RU2123316C1 - Method of evacuating lens liquor during extracapsular extraction of cataract - Google Patents

Abstract

FIELD: ophthalmology. SUBSTANCE: invention can be used when extracting cataract with controlled opening of anterior capsule. Lens liquor is evacuated during extracapsular extraction by aspiration-irrigation technique. Evacuation begins with introduction of viscose preparation, for instance, visitile, into central zone of capsule sac. Mixture of lens liquor with irrigation fluid is aspirated by the aid of aspiration cannula. For that, working end of cannula is consecutively and equatorially displaced from border of cut of anterior capsule. If cannula is clogged, it must be removed from the eye cavity, emptied, and refilled with irrigation fluid. Thereafter, cannula is returned into the same place, and, once fluid is fed, aspiration is continued. EFFECT: facilitated removal of eye liquor. 2 cl, 2 ex

Description

 The present invention relates to medicine, namely to ophthalmology, and can be used in the operation of extracapsular cataract extraction with dosed opening of the anterior capsule.

 A known method of evacuation of the lens masses through massage of the cornea. The surgical wound was opened with a spatula placed on the scleral lip; it was easily pressed on it. Another spatula produced light stroking of the cornea in the direction from bottom to top. The lens masses glided along the instrument introduced into the wound and went outside. The presented technique could not ensure the complete evacuation of the lens masses from the equatorial zone. Often, the lens masses left behind the iris quickly swelled and filled the pupil area, which required repeated surgical interventions (Fedorov S.N., Egorova E.V. Errors and complications when implanting an artificial lens. -M., 1992, p. 124-125) .

 As a prototype, a modern technique for the evacuation of residual lens masses was taken, based on their thorough suction while maintaining the depth of the anterior chamber using irrigation fluid (a viscometer has recently been used for this purpose). Aspiration was preceded by the stage of elimination of the nucleus. The nucleus was liberated from the lens masses by the flow of irrigation fluid and discharged through the surgical incision. Aspiration was carried out using an aspiration cannula. The tip of the cannula was brought to the equator of the capsule bag, the lens fibers were carefully “sucked in” and, without moving the syringe plunger anymore, the cannula slid along the capsule towards the center of the pupil. In this case, a layer of detachable and displaced into the center of the optical zone of the lens fibers was visible. Trapped fibers were aspirated from the central zone of the pupil, monitoring the state of the aspiration opening of the cannula. Thus, the entire equatorial arch was cleaned (Fedorov S.N., Egorova E.V. Errors and complications during implantation of an artificial lens. -M., 1992, p.125).

 The disadvantages of the method.

 1. Since, during the aspiration, the irrigation liquid is absorbed along with the lens masses and even more actively (due to greater fluidity), therefore, it is necessary to constantly replenish the capsule bag so that it does not "fall off" and there is the possibility of aspirating the masses from the equatorial zone.

 2. With a bag that has fallen down, there is a risk of suction of the cannula of the posterior lens capsule, its rupture and prolapse of the vitreous.

 3. For the same reason, it is possible to suck the cannula of the anterior capsule, which can lead to rupture of the fibers of the zinc ligament with all the ensuing consequences.

 4. Forced continuous replenishment of the anterior chamber with irrigation fluid leads to leaching of the corneal epithelium (irrigation injury).

 5. Pressure drops contribute to pronounced corneal edema after surgery.

 6. When working with irrigation fluid in a capsule bag, the surgeon is forced to force the aspiration process (due to the rapid "collapse" of the bag), which often leads to poor-quality aspiration.

 The objective of the invention is to provide a more reliable, less traumatic and better quality method of evacuation of the lens masses.

 The technical result obtained by solving this problem is to reduce surgical and postoperative complications.

 The specified technical result can be obtained if in the method of evacuating the lens masses during extracapsular cataract extraction by aspiration-irrigation technique, the extraction should be carried out endocapsularly, and the evacuation step should be started by introducing a viscous product into the central region of the capsular bag, for example, visiting it, and then using an aspiration cannula mixture aspiration: lens masses - irrigation liquid (irrigation liquid - saline solution - is present in the capsule bag due to its and use at the previous stage of the operation: removal of the nucleus), for this it is necessary, starting from the edge of the incision of the anterior capsule, to sequentially move the working end of the cannula around the equator, and if the cannula is blocked, it must be removed from the eye cavity, remove the contents, fill the cannula with a portion of irrigation fluid , then return to its original place and, after supplying the fluid, continue aspiration.

