RU2338193C1 - Prediction method of premature retinopathy development - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, in particular to ophthalmology and can be used for early diagnostics of premature retinopathy. Newborns born with body weight less than 1500 g and gestation term less than 32 weeks are tested for haemoglobin and erythrocyte content in 1 month after birth. If haemoglobin content is 110 g/l and less, and erythrocyte content is less than 4.0×10¹² g/l, high disease factor is predicted.

EFFECT: higher accuracy of prediction and early detection of children with high premature retinopathy factor.

2 tbl, 2 ex

Description

The invention relates to medicine, in particular to ophthalmology, and can be used for early diagnosis of retinopathy of premature premature (PH).

A known method for predicting the development of retinopathy of prematurity, which consists in an immunological study of blood serum and the determination of antibodies to the retinal S antigen. However, the method is difficult to set up and allows you to make a diagnosis at the initial changes in the retina (Katargina LA, Slepova OS, Skripets PP and others // RF Patent 2216740 from 2003.11.20. A method for predicting the development of retinopathy of premature infants )

A known method for predicting pH, which consists in the fact that all newborns with gestational age less than 32 weeks and body weight less than 1500 g are considered to be at risk (Sidorenko E.I. Risk factors and prediction of retinopathy of premature infants // Ros. Honey. 2000, N 5, pp. 30-33). This method is taken as a prototype. However, it is practically impossible to cover all preterm infants with a qualified ophthalmological examination, the method is not accurate enough, since only 17.0-30.0% of this number of premature infants develop pH (Saidasheva E.I. Risk factors, prognosis, early diagnosis and prevention of retinopathy premature // Abstract of the diss. candidate of medical sciences, M., 1998).

The objective of the invention was the development of a method that provides high accuracy allocation of risk groups for the development of pH.

The technical result when using the invention is to increase the accuracy of the formation of a risk group for the development of pH.

The specified technical result is achieved by the fact that the method for predicting the development of retinopathy of premature infants, including the allocation of a risk group from newborns with gestational age less than 32 weeks and body weight at birth less than 1500 g, additionally determine the content of hemoglobin and red blood cells 1 month after birth and with the content of hemoglobin 110 g / l or less, and erythrocytes less than 4.0 × 10 ¹² g / l predict a high probability of disease.

The proposed method is as follows: in premature infants with a birth weight of less than 1500 g and a gestation period of less than 32 weeks, the content of hemoglobin and red blood cells is determined 1 month after birth. To do this, children on an empty stomach produce blood from a finger. With a hemoglobin content of 110 g / l or less, and red blood cells less than 4.0 × 10 ¹² g / l, a high probability of pH disease is determined and a weekly ophthalmological examination is performed. At a hemoglobin level of more than 110 g / l, and erythrocytes 4.0 × 10 ¹² g / l or more, an ophthalmological examination is performed once every 2-4 weeks.

The advantage of the proposed method is to reduce the risk group for the development of pH, in addition, there is no need for a weekly examination of all premature babies with gestational age less than 32 weeks and weighing less than 1500 g.

The developed method was tested in 54 children with gestational age less than 32 weeks and body weight at birth less than 1500 g. Of these, 32 children revealed various stages of pH. In the group of children with pH, the level of hemoglobin 1 month after birth ranged from 76 to 109 g / l, and the level of red blood cells from 2.7 × 10 ¹² to 3.9 × 10 ¹² g / l (Table 1). In 22 children, pH was not detected, the hemoglobin level in this group 1 month after birth ranged from 114 to 166 g / l, and the level of red blood cells ranged from 4.0 × 10 ¹² to 5.5 × 10 ¹² g / l (table. 2). The difference in hemoglobin level and erythrocyte content 1 month after birth between these groups is statistically significant (P <0.005).

The proposed method is illustrated by the following clinical examples.

Example 1. Baby G. was born at 30 weeks with a body weight of 1406. Diagnosis: pH III Art. The level of hemoglobin 1 month after birth was 82 g / l, and erythrocytes 2.8 × 10 ¹² g / l. In child G., at 9 weeks of life, pH is predicted before the development of clinical signs of the disease. The child was referred for examination at the Ufa Research Institute of Eye Diseases, where at the age of 10 weeks he was diagnosed with stage 3 PH.

Example 2. Baby X. was born at 30 weeks with a body weight of 1446 g. The hemoglobin level 1 month after birth was 116 g / l, and the content of red blood cells was 4.0 × 10 ¹² g / l. At the age of 11 weeks, she was examined at the Ufa Research Institute of Eye Diseases. Diagnosed with mild hyperopia.

