Dressing and method for applying reduced pressure to and collecting and storing fluid from a tissue site
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61M-001/00
A61F-013/00
출원번호
US-0703667
(2015-05-04)
등록번호
US-10010656
(2018-07-03)
발명자
/ 주소
Jaeb, Jonathan Paul
Coulthard, Richard Daniel John
Robinson, Timothy Mark
Locke, Christopher Brian
Tout, Aidan Marcus
출원인 / 주소
KCI Licensing, Inc.
인용정보
피인용 횟수 :
0인용 특허 :
181
초록▼
A reduced pressure dressing for applying reduced pressure treatment to a tissue site includes an interface layer adapted to be positioned at the tissue site. An absorbent layer is in fluid communication with the interface layer to absorb liquid from at least one of the interface layer and the tissue
A reduced pressure dressing for applying reduced pressure treatment to a tissue site includes an interface layer adapted to be positioned at the tissue site. An absorbent layer is in fluid communication with the interface layer to absorb liquid from at least one of the interface layer and the tissue site. A pump is in fluid communication with the absorbent layer to deliver a reduced pressure to the tissue site. A cover is positioned over the pump, the absorbent layer, and the interface layer to maintain the reduced pressure at the tissue site, and a liquid-air separator is positioned between the absorbent layer and the pump to inhibit liquid from entering the pump.
대표청구항▼
1. A reduced pressure dressing for applying reduced pressure treatment to a tissue site, the reduced pressure dressing comprising: an interface layer comprising foam adapted to be positioned at the tissue site;a first manifold layer in fluid communication with the interface layer;an absorbent layer
1. A reduced pressure dressing for applying reduced pressure treatment to a tissue site, the reduced pressure dressing comprising: an interface layer comprising foam adapted to be positioned at the tissue site;a first manifold layer in fluid communication with the interface layer;an absorbent layer in fluid communication with the first manifold layer to absorb liquid from at least one of the first manifold layer, the interface layer, and the tissue site;a diverter layer formed from a substantially gas-impermeable material, the diverter layer including a plurality of spaced apertures in fluid communication with the absorbent layer;a second manifold layer in fluid communication with the diverter layer;a pump in fluid communication with the second manifold layer to deliver a reduced pressure to the tissue site;a cover positioned over the pump, the second manifold layer, the diverter layer, the absorbent layer, the first manifold layer, and the interface layer to maintain the reduced pressure at the tissue site, wherein the second manifold layer is disposed between the absorbent layer and the cover; anda liquid-air separator positioned between the second manifold and the pump to inhibit liquid from entering the pump. 2. The reduced pressure dressing of claim 1, wherein the interface layer is hydrophobic. 3. The reduced pressure dressing of claim 1, wherein the absorbent layer includes a super absorbent fiber. 4. The reduced pressure dressing of claim 1 further comprising a seal layer positioned between a tissue surrounding the tissue site and at least one other layer of the dressing to assist in maintaining reduced pressure in the dressing. 5. The reduced pressure dressing of claim 1, wherein a surface area of the diverter layer is greater than a surface area of the cover. 6. The reduced pressure dressing of claim 1, wherein: a surface area of the diverter layer is greater than a surface area of the cover; andat least a portion of the cover is adhesively coupled to the diverter layer and at least a portion of the diverter layer is coupled to a tissue surrounding the tissue site. 7. The reduced pressure dressing of claim 6 further comprising a seal layer positioned between the diverter layer and the tissue surrounding the tissue site. 8. The reduced pressure dressing of claim 1, wherein the apertures of the diverter layer are positioned near at least one perimeter edge of the diverter layer. 9. The reduced pressure dressing of claim 1, wherein the apertures are holes. 10. The reduced pressure dressing of claim 1, wherein at least one of the apertures is larger than another of the apertures. 11. The reduced pressure dressing of claim 1, wherein at least one of the apertures is configured to become smaller on contact with moisture. 12. The reduced pressure dressing of claim 1, wherein the diverter layer includes a plurality of ridges on a surface of the diverter layer to define a plurality of channels between the ridges. 