RU2505812C1 - Method for determining nuclear lens density - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: patient's venous blood serum is analysed for vascular endothelial growth factor (VEGF). If the derived values in the patients suffering type 1 diabetes mellitus is 141-187 pg/ml, degree 1 and very low nuclear lens density are diagnosed; the value of 188-234 pg/ml enables diagnosing degree 2 and low nuclear lens density; and the value of 235-280 pg/ml shows degree 3 and moderate nuclear lens density. In the patients suffering type 2 diabetes mellitus, the VEGF value of 281-330 pg/ml provides diagnosing degree 2 and low nuclear lens density; the derived value of 331-382 pg/ml shows degree 3 and moderate nuclear lens density; if the value is 383-432 pg/ml, degree 4 and high nuclear lens density are diagnosed; the respective value of 433-478 pg/ml provides diagnosing degree 5 and very high nuclear lens density. In the patients diagnosed with no diabetes mellitus, the VEGF value of 290-336 pg/ml ensures diagnosing degree 2 and low nuclear lens density; the value of 337-379 pg/ml provides degree 3 and moderate nuclear lens density; if the value is 380-426 pg/ml, degree 4 and high nuclear lens density are diagnosed; the derived value of 427-465 pg/ml provides diagnosing degree 5 and very high nuclear lens density.EFFECT: invention provides performing a phacoemulsification using the sparing ultrasound parameters that minimises its impact on the eyeball tissues and reduces a risk of the related postoperative complications in the patients suffering diabetes mellitus.2 tbl, 2 ex

Description

The present invention relates to medicine, and specifically to ophthalmology, and can be used to select the most optimal method of cataract surgery. The developed method for accurate preoperative determination of the lens core density allows phacoemulsification using gentle ultrasound parameters, which minimizes its effect on the eyeball tissue and reduces the risk of complications associated with them in the postoperative period in patients with diabetes mellitus and obtain higher functional results in the postoperative period . In order to optimize surgical treatment and select a method for adequate fragmentation of the lens nucleus, it is advisable to assess the density of the lens nucleus.

The only effective treatment for cataracts is surgical. The main method of surgical treatment of cataracts today is phacoemulsification with implantation of an intraocular lens, but its implementation in patients with diabetes is associated with an increased risk of complications and ineffective conservative treatment of multiple complications in the intra- and postoperative periods, which makes it relevant to optimize cataract phacoemulsification in patients with sugar diabetes. The use of overestimated ultrasound parameters in these patients would not only be unnecessary, but also the potentially dangerous effect of ultrasound on the structures of the eye, including the cornea, choroid and retina. This is due to concomitant retinal pathology associated with diabetes. The use of predominantly torsion ultrasound using OZil technology on the "Infiniti" ("Alcon") surgical system for phacoemulsification of cataracts allows to reduce the time of ultrasound exposure to eye tissue. This reduces the intensity of postoperative corneal edema and, accordingly, allows for a shorter time to achieve possible visual acuity in the postoperative period.

There is a method of intraoperative determination of the density of the lens nucleus, which consists in determining and recording lens peaks using ultrasound examination of the eye, characterized in that the height is initially estimated and the number of additional lens peaks is determined, and then, during the operation, the instrument containing the fission surface is pressed on the anterior cortical layers of the natural lens until it begins to move on the ligament, while if the number of divisions by p the surface of the instrument, immersed in the anterior cortical layers, is more than 4, the height of the additional crystalline peak is less than half the height of the main anterior crystalline peak, the number of additional crystalline peaks is less than 4, then a conclusion is made about the low density of the crystalline lens (Nazarenko GB Interdisciplinary scientific and technical complex "Eye Microsurgery").

However, this method is invasive intraoperative and is not accurate enough. It is accompanied by a great risk, which can lead to complications during surgery. When pressing on the lens, especially if there is a defect in the ligamentous apparatus of the lens, damage to the ligamentous apparatus, up to the luxation of the lens in the vitreous, is possible. Mechanical trauma to the corneal endothelium due to additional intraocular manipulations is also possible.