Thus, predicting the development of retinopathy of premature infants by the proposed method can reduce the number of severe stages of pH due to the early detection and preventive treatment of children prone to the development of the disease.

Table 1
The content of red blood cells and hemoglobin in children with retinopathy of premature infants No. Last name and first name of the child Birth weight (g) Gestation period (weeks) The content of red blood cells. (Er.), Hemoglobin (HB) at birth The content of red blood cells. (Er.), Hemoglobin (HB) 1 month after birth one Gilvanov Damir 1406 thirty Er. 4.0 × 10 ¹² g / l; HB 112 g / l Er. 2.8 × 10 ¹² g / l; HB 82 g / l 2 Gilvanov Danil 1414 thirty Er. 4.1 × 10 ¹² g / l; HB 114 g / l Er. 2.7 × 10 ¹² g / l; HB 76 g / l 3 Chigvintseva Ekaterina 1012 26-27 Er. 3.7 x 10 ¹² g / l; HB 164 g / l Er. 3.0 × 10 ¹² g / l; HB 90 g / l four Matveev Anatoly 1428 31 Er. 6.2 x 10 ¹² g / l; HB 208 g / l Er. 3.6 × 10 ¹² g / l; HB 100 g / l 5 Belova Elizabeth 1472 31 Er. 4.5 × 10 ¹² g / l; HB 129 g / l Er. 3.9 × 10 ¹² g / l; HB 101 g / l 6 Belova Ekaterina 1268 31 Er. 4.5 x 10 ^l2 g / l; HB 129 t / l Er. 3.9 × 10 ¹² g / l; HB 101 g / l 7 Monin Nikita 950 26 Er. 4.6 × 10 ¹² g / l; HB 146 g / l Er. 3.4 x 10 ¹² g / l; HB 102 g / l 8 Nurlygayanova Renata 1415 31 Er. 4.6 × 10 ¹² g / l; HB 144 g / l Er. 3.4 x 10 ¹² g / l; HB 98 g / l 9 Abdullaeva Sabina 1495 31 Er. 5.0 × 10 ¹² g / l; HB 142 g / l Er. 2.7 × 10 ¹² g / l; HB 109 g / l 10 Shakirova Azalea 1403 thirty Er. 3.6 × 10 ¹² g / l; HB 102 g / l Er. 2.9 × 10 ¹² g / l; HB 101 g / l eleven Nikiforov Eugene 1441 28 Er. 4.4 x 10 ¹² g / l; HB 114 g / l Er. 2.8 × 10 ¹² g / l; HB 101 g / l 12 Kilkeeva Polina 1460 30-31 Er. 3.2 x 10 ¹² g / l; HB 99 g / l Er. 3.0 × 10 ¹² g / l; HB 102 g / l 13 Lutfullin Insaf 1339 30-31 Er. 5.2 × 10 ¹² g / l; HB 166 g / l Er. 3.9 × 10 ¹² g / l; HB 107 g / l fourteen Galiullina Milena 798 25 Er. 4.1 × 10 ¹² g / l; HB 140 g / l Er. 3.0 x 10 ^l2 g / l; HB 93 g / l fifteen Vatlina Elena 1480 31 Er. 4.3 × 10 ¹² g / l; HB 124 g / l Er. 2.9 × 10 ¹² g / l; HB 102 g / l 16 Drozdov Alexander 1490 28 Er. 4.7 x 10 ¹² g / l; HB 142 g / l Er. 3.1 x 10 ¹² g / l; HB 102 g / l 17 Yafyasova Azalea 1420 31 Er. 4.0 × 10 ¹² g / l; HB 118 g / l Er. 3.6 × 10 ¹² g / l; HB 92 g / l eighteen Kuznetsova Svetlana 1424 31 Er. 4.5 × 10 ¹² g / l; HB 134 g / l Er. 3.5 × 10 ¹² g / l; HB 100 g / l 19 Farzutdinova Aida 1443 thirty Er. 4.2 x 1012 g / l; HB 121 g / l Er. 2.7 × 10 ¹² g / l; HB 81 g / l

