Surgical cutting block and method of use
First Claim
1. A surgical cutting block for use in guiding bone saws and similar blades in orthopaedic surgery, comprising:
- a surgical cutting block having a core unit including means for reversibly attaching the core unit to bone and soft tissue being cut in a predetermined position such that the core unit is attached to the bone and soft tissue being cut, and removed from the bone and soft tissue after cutting is completed, the core unit havingat least one cutting guide surface consisting essentially of a material having a Knoop hardness of 466 or greater (under a 500 gm load), a nickel content of 0% to less than 4% and a chrome content of 0% to less than 10% said material selected from the group consisting of substantially homogenous ceramic oxides, substantially homogenous ceramic carbides, substantially homogenous ceramic borides, substantially homogenous ceramic borides, substantially homogenous ceramic nitrides, nitrogen-hardened titanium, and nitrided cobalt chrome.
3 Assignments
0 Petitions
Accused Products
Abstract
An improved surgical cutting block for guiding bone saws in joint surgery and similar instruments. The cutting block is provided with one or more cutting guides having cutting guide surfaces positioned on exterior faces of the block or along channels within the block. The cutting guide surface is formed of a material having a Knoop hardness of 466 or greater (under a 500 gm load or greater), a chrome content of less than 10% and a nickel content of less than 4%. According to another aspect of the invention, a method of cutting bone tissue utilizing the improved surgical cutting device is disclosed wherein heat-generated damage to bone tissue is reduced and production of toxic residue is minimized.
395 Citations
12 Claims
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1. A surgical cutting block for use in guiding bone saws and similar blades in orthopaedic surgery, comprising:
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a surgical cutting block having a core unit including means for reversibly attaching the core unit to bone and soft tissue being cut in a predetermined position such that the core unit is attached to the bone and soft tissue being cut, and removed from the bone and soft tissue after cutting is completed, the core unit having at least one cutting guide surface consisting essentially of a material having a Knoop hardness of 466 or greater (under a 500 gm load), a nickel content of 0% to less than 4% and a chrome content of 0% to less than 10% said material selected from the group consisting of substantially homogenous ceramic oxides, substantially homogenous ceramic carbides, substantially homogenous ceramic borides, substantially homogenous ceramic borides, substantially homogenous ceramic nitrides, nitrogen-hardened titanium, and nitrided cobalt chrome. - View Dependent Claims (2, 3)
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4. A surgical cutting block for use in guiding bone saws and similar blades in orthopaedic surgery, said cutting block comprising:
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a) a core unit having a first end and a second end; b) a first cutting guide unit coupled to the first end of said core unit and provided with a through channel having at least one cutting guide surface; and c) a second cutting guide unit coupled to the second end of said core unit and provided with a through channel having at least one cutting guide surface, wherein each of said cutting guide units is provided with a cutting guide surface formed of a material having a Knoop hardness of 466 or greater (under a 500 gm load), a nickel content of 0% to less than 4% and a chrome content of 0% to less than 10%, said material selected from the group consisting of substantially homogenous ceramic oxides, substantially homogenous ceramic carbides, substantially homogenous ceramic borides, substantially homogenous ceramic nitrides, nitrogen-hardened titanium, and nitrided cobalt chrome. - View Dependent Claims (5, 6)
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7. A method of cutting bone for a receipt of a coupling surface of a joint prothesis utilizing a cutting block having at least one cutting guide surface formed upon a cutting guide for guiding bone saws and similar blades, said method comprising the steps of:
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a) implanting said cutting block in a desired position on the joint; and b) cutting the bone to sculpt a surface that is geometrically reciprocal to and capable of snug receipt of the coupling surface of said joint prosthesis wherein the cutting guide surface of said cutting block is formed of a material having a Knoop hardness of 466 or greater (under a 500 gm load), a nickel content of 0% to less than 4% and a chrome content of 0% to less than 10%, said material selected from the group consisting of substantially homogenous ceramic oxides, substantially homogenous ceramic carbides, substantially homogenous ceramic borides, substantially homogenous ceramic nitrides, nitrogen-hardened titanium, and nitrided cobalt chrome. - View Dependent Claims (8, 9)
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10. A surgical cutting block for use in guiding bone saws and similar blades in orthopaedic surgery, comprising:
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a surgical cutting block having a core unit including means for reversibly attaching the core unit to bone and soft tissue being cut in a predetermined position such that the core unit is attached to the bone and soft tissue being cut, and removed from the bone and soft tissue after cutting is completed; and at least one cutting guide unit coupled to the core unit, the cutting guide unit provided with a cutting guide surface consisting essentially of a material having a Knoop hardness of 466 or greater (under a 500 gm load), a nickel content of 0% to less than 4% and a chrome content of 0% to less than 10%, the material selected from the group consisting of substantially homogenous ceramic oxides, substantially homogenous ceramic carbides, substantially homogenous ceramic borides, substantially homogenous ceramic nitrides, nitrogen-hardened titanium, and nitrided cobalt chrome. - View Dependent Claims (11, 12)
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Specification