Bacteria resistant medical devices
First Claim
1. A bacteria resistant medical device comprising:
- surfaces having a photosensitizing compound in proximity to or in contact with said surfaces, to provide means to prevent attachment and growth of bacteria and microorganisms; and
means to permit activation of said photosensitizing compound by irradiation with a suitable light source while portions of said device to be irradiated reside under a patient'"'"'s skin.
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Accused Products
Abstract
A novel approach to fight bacterial growth on and attachment to medical devices/implants is described. This approach reduces the necessity of the painful and complicated replacement of the medical devices that frequently need to remain in the body for periods of time longer than is recommended using a traditionally sterilized device. Several methods are described to kill bacteria that have attached to the surface of medical devices. Long term use is then possible with those medical devices. Furthermore a medical device is described under this method that has a photosensitizing compound affixed to or near the device surface with means to periodically activate the compound by suitable illumination.
61 Citations
22 Claims
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1. A bacteria resistant medical device comprising:
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surfaces having a photosensitizing compound in proximity to or in contact with said surfaces, to provide means to prevent attachment and growth of bacteria and microorganisms; and
means to permit activation of said photosensitizing compound by irradiation with a suitable light source while portions of said device to be irradiated reside under a patient'"'"'s skin. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A bacteria resistant medical device comprising:
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at least one surface, wherein said surface has means to retain a photosensitizing compound in proximity to said surface;
means to introduce said photosensitizing compound to said surface from an outside source to fight bacterial growth and attachment on said surface while portions of said surface to be irradiated reside under a patient'"'"'s skin;
wherein said photosensitizing compound is chosen to aid in the destruction of selected microorganisms/bacteria, and wherein said photosensitizing compound is activatable by a suitable light source. - View Dependent Claims (12)
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13. A method to fight bacterial attack on medical devices comprising the steps of:
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applying a photosensitizing compound to at least some of a medical device'"'"'s surfaces;
introducing said medical device into a patient'"'"'s body and beginning treatment;
applying radiation, at some selected later time, to said surfaces with a suitable wavelength to activate said photosensitizing compound, while said device is still within said patient'"'"'s body;
generating singlet oxygen by said activated photosensitizing compound; and
eliminating bacteria and preventing bacterial encrustation of said device. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22)
inserting said optical fiber toward a distal end of said medical device; and
withdrawing said optical fiber at some predetermined rate to apply an appropriate dosage of light energy per square inch.
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18. A method according to claim 17, wherein said step of inserting introduces said optical fiber into said medical device and said activation of said photosensitizing compound occurs by transmitting radiation through a wall between said optical fiber and said device'"'"'s surfaces, said wall and surfaces being sufficiently translucent and preferably being essentially transparent to said suitable wavelength.
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19. A method according to claim 18, wherein said insertion step is introducing said optical fiber through a port incorporated into said device.
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20. A method according to claim 18, wherein said insertion step is inserting said optical fiber through an existing lumen in said medical device.
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21. A method according to claim 16, wherein said optical fiber has a diffusing tip at its distal end, thus applying radiation to activate said photosensitizing compound in a geometrically broader manner.
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22. A method according to claim 13, wherein said radiation step further comprises the steps of:
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irradiating said photosensitizing compound with a first wavelength to excite a dormant photo sensing compound into an active state; and
irradiating said active state of said photosensitizing compound with a second wavelength to activate said photosensitizing compound.
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Specification