapted to cover the expandable bladders to form a sealed space, the sealed space comprising the chambers. 44. The method of claim 41, wherein the forming The expandable bladder includes: providing a first sheet; providing a second sheet; and coupling the first sheet to the second sheet to form the expandable bladder, the chamber, and a distribution conduit, The distribution conduit provides fluid communication between the expandable bladders. 45. The method of claim 41, wherein forming the expandable bladder comprises: providing a first sheet; providing a second sheet; and welding the first sheet to the second sheet along a weld line to form the The expandable bladder, the chambers, and a distribution conduit provide fluid communication between the expandable bladders. 46. The method of claim 41, wherein forming the expandable bladder comprises: forming a top wall, a bottom wall, and a plurality of flexible sidewalls coupling the top wall to the bottom wall. 140743.doc -11 -
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