Among the essential features characterizing the method, the distinguishing ones are:
extraction is carried out endocapsularly;
evacuation begins with the introduction of a viscometer into the central region of the capsule bag, for example, a visit;
then, using an aspiration cannula, the mixture is aspirated: lens masses-irrigation fluid, starting from the edge of the incision of the anterior capsule, successively move the working end of the cannula around the equator;
if the cannula is blocked, it is removed from the eye cavity, the contents are removed, filled with a portion of irrigation fluid, then returned to its original place and after aspiration of the fluid, aspiration is continued.

 Between the totality of essential features and the achieved technical result, there is a causal relationship.

 Endocapsular extraction technology means that the lens contents are evacuated with the lens bag almost completely preserved. It is this condition that is necessary so that it is possible to bring the viscometer into the center of the capsule bag and hold it there during aspiration.

 The viscometer introduced into the central region of the capsule bag reliably inflates the bag, providing maximum front and back capsule separation from each other (moreover, during the entire aspiration stage), which reduces the possibility of capsule damage by suctioning the cannula, and also provides the surgeon with good access to the equatorial zones bag.

 The surgeon conducts the stage of evacuation of the lens masses in the optimal mode, without accelerating aspiration, because there is no danger of the capsule bag falling off, as was the case with the prototype, and this guarantees the quality of aspiration. A visit introduced into the central zone shifts the residual crystalline masses and irrigation fluid - saline (saline is present in the capsule bag, as it was introduced into the capsule bag at the previous stage of the operation: during core evacuation) to the equator. Thus, the equatorial zone of the capsular bag appears to be filled with a mixture consisting of lens masses and physiological saline and having a greater fluidity than visited. It is this mixture that first rushes into the opening of the suction cannula, and the visit remains in the center, continuing to stably maintain the volume of the capsule bag.

 By moving the working end of the cannula sequentially around the equator, starting at the edge of the incision of the anterior capsule, the fastest and at the same time high-quality method of evacuating the lens masses is achieved (in this case, the transparent cannula allows you to control the process). This is explained by the fact that initially the anatomical lens has a layered structure of fibers and, having sucked the fibers at the edge of the incision, and then continuing the sequential movement of the working end of the cannula along the equator, it is possible in one pass, without interrupting movement, to completely remove the equatorially located layer of lens masses, t. to. traction forces are included in the work (each subsequent portion of fibers is “pulled” by the previous one). This is only feasible in the presence of confined space. The endocapsular extraction method, which allows to preserve the capsule bag as much as possible, provides this condition. With this technology, handling time in the capsule bag is minimized.

 If the cannula is blocked, it is removed from the eye cavity, the contents are removed, the cannula is filled with a portion of the irrigation liquid and returned to the place where the aspiration was interrupted, and after the saline solution is supplied (this will give the crystalline masses greater mobility, fluidity), the aspiration is continued.

 Thus, during an extracapsular cataract extraction operation, if the extraction itself is performed endocapsularly, and the stage of lens mass evacuation begins with the introduction of a viscous product into the central zone of the capsular bag, then aspirate the mixture: lens masses - irrigation fluid, starting from the edge of the anterior capsule incision and further sequentially moving the working end of the cannula around the equator, in case of blocking the cannula it is necessary to bring it out, remove the contents, fill with a portion of the irrigation liquid and return to its original place, and introducing the liquid to continue aspiration, then only with this combination of actions and the sequence of their execution described can it be possible to increase reliability, reduce trauma and improve the quality of the method of evacuation of the lens masses, which in turn will reduce surgical and postoperative complications the entire operation of extracapsular cataract extraction.

 Therefore, between the set of essential features and the achieved technical result, there is a causal relationship.

 The method is as follows.

