Wound cleansing apparatus
US-9289542-B2 · Mar 22, 2016 · US
Reduced-pressure, composite manifolds
US10610415B2 · US · B2
| Field | Value |
|---|---|
| Publication number | US-10610415-B2 |
| Application number | US-201715600265-A |
| Country | US |
| Kind code | B2 |
| Filing date | May 19, 2017 |
| Priority date | Nov 18, 2008 |
| Publication date | Apr 7, 2020 |
| Grant date | Apr 7, 2020 |
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- Title
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- Abstract
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Abstract
Official abstract text for this publication.
A reduced-pressure treatment system for treating a wound on a patient includes a composite manifold that may help prevent or minimize injury to a wound edge of the wound being treated with reduced pressure. The composite manifold includes a perimeter manifold member and an inboard manifold member. The perimeter manifold member is designed to not collapse substantially under reduced pressure in a therapy range. The perimeter manifold member may be more rigid with respect to compressibility than the inboard manifold member. A sealing member is used to form a fluid seal over the wound, and a reduced-pressure subsystem provides reduced pressure to the composite manifold. Other systems, methods, and dressings are presented.
First claim
Opening claim text (preview).
What is claimed is: 1. A reduced-pressure treatment system comprising: a composite manifold having: a border manifold for disposing adjacent to a wound edge and having an interior portion and a first density, and an inner manifold disposed adjacent to the interior portion of the border manifold, the inner manifold having a second density, the first density being greater than the second density; a drape for covering the composite manifold to form a sealed space over the composite manifold; and a reduced-pressure source for providing reduced pressure to the composite manifold. 2. The reduced-pressure treatment system of claim 1 , wherein the border manifold comprises a plurality of manifolds. 3. The reduced-pressure treatment system of claim 1 , wherein the border manifold is coupled to the inner manifold. 4. The reduced-pressure treatment system of claim 1 , wherein: the border manifold has a first bulk modulus, K 1 ; the inner manifold has a second bulk modulus, K 2 ; and the first bulk modulus is greater than the second bulk modulus, K 1 >K 2 . 5. The reduced-pressure treatment system of claim 1 , wherein the border manifold is formed with adequate strength to resist collapse under a compressive force transmitted by the drape when under therapeutic reduced pressure. 6. The reduced-pressure treatment system of claim 1 , wherein the border manifold and the inner manifold comprise a same material. 7. The reduced-pressure treatment system of claim 1 , wherein the border manifold comprises a hydrophilic material and a bioactive material. 8. The reduced-pressure treatment system of claim 1 , wherein the border manifold comprises a hydrophilic material and a bioactive material, and wherein the bioactive material comprises epinephrine. 9. The reduced-pressure treatment system of claim 1 , wherein the border manifold comprises a bio-friendly stiffener. 10. The reduced-pressure treatment system of claim 1 , wherein the border manifold comprises at least one support element to cause the border manifold to be less compressible. 11. The reduced-pressure treatment system of claim 10 , wherein the at least one support element comprises at least one of a filament, a vertical post, or a strut. 12. The reduced-pressure treatment system of claim 1 , wherein inner manifold comprises a material having 65 pores per linear inch, and wherein the border manifold comprises a material having 115 pores per linear inch. 13. A composite manifold comprising: a border manifold for disposing adjacent to a wound edge and having an interior portion and a first density, and an inner manifold disposed adjacent to the interior portion of the border manifold, the inner manifold having a second density, the first density being greater than the second density. 14. The composite manifold of claim 13 , wherein the border manifold is coupled to the inner manifold. 15. The composite manifold of claim 13 , wherein: the border manifold has a first bulk modulus, K 1 ; the inner manifold has a second bulk modulus, K 2 ; and the first bulk modulus is greater than the second bulk modulus, K 1 >K 2 . 16. The composite manifold of claim 13 , wherein the border manifold is formed with adequate strength to resist collapse under therapeutic reduced pressure. 17. The composite manifold of claim 13 , wherein the border manifold and the inner manifold comprise a same material. 18. The composite manifold of claim 13 , wherein the border manifold comprises a hydrophilic material and a bioactive material. 19. The composite manifold of claim 13 , wherein the border manifold comprises a hydrophilic material and a bioactive material, and wherein the bioactive material comprises epinephrine. 