table 2
The content of red blood cells and hemoglobin in children without retinopathy of premature No. Last name and first name of the child Birth weight (g) Gestation period (weeks) The content of red blood cells. (Er.), Hemoglobin (HB) at birth The content of red blood cells. (Er.), Hemoglobin (HB) 1 month after birth one Shamshurina Irina 1383 30-31 Er. 3.9 × 10 ¹² g / l; HB 112 g / l Er. 4.0 × 10 ¹² g / l; HB 115 g / l 2. Andreeva Ulyana 1422 29-30 Er. 4.4 x 10 ¹² g / l; HB 135 g / l Er. 4.2 x 10 ¹² g / l; HB 121 g / l 3 Nikonov Maxim 1330 30-31 Er. 4.9 × 10 ¹² g / l; HB 143 g / l Er. 4.3 × 10 ¹² g / l; HB 121 g / l four Karelian Maxim 1400 31 Er. 5.9 × 10 ¹² g / l; HB 185 g / l Er. 5.5 × 10 ¹² g / l; HB 166 g / l 5 Galimullin Dinar 1352 30-31 Er. 5.6 × l0 ¹² g / l; HB 179 g / l Er. 4.7 x 10 ¹² g / l; HB 139 g / l 6 Khammatov Ruslan 1446 thirty Er. 4.8 × 10 ¹² g / l; HB 146 g / l Er. 4.0 × 10 ¹² g / l; HB 116 g / l 7 Bakirova Anastasia 1130 29-30 Er. 5.8 × 10 ¹² g / l; HB 179 g / l Er. 4.9 × 10 ^{12 g} / l; HB 142 g / l 8 Aflyatunov Bulat 1473 29-30 Er. 5.6 × 10 ¹² g / l; HB 180 g / l Er. 4.6 × 10 ¹² g / l; HB 150 g / l 9 Orlov Maxim 1490 31 Er. 5.6 × 10 ¹² g / l; HB 177 g / l Er. 4.6 × 10 ¹² g / l; HB 133 g / l 10 Gribanov Bogdan 1493 31 Er. 5.0 × 10 ¹² g / l; HB 146 g / l Er. 4.6 × 10 ¹² g / l; HB 139 g / l eleven Galiullina Elmira 1425 29th Er. 4.8 × 10 ¹² g / l; HB 154 g / l Er. 4.6 × 10 ¹² g / l; HB 139 g / l 12 Shcherbakov Valery 1474 31 Er. 5.8 × 10 ¹² g / l; HB 171 g / l Er. 4.4 x 10 ¹² g / l; HB 129 g / l 13 Konstantinova Julia 1430 30-31 Er. 5.9 × 10 ¹² g / l; HB 165 g / l Er. 4.9 × 10 ¹² g / l; HB 144 g / l fourteen Likhachev Danil 1196 28 Er. 5.6 × 10 ¹² g / l; HB 167 g / l Er. 4.8 × 10 ¹² g / l; HB 158 g / l fifteen Usmanova Leysan 1424 31 Er. 5.6 × 10 ¹² g / l; HB 141 g / l Er. 4.2 x 10 ¹² g / l; HB 125 g / l 16 Kayukin Roman 1408 31 Er. 6.6 × 10 ¹² g / l; HB 200 g / l Er. 4.9 × 10 ¹² g / l; HB 114 g / l 17 Kirillov Marat 1443 31 Er. 5.4 x 10 ¹² g / l; HB 162 g / l Er. 5.0 × 10 ¹² g / l; HB 156 g / l eighteen Galiakhmetova Alina 1274 thirty Er. 5.5 × 10 ¹² g / l; HB 162 g / l Er. 4.6 × 10 ¹² g / l; HB 133 g / l 19 Galiakhmetova Aliya 1320 thirty Er. 5.5 × 10 ¹² g / l; HB 162 g / l Er. 4.6 × 10 ¹² g / l; HB 133 g / l twenty Nurtdinova Diana 1290 29th Er. 4.0 × 10 ¹² g / l; HB 172 g / l Er. 4.9 × 10 ¹² g / l; HB 162 g / l 21 Leonov Nikita 1190 28 Er. 5.5 × 10 ¹² g / l; HB 169 g / l Er. 5.2 × 10 ¹² g / l; HB 158 g / l 22 Gallyamova Sumaya 1200 29th Er. 5.2 × 10 ¹² g / l; HB 162 g / l Er. 4.6 × 10 ¹² g / l; HB 127 g / l

Claims (1)

A method for predicting the development of retinopathy of premature infants by isolating a risk group from newborns with a gestational age of less than 32 weeks and body weight at birth less than 1500 g, characterized in that it further determines the content of hemoglobin and red blood cells 1 month after birth and with a hemoglobin content of 110 g / l and less, and erythrocytes less than 4.0 · 10 ¹² g / l predict a high probability of disease.