13. The reduced pressure dressing of claim 1, wherein the diverter layer allows the absorption capabilities of the absorbent layer to be more fully utilized. 14. The reduced pressure dressing of claim 1, wherein the diverter layer increases an amount of time over which the absorbent layer is capable of distributing reduced pressure. 15. The reduced pressure dressing of claim 1, wherein the pump is a piezoelectric-driven micropump. 16. The reduced pressure dressing of claim 1 further comprising a battery and control electronics positioned within the dressing and operatively connected to the pump. 17. The reduced pressure dressing of claim 1 further comprising an aperture in the cover to allow exhausting of gas from the pump. 18. The reduced pressure dressing of claim 1 further comprising an odor filter in fluid communication with an outlet port of the pump. 19. A reduced pressure dressing for applying reduced pressure treatment to a tissue site, the reduced pressure dressing comprising: an interface layer adapted to be positioned at the tissue site;a first manifold layer in fluid communication with the interface layer;an absorbent layer in fluid communication with the first manifold layer to absorb liquid from at least one of the first manifold layer, the interface layer, and the tissue site;a diverter layer formed from a substantially gas-impermeable material, the diverter layer including a plurality of spaced apertures in fluid communication with the absorbent layer, wherein at least one of the apertures is configured to become smaller on contact with moisture;a second manifold layer in fluid communication with the diverter layer;a pump in fluid communication with the second manifold layer to deliver a reduced pressure to the tissue site;a cover positioned over the pump, the second manifold layer, the diverter layer, the absorbent layer, the first manifold layer, and the interface layer to maintain the reduced pressure at the tissue site; anda liquid-air separator positioned between the second manifold and the pump to inhibit liquid from entering the pump. 20. A reduced pressure dressing for applying reduced pressure treatment to a tissue site, the reduced pressure dressing comprising: an interface layer adapted to be positioned at the tissue site;a first manifold layer in fluid communication with the interface layer;an absorbent layer in fluid communication with the first manifold layer to absorb liquid from at least one of the first manifold layer, the interface layer, and the tissue site;a diverter layer formed from a substantially gas-impermeable material, the diverter layer including a plurality of spaced apertures in fluid communication with the absorbent layer;a seal layer configured to be positioned between the diverter layer and tissue surrounding the tissue site;a second manifold layer in fluid communication with the diverter layer;a pump in fluid communication with the second manifold layer to deliver a reduced pressure to the tissue site;a cover positioned over the pump, the second manifold layer, the diverter layer, the absorbent layer, the first manifold layer, and the interface layer to maintain the reduced pressure at the tissue site; anda liquid-air separator positioned between the second manifold and the pump to inhibit liquid from entering the pump. 21. A reduced pressure dressing for applying reduced pressure treatment to a tissue site, the reduced pressure dressing comprising: an interface layer adapted to be positioned at the tissue site;a first manifold layer in fluid communication with the interface layer;an absorbent layer in fluid communication with the first manifold layer to absorb liquid from at least one of the first manifold layer, the interface layer, and the tissue site;a diverter layer formed from a substantially gas-impermeable material, the diverter layer including a plurality of spaced apertures in fluid communication with the absorbent layer, wherein the diverter layer includes a plurality of ridges on a surface of the diverter layer to define a plurality of channels between the ridges;a second manifold layer in fluid communication with the diverter layer;a pump in fluid communication with the second manifold layer to deliver a reduced pressure to the tissue site;a cover positioned over the pump, the second manifold layer, the diverter layer, the absorbent layer, the first manifold layer, and the interface layer to maintain the reduced pressure at the tissue site; anda liquid-air separator positioned between the second manifold and the pump to inhibit liquid from entering the pump.
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