Dentistry – Apparatus – Broach
Reexamination Certificate
1997-10-02
2002-08-13
Yan, Ren (Department: 2854)
Dentistry
Apparatus
Broach
C433S224000
Reexamination Certificate
active
06431863
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to endodontic instruments, and more particularly to such instruments having improved physical properties in the nature of combined flexibility and hardness.
BACKGROUND OF THE INVENTION
Endodontic instruments, particularly files, reamers and broaches, are used for both cleaning and shaping root canals during endodontic procedures. There are a variety of factors which dictate the required physical characteristics of such instruments. These include the desired stiffness and/or flexibility of the instrument, as well as the sharpness of its cutting edges (which relates to the hardness as well as the structure of the material) coupled with certain dimensional and design limitations for the different root canals.
In the past, endodontic instruments have been made from carbon steels and stainless steels due to the propensity of these materials for maintaining adequate cutting edges, as well as the relatively high stiffness thereof. For example, carbon steel and stainless steel endodontic instruments are available from Kerr Corporation, Romulus, Michigan. Endodontic instruments constructed of such materials have certain drawbacks, however, including flexibility limitations which do not allow the instrument to readily conform to the shape of a curved root canal. This inflexibility can cause excessive, unwanted erosion of the root canal.
Recently, there have been some attempts in the endodontic instrument field to address these problems. More particularly, titanium based alloys and Ni/Ti materials have been introduced for use in the manufacture of endodontic instruments. For example, Seigneurin U.S. Pat. No. 5,125,838 relates to endodontic canal instruments made of titanium or titanium alloys. The use of materials such as titanium or Ni/Ti have certain advantages in the flexibility of the material. However, endodontic instruments of such materials may have as a drawback the lack of necessary stiffness, particularly in small sized (diameter) instruments, sufficient to provide guidance in the root canals. Furthermore, the sharpness of the cutting edges in such instruments is compromised due to the lower hardness of the material.
What is needed is an instrument which combines the desired stiffness and sharp edge-maintaining characteristics along with desired enhanced flexibility so as to alleviate canal erosion.
SUMMARY OF THE INVENTION
In its broadest aspects, the present invention is directed to endodontic instruments which include a working shaft portion wherein the shaft portion has a modulus of elasticity that provides enhanced flexibility along its length and yet is stiff enough to provide the necessary guidance for the instrument. Furthermore, the working shaft has sufficient hardness so the cutting edges maintain their sharpness. The shaft may have varying flexibility and hardness properties along its length; however, the variation in flexibility (modulus) is not to be due solely to any variation in dimensions of the working shaft; e.g., the variation in flexibility is not due solely to a greater diameter at one location relative to another location on the working shaft.
In one aspect, the invention contemplates that at least the working shaft portion of the endodontic instrument, which may be a file, reamer or broach, or other endodontic instrument, is comprised of a titanium-based alloy, or other alloy possessing desirable physical characteristics. Suitable alloys contemplated are Ni—Ti based alloys; Ni—Ti alloys that include Nb or Fe as an additional alloying element; and alloys selected from the group consisting of Ti, Zr, Mo, Co, and Cr-based alloys. All of the above are suitable materials for the endodontic instruments of the present invention so long as the alloy is at least partially amorphous. Preferably, the alloy is structurally greater than about 10% amorphous. By selecting and utilizing an appropriate partially amorphous alloy from the noted group, the endodontic instrument is provided with the desired flexibility/stiffness and hardness properties for the particular endodontic procedure.
In an alternative aspect of the invention, the desired flexibility/stiffness and hardness properties are achieved by providing a coating or surface treatment on at least a portion of an exposed surface of the working shaft. The shaft itself may be a titanium-based alloy, or one of the other types of alloys noted above, and the coating or surface treatment may be continuous or discontinuous over the working shaft. Variations in flexibility and hardness along the length of the working shaft can be achieved utilizing discontinuous or intermittent coatings/surface treatments, or by variations in coating thickness. By utilizing continuous coatings of amorphous materials, such as Amplate, available from ATI of Laguna Niguel, Calif., the stiffness of the tip is improved while minimizing erosion of the cutting edges. Discontinuous TiN or TiAlN coatings can improve the hardness at the cutting edges while selectively increasing the stiffness of the instrument along its length.
In yet another aspect of the invention, the desired flexibility/stiffness and hardness properties can be achieved by selective or preferential heat treatment of the working shaft. Particularly in the embodiment wherein the working shaft portion is comprised of Ni—Ti alloy, selective heat treatment can be used to achieve the desired physical properties. Additionally, adjustments to the proportions of Ni and Ti as well as to the cold work ratio, can be advantageously used to achieve desired physical properties.
Utilizing any one of the above techniques, the flexibility and hardness of the working shaft portion can be varied along the length thereof, or specific hardness and/or flexibility properties can be imparted at specific locations along its length. For example, it is generally desired to have a stiffer tip in an endodontic instrument so as to provide improved cutting ability at the tip and to facilitate directing the instrument into the canal. Whereas the middle section of the working shaft portion of the instrument may need to be less stiff so as to improve steerability of the instrument through the canal, thereby minimizing erosion of the canal walls. This minimizing of canal wall erosion is achieved due to the fact that as the instrument is inserted through the canal, the lower modulus of elasticity of the material at the flexed or bent portion (e.g., the middle section) produces smaller forces against the canal walls, thereby minimizing erosion thereof.
These and other features and advantages of the present invention will become apparent to persons skilled in the art upon review of the detailed description of the invention, taken in conjunction with the drawings.
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H. Walia et al., “An Initial Investigation of the Bending and Torsional Properties of Nitinol Root Canal Files”, Journal of Endodontics, vol. 14, No. 7, Jul. 1988, pp. 346-351.
Croopnick, G.A. et al., “A Low Environmental-Risk Replacement for Chromium and Electroless Nickel”, Metal Finishing, pp. 13-16 (Apr. 1994).
The Kerr Endo Difference Brochure, Kerr Manufacturing Company, Romulus, Michigan 1991.
Farzin-Nia Farrokh
Lal Sachdeva Rohit Chaman
Wood Herron & Evans L.L.P.
Yan Ren
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