SURGICAL CUTTING INSTRUMENT FOR ULTRASONIC EYE SURGERY
BACKGROUND OF THE INVENTION
Field of the Inventiont
This invention concerns an ultrasonic cutting device and more particularly concerns a cutting needle designed to match the curve of the surface o,f, the ante- rior lens capsule for facilitating eye surgery.
Description of the Prior Art;
In designing an ultrasonic cutting instrument for performing delicate surgical procedures on the eye, such as, for example, an anterior capsulotomy, it is important that the instrument be shaped to allow a smooth and continuous cutting of the anterior capsule. It is also important to provide some means to minimize the chances for inflicting damage inside the eye, such as that caused through contact of the cutting instru- ment with the endothelium of the eye. Moreover, it is necessary during such a procedure to avoid the forma¬ tion of anterior capsule tags.
One attempt to design an ultrasonic cutting instrument adapted for cataract removal procedures is disclosed by Banko in U.S. Patent No. 3,589,363 wherein a hand-held instrument having an operative tip vibrat¬ ing at a frequency in the ultrasonic range is designed with various cutting tip configurations shaped accord¬ ing to the particular type of material or tissue to be broken apart or removed. The entire shaft of the cut¬ ting tool is disposed in a coaxial relationship with the handle of the cutting tool and therefore is incap¬ able of conforming to the curve of the surface of the anterior lens capsule. Other cutting instruments have been developed in the past but none have met the need for an instru¬ ment which will quickly and uniformly cut the anterior
capsule so as to prevent the formation of loose ante¬ rior capsule tags.
SUMMARY OF THE INVENTION Accordingly, this invention has been made to fulfill the needs described above, and therefore has as an important object providing a surgical cutting needle adapted to cut the anterior eye capsule in a, very short period of time, for example, within a maximum ultra- sound time period of 20 seconds.
A further object of the invention is to pro¬ vide a surgical cutting needle which, when attached to an ultrasonic handpiece such as a Fragmatome® hand- piece, will ensure uniform cutting of the anterior capsule such that loose anterior capsule segments are prevented from being left behind.
Yet another object is to provide a surgical cutting needle which facilitates the cutting of the anterior capsule in a plurality of shapes, such as circular, square and triangular.
A still further object of the invention is to provide a surgical cutting needle having a hollow chan¬ nel formed therethrough for the passage and delivery of irrigation fluid so as to efficiently cool the needle and its cutting tip.
A further object of the invention is to main¬ tain the depth or shape of the anterior eye chamber with irrigation fluid so as to avoid contact of the surgical cutting needle with the epithelium. Another object is to provide a surgical cut¬ ting needle adapted to pull and remove a cut anterior capsule out of the eye after termination of the ultra¬ sound.
The foregoing and other objects are achieved according to the present invention by the provision of a specially bent and sharpened needle having a gentle curve that matches the surface of the anterior lens
capsule. Special bends and a sharpened tip provide easy handling of the needle during surgery and help cut the anterior capsule rapidly, uniformly and without leaving anterior capsule tags. Irrigation fluid is delivered through a hole in the tip of the needle to prevent the tip from heating so as to minimize trauma to tissue surrounding the tip and to maintain a deep anterior chamber during the cutting operation..
BRIEF DESCRIPTION OF THE DRAWINGS
Various other objects, features and attendant advantages of the present invention will be more fully appreciated as the same becomes better understood from the following detailed description when considered in connection with the accompanying drawings, in which the same reference characters designate like or correspond¬ ing parts through the several views. In the drawings:
FIGURE 1 is an elevation view showing the surgical needle attached to a mounting support; FIGURE 2 is an enlarged elevation view of the tip of the needle showing the details of the upturned cutting surface provided adjacent the fluid outlet;
FIGURE 3 is a sectional view of" the tip of the needle taken along Line III-III of Figure 1; FIGURE 4 is a sectional view of the needle tip taken along Line IV-IV of Figure 3; and
FIGURE 5 is an elevation view showing the surgical needle in an operative mode wherein the pro¬ file of the needle is shown to match the contour of the anterior lens capsule of an eye.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT The cutting instrument developed in accord¬ ance with the invention will now be described in con- junction with the drawings. Referring first to the
Figures 1 and 2, hollow needle 1 is formed with a shaft 2 of, for example, 23 gauge tubular stainless steel.
thereby defining an internal channel 3 throughout its entire length for the passage of irrigating and/or cooling fluid therethrough.
As shown in Figure 5, irrigating fluid 8 is used to pressurize and maintain the shape and particu¬ larly the depth of the anterior chamber 5 of the eye during the cutting operation in order to prevent the needle 1 from touching the endothelium 7 of.the ante¬ rior chamber 5. The fluid 8 flowing through the needle 1 is also used to cool the needle tip 10 so as to mini¬ mize trauma to the tissue surrounding the cut formed with the sharpened needle tip and to minimize heating of such tissue.