20. The composite manifold of claim 13 , wherein the border manifold comprises at least one support element to cause the border manifold to be less compressible. 21. The composite manifold of claim 20 , wherein the at least one support element comprises at least one of a filament, a vertical post, or a strut. 22. The composite manifold of claim 13 , wherein inner manifold comprises a material having 65 pores per linear inch, and wherein the border manifold comprises a material having 115 pores per linear inch. 23. A method of manufacturing a composite manifold comprising: forming a border manifold for disposing proximate a wound edge, the border manifold having a first density; and forming an inner manifold, the inner manifold having a second density, the first density being greater than the second density. 24. The method of claim 23 , further comprising coupling the border manifold to the inner manifold. 25. The method of claim 23 , wherein forming the border manifold and forming the inner manifold comprises: forming the border manifold with a first bulk modulus, K 1 ; and forming the inner manifold with a second bulk modulus, K 2 , wherein the first bulk modulus is greater than the second bulk modulus, K 1 >K 2 . 26. The method of claim 23 , wherein forming the border manifold comprises forming the border manifold from a hydrophilic material and applying a bioactive material to at least a portion of the hydrophilic material. 27. The method of claim 23 , wherein forming the border manifold comprises forming the border manifold from a hydrophilic material and applying a bioactive material to at least a portion of the hydrophilic material, and wherein the bioactive material comprises epinephrine. 28. The method of claim 23 , wherein the border manifold is formed with adequate strength to resist collapse under therapeutic reduced pressure. 29. The method of claim 23 , wherein the border manifold and the inner manifold comprise a same material. 30. The method of claim 23 , wherein the border manifold comprises at least one support element to cause the border manifold to be less compressible. 31. The method of claim 30 , wherein the at least one support element comprises at least one of a filament, a vertical post, or a strut. 32. The method of claim 23 , wherein inner manifold comprises a material having 65pores per linear inch, and wherein the border manifold comprises a material having 115 pores per linear inch. 33. A composite manifold comprising: a border manifold for disposing proximate a wound edge, the border manifold sprayed with a stiffening substance; and an inner manifold disposed adjacent to the border manifold, wherein the stiffening substance causes the border manifold to be more stiff than the inner manifold. 34. The composite manifold of claim 33 , wherein the border manifold is less compressible than the inner manifold. 35. The composite manifold of claim 33 , wherein the border manifold is coupled to the inner manifold. 36. The composite manifold of claim 33 , wherein: the border manifold has a first bulk modulus, K 1 ; the inner manifold has a second bulk modulus, K 2 ; and the first bulk modulus is greater than the second bulk modulus, K 1 >K 2 . 37. The composite manifold of claim 33 , wherein the border manifold is formed with adequate strength to resist collapse under therapeutic reduced pressure. 38. The composite manifold of claim 33 , wherein the border manifold and the inner m
Assignees
Inventors
Classifications
with coating before or during assembling · CPC title
Materials providing elastic properties, e.g. for facilitating deformation and avoid breaking · CPC title
for treating webs, e.g. for moisturising, coating, impregnating or applying powder · CPC title
applying of mechanical pressure; passive massage · CPC title
Methods of manufacture, assembly or production · CPC title
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Frequently asked questions
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- What does patent US10610415B2 cover?
- A reduced-pressure treatment system for treating a wound on a patient includes a composite manifold that may help prevent or minimize injury to a wound edge of the wound being treated with reduced pressure. The composite manifold includes a perimeter manifold member and an inboard manifold member. The perimeter manifold member is designed to not collapse substantially under reduced pressure in …
- Who is the assignee on this patent?
- Kci Licensing Inc
- What technology area does this patent fall under?
- Primary CPC classification A61M27/00. Mapped technology areas include Human Necessities.
- When was this patent published?
- Publication date Tue Apr 07 2020 00:00:00 GMT+0000 (Coordinated Universal Time) (B2). Legal status and post-grant events are not shown on this page.
- What related patents are in patentsdb?
- We list 4 related publications on this page (citations in our corpus or others sharing the same primary CPC).