Claims
- 1. A flexible endoscope insertion shaft comprising:
a hollow inner shaft portion formed from a superelastic metal alloy, said hollow inner shaft portion including a plurality of longitudinally and radially spaced apart holes passing through a wall thereof, wherein flexibility properties of said insertion shaft are variable without varying the thickness of or the composition of the wall of said hollow inner shaft portion by varying a number of, size of, and/or relative position of the plurality of holes; and a polymeric coating which coats a surface of said hollow inner shaft portion.
- 2. The flexible endoscope insertion shaft of claim 1 wherein said hollow inner shaft portion is formed from a nickel-titanium alloy.
- 3. The flexible endoscope insertion shaft of claim 1 wherein said hollow inner shaft portion exhibits both shape memory and superelasticity properties.
- 4. The flexible endoscope insertion shaft of claim 1 wherein said polymeric coating comprises an inner coating layer coating an interior surface of said inner shaft portion, an outer coating layer coating an exterior surface of said inner shaft portion, and portions filling spaces defined by the plurality of holes in said inner shaft portion such that said inner shaft portion is completely embedded within said polymeric coating.
- 5. The flexible endoscope insertion shaft of claim 4 wherein said polymeric coating provides said insertion shaft with inner and outer surfaces which are smooth and devoid of holes in order to facilitate insertion of said insertion shaft into patients and insertion of various components within said insertion shaft.
- 6. The flexible endoscope insertion shaft of claim 1 wherein said polymeric coating is formed from polyurethane.
- 7. The flexible endoscope insertion shaft of claim 1 wherein flexibility properties of said insertion shaft are variable by varying a thickness of said polymeric coating and/or by varying a material used to form said polymeric coating.
- 8. The flexible endoscope insertion shaft of claim 1 wherein the plurality of holes in said inner shaft portion are equally spaced along an entire length of said inner shaft portion.
- 9. The flexible endoscope insertion shaft of claim 1 wherein the plurality of holes in said inner shaft portion are spaced more closely in some localized areas along a length of said inner shaft portion than in other localized areas.
- 10. The flexible endoscope insertion shaft of claim 1 wherein the plurality of holes in said inner shaft portion are equally sized.
- 11. The flexible endoscope insertion shaft of claim 1 wherein some of the plurality of holes in said inner shaft portion are larger than others of the plurality of holes.
- 12. The flexible endoscope insertion shaft of claim 1 wherein the plurality of holes are arranged in four longitudinal lines each line radially spaced apart by about 90°.
- 13. A flexible endoscope insertion shaft comprising:
a hollow inner shaft portion formed from a superelastic metal alloy, said hollow inner shaft portion including a plurality of longitudinally and radially spaced apart holes passing through a wall thereof, wherein flexibility properties of said insertion shaft are variable without varying the thickness of or the composition of the wall of said hollow inner shaft portion by varying a number of, size of, and/or relative position of the plurality of holes; and a polymeric coating comprising an inner coating layer coating an interior surface of said inner shaft portion, an outer coating layer coating an exterior surface of said inner shaft portion, and portions filling spaces defined by the plurality of holes in said inner shaft portion such that said inner shaft portion is completely embedded within said polymeric coating, wherein flexibility properties of said insertion shaft are variable by varying a thickness of said polymeric coating and/or by varying a material used to form said polymeric coating.
- 14. The flexible endoscope insertion shaft of claim 13 wherein said hollow inner shaft portion is formed from a nickel-titanium alloy.
- 15. The flexible endoscope insertion shaft of claim 13 wherein said hollow inner shaft portion exhibits both shape memory and superelasticity properties.
- 16. The flexible endoscope insertion shaft of claim 13 wherein said polymeric coating provides said insertion shaft with inner and outer surfaces which are smooth and devoid of holes in order to facilitate insertion of said insertion shaft into patients and insertion of various components within said insertion shaft.
- 17. The flexible endoscope insertion shaft of claim 13 wherein said polymeric coating is formed from polyurethane.
- 18. The flexible endoscope insertion shaft of claim 13 wherein the plurality of holes in said inner shaft portion are equally spaced along an entire length of said inner shaft portion.
- 19. The flexible endoscope insertion shaft of claim 13 wherein the plurality of holes in said inner shaft portion are spaced more closely in some localized areas along a length of said inner shaft portion than in other localized areas.
- 20. The flexible endoscope insertion shaft of claim 13 wherein the plurality of holes in said inner shaft portion are equally sized.
- 21. The flexible endoscope insertion shaft of claim 13 wherein some of the plurality of holes in said inner shaft portion are larger than others of the plurality of holes.
- 22. The flexible endoscope insertion shaft of claim 13 wherein the plurality of holes are arranged in four longitudinal lines each line radially spaced apart by about 90°.
- 23. An endoscope having a flexible insertion shaft comprising:
a hollow inner shaft portion formed from a superelastic metal alloy, said hollow inner shaft portion including a plurality of longitudinally and radially spaced apart holes passing through a wall thereof, wherein flexibility properties of said insertion shaft are variable without varying the thickness of or the composition of the wall of said hollow inner shaft portion by varying a number of, size of, and/or relative position of the plurality of holes; and a polymeric coating which coats a surface of said hollow inner shaft portion.
RELATED APPLICATIONS
[0001] This patent application claims the benefit of, under Title 35, United States Code, Section 119(e), U.S. Provisional Patent Application No. 60/382,836, filed May 23, 2002.
Provisional Applications (1)
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Number |
Date |
Country |
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60382836 |
May 2002 |
US |