Method and device for detecting device colonization
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01N-033/493
A61B-005/145
A61M-025/00
A61L-029/14
A61L-029/16
A61B-005/00
A61L-031/14
A61L-031/16
A61F-002/82
출원번호
US-0114738
(2013-05-31)
등록번호
US-9228996
(2016-01-05)
국제출원번호
PCT/US2013/043626
(2013-05-31)
국제공개번호
WO2014/193410
(2014-12-04)
발명자
/ 주소
Peppou, George Charles
Manion, Michael Keoni
Austin, Benjamin Matthew
Millar, Benjamin William
Barens, Benjamin Watson
출원인 / 주소
EMPIRE TECHNOLOGY DEVELOPMENT LLC
대리인 / 주소
The Juhasz Law Firm
인용정보
피인용 횟수 :
0인용 특허 :
10
초록▼
Technologies are disclosed for a method and a device for detecting device colonization. Disclosed herein is an indwelling medical device configured to detect a biofilm. The device comprises a substrate configured to contact blood and a detecting material, disposed with the substrate, configured to d
Technologies are disclosed for a method and a device for detecting device colonization. Disclosed herein is an indwelling medical device configured to detect a biofilm. The device comprises a substrate configured to contact blood and a detecting material, disposed with the substrate, configured to detect the presence of a biofilm thereon. The detecting material is soluble in blood, removable by kidneys from the blood, and passable to urine by the kidneys for detection in the urine. A method for detecting the growth of a biofilm on an indwelling medical and a method for making an indwelling medical device are also disclosed herein.
대표청구항▼
1. An indwelling medical device configured to detect a biofilm, the device comprising: a substrate configured to contact blood;a detecting material, disposed in or about the substrate, configured to detect the presence of a biofilm on the indwelling medical device;the detecting material being solubl
1. An indwelling medical device configured to detect a biofilm, the device comprising: a substrate configured to contact blood;a detecting material, disposed in or about the substrate, configured to detect the presence of a biofilm on the indwelling medical device;the detecting material being soluble in blood, removable by kidneys from the blood, and passable to urine by the kidneys; andthe indwelling medical device being configured to solubilize a sufficient amount of the detecting material, upon a sufficient presence of the biofilm on the indwelling medical device, for detection in the urine to indicate the presence of the biofilm on the indwelling medical device. 2. The indwelling medical device of claim 1 wherein the detecting material is selected from the group consisting of methylene blue, β-carotene, rifampin, Yellow No. 6, tetracycline, Red No. 40, Red No. 3, Blue No. 2, Evan's Blue, Green No. 3, Blue No. 1, indocyanine green, and betanin. 3. The indwelling medical device of claim 1 further comprising a first layer disposed on the substrate. 4. The indwelling medical device of claim 3 further comprising: a second layer disposed on the first layer, the second layer being degradable in the presence of the sufficient amount of biofilm for the release of the detecting material into the blood. 5. The indwelling medical device of claim 1 wherein the detecting material is visually detectable in the urine. 6. The indwelling medical device of claim 4 wherein the second layer comprises a polymer, mixed polymer, or metal. 7. The indwelling medical device of claim 4 wherein the second layer comprises a biodegradable material. 8. The indwelling medical device of claim 4 wherein the second layer comprises a material selected from the group consisting of starch-based polymers, cellulose-based polymers, PLA, PLG, and PLGA. 9. The indwelling medical device of claim 4 wherein the second layer comprises a protein or albumin. 10. The indwelling medical device of claim 4 wherein the second layer comprises a first polymer and a second polymer; the first polymer being degraded in the presence of a biofilm; andthe second polymer providing a retaining structure for the biofilm, upon the degradation of the first polymer. 11. The indwelling medical device of claim 10 wherein the second polymer is selected from the group consisting of silicone rubber, polyurethane, and polyethylene. 12. The indwelling medical device of claim 4 wherein the second layer comprises a thin film of iron or magnesium. 13. The indwelling medical device of claim 4 wherein the second layer comprises at least one antimicrobial or antifouling agent. 14. The indwelling medical device of claim 1 wherein the indwelling medical device is an intravenous catheter, central line, arterial line, stent, or wound drain. 15. A system comprising two or more of the indwelling medical devices of claim 1, each the indwelling device comprising a different detecting material, each of the different detecting materials being independently detectable. 