 All the main stages of the operation of extracapsular cataract extraction is carried out in the traditional way. At the same time, the volume of the anterior chamber is supported by a viscometer visited, and the anterior capsule is opened with a metered horizontal incision made in the upper pre-equatorial zone (such an incision in the anterior capsule allows endocapsular extraction). After that, the nucleus is released from the lens masses by the flow of irrigation fluid - saline, and the nucleus is removed through the surgical incision. Then, a visitor is introduced into the central zone of the capsule bag using a syringe, in the amount of 1/3 - 2/3 of the volume of the capsule bag. Residual crystalline masses and saline are displaced to the periphery and, using the aspiration cannula, which is brought to the edge of the incision of the anterior capsule at the 1st hour, begin to aspirate the masses clockwise. In this case, a sequential movement of the working end of the cannula is carried out around the equator. If during aspiration a significant resistance is detected in the cannula, and visual inspection indicates that the visit has been sucked in (visual inspection is ensured by a transparent cannula), then the cannula is removed from the eye cavity and released from the contents, then to the area where the aspiration was interrupted, with Using the same aspiration cannula, 1-2 drops of saline are injected and aspiration is continued, moving the cannula to the opposite edge of the incision. End the stage of evacuation of the lens masses in the upper equatorial zone at 12 o’clock.

 With the help of a micro-hook and a “grip”, the iris is successively pushed back, making sure that the lens masses are completely evacuated. If necessary, you can rinse the capsule bag with saline solution, this provides a full guarantee of the purity of the capsule bag from the lens fibers. It is also possible, having discovered the remaining masses, to introduce a drop of saline into this zone and then aspirate the mixture. The same technique can be used if it is necessary to remove masses, blood clots from the anterior segment of the eye, etc. A rear-chamber lens is implanted in the prepared capsule bag, the front capsule is removed and visited, the front chamber is restored with physiological saline, and a continuous suture, nylon 10-0, is applied to the corneal incision.

 Example 1. Patient K., 68 years old, medical history N 78719. He was admitted to the center with a diagnosis of immature cataract in both eyes.

VOD = 0.05 Sph - 4.0D = 0.6
VOS = 0.05 Sph - 3.0D = 0.3
An operation was performed on 02.02.95 on the left eye — extracapsular cataract extraction with implantation of an IOL of the T-26 model. Evacuation of the lens masses was carried out according to the claimed method with the introduction of visited in the Central region of the capsule bag.

The day after surgery:
OD - calm
Tyndall phenomenon 0 tbsp.

VOS = 0.15 Sph + 1.5D cyl - 6.0D ax 75 = 0.55
Treatment at the center:
drops: chloramphenicol 0.25 4 times a day, dexamethasone 4 times a day
injection: p / b dexazone 0.5 N 1
Discharged home 02/04/95

 Conclusion: instead of the usual 3-4 days, the course of treatment due to the absence of complications was 1 day, the number of medicines was reduced by 2 times.

At the control turnout after 4 months:
VOS = 0.7 Sph - 2.5 D = 1.0
Example 2. Patient Z., 65 years old, medical history N 106950. Received December 2, 94, with a diagnosis of complicated cataract of the right eye.

VOD = 0.01 n / k
VOS = 0.02 Sph - 4.0 D = 0.8
An operation was performed on 05.12.94 on the right eye - extracapsular cataract extraction with implantation of a lens of the T-28 model. Evacuation of the lens masses was carried out according to the claimed method with the introduction of visited in the Central region of the capsule bag. The day after surgery:
OD - calm
Tyndall phenomenon 0 tbsp.

Treatment at the center:
drops: chloramphenicol 0.25 4 times a day, dexamethasone 4 times a day
injection: p / b dexazone 0.5 N 1
Discharged home on the second day after surgery:
VOD = 0.1 Sph + 1.5 D cyl - 5.0 D ax 20 = 0.8
Conclusion: instead of the usual 3-4 days, the course of treatment due to the absence of complications was 1 day, the number of medicines was halved.

At the control turnout after 4 months:
VOD = 0.8 Sph - 1.5 D = 1.0
Clinical examples have confirmed that there are no surgical and postoperative complications that usually occur with the traditional method of evacuating the lens masses.

Claims (2)

 1. The method of evacuation of the lens masses during extracapsular cataract extraction by aspiration-irrigation technique, characterized in that the extraction is carried out endocapsularly through a horizontal incision in the upper pre-equatorial zone, and the evacuation begins with the introduction of a viscous preparation into the central region of the capsular bag, and then using an aspiration cannula mixture aspiration: lens masses - irrigation fluid, starting from the edge of the incision of the anterior capsule, successively moving the working end cannulas around the equator, and in the case of blocking the cannula, it is removed from the cavity, the contents are removed, filled with a portion of irrigation fluid and returned to its original place, and after the fluid has been supplied, aspiration is continued.  2. The method according to claim 1, characterized in that the visited product is used as a viscous preparation.