RU112477U1 - DEVICE FOR MODELING ISCHEMIA OF TISSUES OF EYE OF EXPERIMENTAL ANIMALS - Google Patents

Abstract

A device for simulating ischemia of eye tissues, containing a base in which an axis is threaded through the holes with pinched steel elements fixed on it with eyecups and a compression spring, the eyecups are made of an elastic material that prevents injury to the eyes of experimental animals, in addition, the axis has the ability to change its height relative to working surface of the preparative table.

Description

The utility model relates to the field of medicine, namely to experimental pharmacology, and can be used to model ischemia of the eye tissues of experimental animals.

The state of conjunctival microcirculation and changes in the vessels of the ocular fundus largely reflects the state of hemodynamics in the tissues of the body as a whole. In recent decades, when studying the function of the endothelium of blood vessels, their huge role in the pathogenesis of many diseases has been revealed. Studies have shown that vascular endothelium is a true regulator of blood flow and tissue homeostasis (Furchgott R.F., Zawadfki J.V. The obligatory role of the endothelial cells in relaxation of arterial smooth muscle by acetylcholine. Nature 1980: 288: P.373-376). Further study of endothelial dysfunction opens up broad prospects for the diagnosis and treatment of various pathologies, including pathologies of the eye. In this regard, there is a need for experimental implementation of the model of ischemia of the eye tissue.

A known technique for modeling transient focal cerebral ischemia in rats. In this case, ligation of the middle cerebral artery is performed. In experiments on Wistar rats in which incomplete global cerebral ischemia was simulated by bilateral ligation of the carotid arteries, a twofold increase in the generation of nitric oxide (NO) and a moderate increase in the content of secondary products of lipid peroxidation in the cerebral cortex were found, while a high degree of correlation between the content was revealed NO and the severity of neurological deficit in ischemic animals (Fadyukova O.E., Alekseev A.A., Bashkatova V.G., Tolordava I.A., Kuzenkov VS, Mikoyan V.D., Vanin A.F., Koshelev V .B., Raevsky KS Semaks prevents the increase in the generation of nitric oxide in the brain of rats due to incomplete global ischemia // Experiment and Clinical Pharmacology. - 2001. - No. 2. - P.31-34).

There is a way to create a model of chronic colon ischemia (Patent RU 2291496, publ. 10.01.2007). For this, premedication is performed, intubation anesthesia is given, the abdominal cavity is opened and the marginal vessel of the colon is excreted for 5 cm. Consistently, with a polypropylene thread, 2 are ligated through 2 straight branches of the marginal vessel of the colon for 5 cm, while the volumetric blood flow decreases 20-30% of the original and corresponds to the 1st degree of ischemia. To create the 2nd degree of ischemia, 2 straight strands are ligated with polypropylene suture through 5 cm through 5 cm. To create the 3rd degree of ischemia, 4 straight through 2 straight branches of large intestine rupture of the colon are ligated through polypropylene suture over 5 cm After which the intestine is laid in place and layered wound closure is performed. The method allows to reproduce the dynamics of changes in the wall of the colon, close to the clinical course of chronic colon ischemia, and can be used to simulate directly colon ischemia, as well as diseases and conditions that are in direct causal connection with it.

The above methods are not acceptable for creating acute retinal ischemia.

In order to create acute retinal ischemia, transupillary laser coagulation of retinal vessels of the I-II order was performed. The procedure was performed using a Visulas Argon II argon laser system (Karl Zeiss, Germany) under local anesthesia (1% dicaine solution) and under the control of fundus lenses (http://www.celltranspl.ru/). The average radiation power was 600-800 mW, the exposure time was 0.1 sec., The spot diameter was 300 μm, the number of coagulates was 100. Coagulation of visible vessels throughout their entire length was performed, by ^1/2 _{of the} RD from the optic nerve disk.

A known method of modeling retinal ischemia (Patent RU No. 2313312, publ. 12/27/2007), which provides for the occlusion of the retinal vessels using light exposure.

The disadvantages of these methods is the complexity of the hardware and requires anesthesia in experimental animals.

The objective of this utility model is to create a device for modeling acute retinal ischemia, simple in execution, convenient to use, and does not require anesthesia in experimental animals.

The problem is solved using a device for modeling ischemia of eye tissue, containing a base in which an axis is threaded through holes with clamped steel elements with eyecups and a compression spring, eyecups are made of elastic material that prevents injuring the eyes of experimental animals, in addition, the axis has the ability to change the height relative to the working surface of the preparatory table.

Thus, the task of the utility model, the creation of a simple-to-use, convenient to use, not requiring anesthesia of experimental animals, is solved.

The proposed device is simple in execution and efficient to use.

Comparison of the proposed device with others known in the field of experimental medicine, showed its compliance with the criteria of a utility model.

A utility model is represented by a drawing, in which figure 1 shows the proposed device.

The device consists of a base 1, in which there are holes 2, forceps-shaped steel elements 3, compression springs 4, eye cups 5, axis 6 and preparative table 7.

The proposed device operates as follows. When modeling ischemia of the eye tissue, the head and limbs of the animal are rigidly fixed on the preparative table 7, on the eyes of the experimental animal, eyecups 5 mounted on gable steel elements 3 are placed, eyecups 5 are made of an elastic material that prevents eye injury. Due to the spring 4, the necessary pressure is formed, which is established empirically by moving the spring above or below the forceps-like steel elements 3.

The size of the base 1 determines the possibility of its placement above the preparative table 7 with the experimental animal. Holes 2 allow you to adjust the position of the axis 6 and, accordingly, gable steel elements 3, which makes it possible to use the device to work with experimental animals of different sizes (rats, rabbits).

Since ischemia is local anemia, often caused by a vascular factor, leading to temporary dysfunction or permanent damage to the tissue or organ (http://ru.wikipedia.org/wiki/), the proposed device, applying pressure on the vessels of the eye, allows you to successfully to simulate acute retinal ischemia of experimental animals, while not requiring their anesthesia.

Claims (1)

A device for modeling ischemia of eye tissues, containing a base in which an axis is inserted through holes with tongs-like steel elements attached to it with eyecups and a compression spring, the eyecups are made of elastic material that prevents injuring the eyes of experimental animals, and the axis can also change height the working surface of the preparative table.