16. A system configured to independently detect biofilm on two or more indwelling medical devices, each of the indwelling medical devices comprising: a substrate configured to contact blood; anda detecting material disposed in or about the substrate configured to detect the presence of a biofilm;the detecting material being soluble in blood, removable by kidneys from the blood, and passable to urine by the kidneys;wherein each of the two or more indwelling medical devices is associated with an independently detectable detecting material, detection of the independently detectable detecting material indicating the indwelling medical device having the biofilm; andeach of the two or more indwelling medical devices being configured to solubilize a sufficient amount of its associated detecting material, upon a sufficient presence of the biofilm on the associated indwelling medical device, for detection in the urine to indicate the presence of the biofilm on the associated indwelling medical device. 17. A method for detecting the growth of a biofilm on an indwelling medical device comprising: passing blood over a surface of the indwelling medical device;degrading the surface of the indwelling medical device, with a biofilm, by an amount sufficient to release a detecting material therefrom;releasing a sufficient amount of the detecting material from the surface of the indwelling medical device into the blood to become detectable in urine; anddetecting the detecting material in the urine. 18. The method of claim 17 wherein the step of degrading the surface of the indwelling medical device comprises degrading at least a portion of the outer surface, contacting the passing blood, of the indwelling medical device by a sufficient amount, prior to the step of releasing the detecting material from the surface of the medical device. 19. The method of claim 18 wherein the step of degrading the surface of the indwelling medical device further comprises exposing an inner layer of the indwelling medical device to the passing blood and the step of releasing a sufficient amount of the detecting material from the surface of the indwelling medical device comprises releasing the detecting material from the inner layer. 20. The method of claim 17 wherein the step of detecting the detecting material in the urine comprises visually detecting the detecting material. 21. A method for making an indwelling medical device comprising: providing a substrate for use as an indwelling device;applying a detecting material in or about the substrate of the indwelling medical device;wherein the detecting material is soluble in blood, removable by kidneys from the blood, and passable to urine by the kidneys; andthe indwelling medical device being configured to solubilize a sufficient amount of the detecting material, upon a sufficient presence of a biofilm on the indwelling medical device, for detection in the urine to indicate the presence of the biofilm on the indwelling medical device. 22. The method for making an indwelling medical device of claim 21 further comprising: preparing a bath comprising a crystalline solvate dye;the step of applying a detecting material in or about the substrate comprises coating the substrate of the indwelling medical device with the bath;drying the substrate coating and crystallizing the dye; andapplying a polymer onto the crystallized dye. 23. The method for making an indwelling medical device of claim 21 further comprising: preparing a hydrogel and dye material; andthe step of applying a detecting material to the substrate comprises coating the substrate of the indwelling medical device with the hydrogel and dye material. 24. The method for making an indwelling medical device of claim 23 wherein the hydrogel is selected from the group consisting of guanosine and 8-bromoguanosine hydrogel. 25. The method for making an indwelling medical device of claim 23 wherein: the step of preparing a hydrogel and dye material comprises doping a first polymer with a dye;the first polymer is water soluble;the step of applying a detecting material to the substrate comprises coating a substrate of the indwelling medical device with the doped first polymer; andapplying a second polymer onto the coated substrate, wherein the second polymer is degradable in the presence of a sufficient amount of biofilm for the release of a detectable amount of the dye into the blood. 26. The method for making an indwelling medical device of claim 25 wherein the first polymer is PVA. 27. The method for making an indwelling medical device of claim 26 wherein: the substrate of the indwelling medical device comprises PVC;the doped first polymer comprises PVA and methylene blue at a concentration of greater than 10% (w/v); andthe step of coating a substrate comprises coating the substrate with the doped first polymer with a coat between 10-1000 micron thick. 28. The method for making an indwelling medical device of claim 26 wherein the step of applying a second polymer comprises applying PLA at a thickness between 10-1000 micron.
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이 특허에 인용된 특허 (10)
Reisdorf Dennis J. (Jacksonville FL) Hissong James B. (Jacksonville FL), Automatic dye dispersant for endotracheal tubes and catheters.
Lim Min H. (502 Andrew St. Greenbrook NJ 08812) Marinangleli Michael G. (244 E. 86 St. #23 New York NY 10028), Color changing reagent composition for coating on needles used in medical applications.
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