A known method of determining the density of the nucleus of the lens using ultrasound examination of the media of the eye (Friedman F.E., Gundorova R.A., Kodzov MB Ultrasound in ophthalmology. - M .: Medicine, 1989, 256 S.).

However, the real biological environment (in this case, the cataract lens) is noticeably heterogeneous and has resonant, elastic inertia and other properties, which greatly distorts the reflected echo signal. This fact does not allow to accurately interpret only the cataract lens according to its physical density according to ultrasound echography.

To date, the most widely used method for determining the density of the lens is Emery J. and Little J. (1979), based on the colorimetric characteristics of the lens.

However, this method is subjective and not accurate enough.

We first developed a method for accurate preoperative determination of the density of the lens nucleus in terms of venous blood.

A survey of 220 cataract patients (220 eyes) was conducted: the main group -1 20 patients with diabetes mellitus (120 eyes), of which 11 patients with diabetic cataract (11 eyes) - 1 group, 109 - with age-related cataract (109 eyes) on the background of sugar diabetes - group 2, the control group - 100 patients with age-related cataract, not suffering from diabetes (100 patients). All patients underwent standard ophthalmologic examination. In the blood serum of all patients, a study was made of the content of vascular endothelial growth factor (VEGF). It is a stimulator of the migration of endothelial cells from the deep layers of the retina into the vitreous body, activation of angiogenesis, proliferation, causing an increase in vascular permeability, endothelial cell hypertrophy, which leads to vasoconstriction, decreased blood flow and worsened hypoxia. The study was carried out in blood obtained from a cubital vein. Blood sampling was performed in patients on an empty stomach in the morning. For standardization, Vacuette blood collection tubes were used. Test tubes with a coagulation activator (silica) and a separation gel, which forms a barrier between serum and coagulated blood after centrifugation, were used to study the VEGF in blood serum.

Microsurgical treatment of patients with cataracts was carried out: by the method of ultrasonic microcoaxial phacoemulsification. Ultrasonic microcoaxial phacoemulsification was carried out using the surgical system "Infiniti" ("Alcon") according to standard methods. During the operations, the equivalent ultrasound time spent on crushing the lens was recorded. Cataract density was evaluated according to the classification of Emery J. and Little J. (1979), based on the colorimetric characteristics of the lens of the eye (5 gradations of density: 1 degree - the lens is light gray, the reflex is visible from the fundus, the fundus is ophthalmoscopic, the soft nucleus is low density, 2 - the lens is light yellow, the reflex from the fundus is visible, the fundus is ophthalmoscopically, soft core, low density, 3 - the lens is intense yellow with a brownish tint, the fundus is not ophthalmoscopic, moderate o dense nucleus, medium density, 4 — brown lens, reflex from the fundus not detectable, fundus not ophthalmoscopic, dense nucleus, high degree, 5 — lens dark brown, reflex from the fundus not visible, fundus not ophthalmoscopic , solid core, very high degree.

Table 1. The average density of the lens nucleus on a scale of Emery J. and Little J. (1979) (points) The density of the lens nucleus in groups Age up to 20 years 21-40 years old 41-50 years old 51-60 years old 61-70 years old 71-80 years old 81-90 years old Group 1 (patients with type 1 diabetes) one 2 3 - - - - Group 2 (patients with type 2 diabetes) - - 2 3 four 5 - Control group - - - 2 3 four 5

In the early postoperative period, the equivalent time of ultrasound exposure, its power, and the state of the cornea in various forms of cataract were analyzed. All patients underwent morphological, immunocytochemical and immunohistochemical studies of the capsule and lens substance of the human eye using standard staining techniques to determine the expression of α- (α-A and α-B), β-, γ-crystallins. The dependence of the lens density on age (the density of the lens increases with age) and on the presence of diabetes mellitus (in the presence of diabetes mellitus, the density of the lens is less than in patients with age-related cataracts in the same age group).