The needle 1 may be mounted upon a needle support 9 adapted for attachment to an ultrasonic source by, for example, screw threads 11. The needle support 9 may be formed with flat surfaces 13 for engagement with a tool for torquing the needle support
9 into a handpiece. The handpiece typically houses an ultrasonic generator for powering the needle. An important feature of needle 1 is the formation of bend 15 at a point approximately midway between needle tip
10 and the point of attachment 16 of needle shaft 2 to the needle support 9. Bend 15 may extend within an angle A from approximately 10 to 75 degrees, although a bend of 35 degrees has been found to be preferable.
The distal portion 17 of the needle 1 which extends from bend 15 to tip 10 is gently curved along surface 21 to match or complement the surface 19 of anterior lens capsule 20 as shown in Figure 5. The base portion 18 of needle 1 extends from bend 15 to attachment point 16 on needle support 9. It has been found that distal portion 17 may extend over a length of approximately one half inch and may be formed with a radius of curvature of approximately 1.0 to 1.5 inches to suitably conform to the surface profile 19 of the anterior capsule 20. In this manner, contact with the'
endothelium 7 is minimized so as to prevent injury thereto. The gentle curve defined by contoured surface 21 allows a more uniform cut to be made as compared with needles lacking bend 15 and lacking the gentle curve defined by surface 21.
As shown in greater detail in Figures 2, 3 and 4, the distal portion 17 of the hollow needle shaft 2 is formed with a turned or hooked tip 10 defining a saddle-shaped surface portion 23. Saddle 23 may be formed with a radius of curvature R of approximately 0.010 to 0.020 inch to form a hook-shaped tip 10 for hooking and removing the cut anterior capsule once the cutting procedure is finished. The hooked tip 10 is formed from the homogeneous tubular stock material of shaft 2 to facilitate manufacture. It has been found advantageous to round off tip sections 25 and 27 with chamfer radii of approximately 0.020 to 0.025 and 0.012 to 0.018 inch respectively. Flat surface portions 29 are formed between rounded tip sections 25 and 27 at the exit point of the channel 3 and may extend over a length of, for example, 0.010 to 0.040 inch.
As more clearly shown in Figure 4, a concave surface 31 is formed between the flat surface portions 29. Concave surface 31 is formed beneath or opposite saddle surface 23 and gradually diminishes in depth with respect to flat surfaces 29 as needle tip 10 tapers towards its apex 33. It has been found advanta¬ geous to turn or hook tip 10 through an angle B defined between flat surfaces 29 and cutting edges 35. A pre- ferred value for angle B is 60 degrees.
As shown in Figure 2, apex 33 is provided with a chamfer radius 34 ranging from, for example, 0.002 to 0.004 inch. As depicted in Figure 4, apex 33 is included within an angle C of approximately 10 degrees and is defined between lateral tip surfaces 37 to form a wedge-shaped tip. In addition, apex 33 is further included within an angle E of approximately 15°
so as to define a double tapered tip. Lateral tip surfaces 37 can be seen to taper inwardly from the sharp cutting edges 35 through angle C thereby defining edges 35 as chisel-shaped cutting edges. Tip apex 33 is further seen in Figure 3 wherein sharp linear cut¬ ting edges 35 are shown to taper toward tip 33 to form a compound or faceted wedge-shaped tip included within an angle D of approximately 40 degrees thereby forming compound angled surfaces along tip 10. Surfaces 29, 35 and 37 may be formed by grinding.
Edges 35 are designed to effect a clean, fast and uniform cut of the anterior capsule 20. When needle support 9 is attached to an ultrasonic vibrator and subjected to a power of, for example, 6 to 9 watts, the tip 10 will enable the anterior lens capsule 20 to be quickly and uniformly cut. Irrigation fluid 8 is delivered through channel 3 to prevent the tip 10 from heating and to maintain a deep and pressurized anterior chamber 5 during a surgical procedure. By keeping the cutting tip 10 cool, damage to the anterior chamber 5 of the eye is prevented. Most of the vibration along shaft 2 occurs at bend 15. Longitudinal movement of the distal end 17 with respect to the base portion 18 and the support 9 is reduced through the formation of bend angle A thereby allowing just enough vibration to transform the needle 1 into an extremely sharp knife which uniformly cuts the anterior capsule 20.
The gentle curve 21 formed on the distal portion 17 of the needle 1 is dimensioned to match the anterior surface 19 of the anterior lens capsule 20. This gentle curve facilitates smooth and continuous cutting of the anterior lens capsule 20 so as to expe¬ dite all cutting procedures.
Accordingly, the bend 15, gentle curved sec- tion 21 and the sharpended tip 10 provide easy handling of the needle 1 during surgery and help cut the ante¬ rior capsule quickly, easily, uniformly, and without
leaving anterior capsule tags. It has been found that actual cutting time may be limited to 20 seconds. The bent or hooked tip 10 may then be used to hook, pull and remove the cut anterior capsule 20 out of the eye
5 after the ultrasonic cutting power has been turned off.
Obviously, numerous modifications and varia¬ tions of the present invention are possible in light of the above teachings. It is therefore to be understood that within the scope of the appended claims, the
10 invention may be practiced otherwise than as specifi¬ cally described herein.
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