RU2077074C1 - Method of simulation of rat transplacental permeability variation - Google Patents

Abstract

FIELD: pathophysiology, simulation of rat transplacental permeability variation. SUBSTANCE: the zone of uterus projection on the anterior-abdominal wall is subjected to laser radiation at a wavelength of 632.8 nm, power flux density of 1.5 MW/sq.cm, daily exposure within 5 to 6 minutes in natural position of the animal from the twelfth to the sixteenth day of pregnancy. EFFECT: facilitated procedure.

Description

 The invention relates to medicine, namely to physiology and pathophysiology, and can be used in the practice of obstetrics and gynecology.

 A known method for changing transplacental permeability by exposure to drugs.

 However, the use of medications often causes inadequate molecular and cellular adaptation reactions of the placenta and, as a result, leads to changes in the embryo, fetus and mother's body as a whole. In addition, drug therapy requires significant material costs.

 There is a method of normalizing the system of general and local blood circulation of an organism of pregnant animals by exposure to a physical factor - abdominal decompression, in which unidirectional changes in the permeability of the placental barrier are revealed. The known method does not allow to achieve a stable change in the permeability of the placenta for the studied substances and causes stressful conditions in experimental animals, since the animal is pre-fixed.

 The aim of the invention is to obtain changes in the selective permeability of the placenta and the exclusion of stressful effects.

This goal is achieved by the fact that according to the known method of modeling changes in transplacental permeability by exposing the experimental animal to a physical factor, the animal in its natural position is exposed to laser radiation with a wavelength of 632.8 nm and a power flux density of 1.5 mW / cm ² within 5-6 minutes

The natural position of the animal during the experiment eliminates the stressful effect. Exposure to laser radiation with a wavelength of 632.8 nm, a power flux density of 1.5 mW / cm ² for 5-6 minutes allows you to get a persistent change in the selective permeability of the placenta and the exclusion of stressful effects.

 The method is as follows.

A pregnant (12 days or more) female rat in its natural position is placed in a plexiglass chamber with minimal mobility restriction and is exposed to a defocused laser beam with a wavelength of 632.8 nm and a power flux density of 1.5 mW / cm ² from helium-neon Laser LG-79-01. The laser beam is fed from the bottom up. Exposure to laser radiation is carried out for 5-6 minutes daily, once at the same time (14 ^{o o} ) until the investigated gestational age.

 Example.

Pregnant female rats weighing 180-250 g on the 12th day of pregnancy epilate the skin on the anterior abdominal wall in the projection of the uterus. This area was exposed to a defocused laser beam (wavelengths of 632.8 nm, power flux density of 1.5 mW / cm ² for 5-6 minutes daily, once, at the same time (14 ^{o o} ), up to 17 days pregnancy (the period of completion of morphological maturation and the peak of its physiological activity). On the day of the experiment, no irradiation was performed. During the study period of pregnancy, we studied the permeability of the placental barrier by the transition of the indifferent dye of uranium and the amino acid valine ¹⁴ C from mother to fetus.

 The results of the experiment showed that exposure to helium-neon laser radiation leads to significant changes in transplacental permeability for the studied substances.

 On the 17th day of pregnancy, there was an increase in the transport of valine to the fetus by 28% compared with the control group (physiological pregnancy. The specific radioactivity of the fetal tissues under laser irradiation was 3.2 ± 0.06 KBq / g of tissue against 2.5 ± 0, 05 KBq / g of tissue in the control (P <0.001).

 A sharp decrease in the penetration of uranium into the fetal tissue when exposed to laser radiation was revealed compared with the control group. Its content in fetal tissues was 1.98 ± 0.007 μg of dye / g of tissue in the experiment versus 8.6 ± 0.03 μg of dye / g of tissue in the control (P <0.001).

 The proposed method allows you to simulate various changes in transplacental permeability in animal experiments, which will expand the knowledge base on the mechanisms of transport of various nutrients through the placenta in order to possible correction of impaired transport function of the placenta. The advantages of our proposed method include low cost, non-invasiveness, long-term effect with short-term exposure.

Claims (1)

A method for simulating changes in transplacental permeability in rats, characterized in that laser irradiation of the zone of projection of the uterus onto the anterior abdominal wall is performed at a wavelength of 632.8 nm, a power flux density of 1.5 mW / cm ² , exposure of 5-6 minutes daily in the natural position of the animal from the twelfth to sixteenth day of pregnancy.