The content of growth factor in blood serum in patients with and without diabetes, depending on the degree of cataract density, is presented in the table.

Table 2. The content of growth factor in blood serum in patients with and without diabetes, depending on the degree of cataract density Group of examined power Density FRES pg / ml Norm Up to 140 Group 1 (patients with type 1 diabetes) (up to 20 years) one very low 141-187 Group 1 (patients with type 1 diabetes) (21-40 years old) 2 low 188-234 Group 1 (patients with type 1 diabetes) (41-50 years old) 3 moderate 235-280 Group 2 (patients with type 2 diabetes) (41-50 years) 2 low 281-330 Group 2 (patients with type 2 diabetes) 3 moderate 331-382

(51-60 years old) Group 2 (patients with type 2 diabetes) (61-70 years old) four high 383-432 Group 2 (patients with type 2 diabetes) (71-80 years old) 5 very high 433-478 Control group (patients without diabetes) (51-60 years) 2 low 290-336 The control group (patients without diabetes) (61-70 years) 3 moderate 337-379 Control group (patients without diabetes) (71-80 years) four high 380-426 The control group (patients without diabetes) (81-90 years) 5 very high 427-465

As can be seen from the results of a study of the content of vascular endothelial growth factor in patients with cataracts with diabetes and without diabetes, the basis for the violation in the connective tissue and vascular components of the eye membrane are significant changes in the activity of neovascularization and proliferation. All examined patients have a significant increase in the serum of angiogenesis factor as VEGF. A correlation was found between the content of vascular endothelial growth factor in serum and the density of the lens nucleus in patients with cataracts with and without diabetes. Apparently, cataract formation in patients with and without diabetes is associated with the development of metabolic processes leading to proliferation of endothelial cells, the development of connective tissue structures, and excessive growth of fibroblasts.

Thus, in patients suffering from type 1 diabetes, with a value in the blood serum of VEGF - 141-187 pg / ml corresponds to 1 degree and a very low density of the lens nucleus. In patients suffering from type 1 diabetes, with a value in the blood serum of FRES of 188-234 pg / ml corresponds to 2 degrees and a low density of the lens nucleus. In patients suffering from type 1 diabetes, with a value in the blood serum of VEGF - 235-280 pg / ml corresponds to 3 degrees and moderate density of the lens nucleus. In patients suffering from type 2 diabetes, with a value in the blood serum of VEGF - 281-330 pg / ml corresponds to 2 degrees and a low density of the lens nucleus. In patients suffering from type 2 diabetes, with a value in the blood serum of FRES of 331-382 pg / ml corresponds to 3 degrees and a moderate density of the lens nucleus. In patients suffering from type 2 diabetes, with a value in the blood serum of VEGF - 383-432-189 pg / ml corresponds to 4 degrees and a high density of the lens nucleus. In patients suffering from type 2 diabetes, with a value in the blood serum of FRES of 433-478 pg / ml corresponds to grade 5 and a very high density of the lens nucleus. In patients of the control group not suffering from diabetes mellitus, when the value in the blood serum of the FRES - 290-336 pg / ml corresponds to 2 degrees and a low density of the lens nucleus. In patients of the control group not suffering from diabetes mellitus, the content in the blood serum of VEGF - 337-379 pg / ml corresponds to 3 degrees and moderate density of the lens nucleus. In patients of the control group not suffering from diabetes mellitus, with a value in the blood serum of the FRES of 380-426 pg / ml corresponds to 4 degrees and a high density of the lens nucleus. In patients of the control group, not suffering from diabetes mellitus, with a value in the blood serum of the FRES of 427-465 pg / ml corresponds to grade 5 and a very high density of the lens nucleus.

At 1-2 degrees and very low and low densities, the lens nuclei are most effective in terms of reducing the time of exposure to ultrasound and its power (in total, the “dose” of ultrasound), the Chip and Flip technique, the carousel, and the like. With 3 degrees and moderate density of the lens nucleus - “Phaco-Chop”, “Stop and Spore” and the like. With 4 degrees and high density of the lens nucleus - "Divide and Conquer". At 5 degrees and a very high density of the lens, it is recommended to remove cataract by extracapsular extraction. Phacoemulsification in this case is not desirable due to the possible trauma to all structures of the eye with high power ultrasound and its long duration of use during surgery. The lower density of the lens nucleus in patients with cataracts associated with diabetes mellitus associated with the crystalline composition of these patients allowed phacoemulsification using lower energy parameters, as a rule, using mainly torsion ultrasound. Taking these features into account allowed phacoemulsification using sparing ultrasound parameters, which made it possible to minimize its effect on the eyeball tissue and reduce the risk of related complications in the postoperative period in patients with diabetes mellitus and to obtain higher functional results.

Example 1. In a patient A., 72 years old, not suffering from diabetes mellitus, when examining serum of venous blood, the value of VEGF was 386 pg / ml. This level of VEGF corresponds to 4 degrees and a high density of the lens nucleus. Given the fairly high degree of density of the crystalline lens nucleus, the method of nuclear fragmentation “Divide and Conquer” was chosen. For this clinical case, this is the most effective and least traumatic method for all eye structures. During the operation, the core of the lens was really quite solid. The degree and density of the lens set by us in terms of the amount in the venous blood of the FRES coincides with the degree and density of the lens according to the method of Emery J. and Little J. Phacoemulsification was performed without complications and a high functional result was achieved already in the early postoperative period.

Example 2. In a patient A., 50 years old, suffering from type 2 diabetes, when examining the serum of venous blood, the value of VEGF was 342 pg / ml. This level of VEGF corresponds to 2 degrees of density of the lens nucleus. The degree and density of the lens set by us in terms of quantity in the venous blood of the FRES coincides with the degree and density of the lens according to the method of Emery J. and Little J. Given the low degree of density, the soft core of the lens, the core carousel fragmentation technique was chosen. For this clinical case, this is the most appropriate method. Phacoemulsification was carried out without complications and already in the early postoperative period a high functional result was achieved.

Thus, a method for determining the density of the lens nucleus consists in a preoperative study of the level of vascular endothelial growth factor in the serum of a patient’s venous blood. This method is accurate enough to determine the degree of density of the lens nucleus in patients with diabetes and without it. It allows you to choose the most optimal method of crushing the lens nucleus. The developed method allows phacoemulsification using sparing ultrasound parameters, which minimizes its effect on the eyeball tissue and reduces the risk of complications associated with them in the postoperative period in patients with diabetes mellitus and obtain higher functional results in the postoperative period.

Claims (1)

A method for preoperative determination of the density of the lens nucleus, which consists in determining the vascular endothelial growth factor in the patient’s serum of venous blood and, in patients with type 1 diabetes mellitus, having a value of 141-187 pg / ml, grade 1 and a very low density of the nucleus are diagnosed lens, with a value of 188-234 pg / ml, grade 2 and a low density of the lens core are diagnosed, with a value of 235-280 pg / ml, grade 3 and a moderate density of the lens nucleus are diagnosed, in patients with type 2 diabetes, with a value of 281- 330 pg / ml diagnose grade 2 and a low density of the lens nucleus, with a value of 331-382 pg / ml diagnose grade 3 and a moderate density of the lens nucleus, with a value of 383-432 pg / ml diagnose grade 4 and a high density of the lens nucleus, a value of 433-478 pg / ml is diagnosed with grade 5 and a very high density of the lens nucleus, in patients without diabetes mellitus, with a value of 290-336 pg / ml is diagnosed with degree 2 and a low density of the lens nucleus, with a value of 337-379 PG / ml diagnose grade 3 and moderate density of the lens nucleus, with a value of 380-426 pg / ml, grade 4 and a high density of the lens nucleus are diagnosed, with a value of 427-465 pg / ml, grade 5 and a very high density of the lens nucleus are diagnosed.