RU2645407C1 - Method of modelling blood flow disturbance on main artery - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to experimental medicine and can be used to create a model of blood flow disturbance along the main arteries. Method includes isolation of the main artery and application of ligatures thereto. To this end, a flap with length of 3–4 cm to 7–8 cm, width of 2/3 of the diameter of the isolated artery, is cut from propylene mesh, which is then wrapped around the artery. Further, at equal intervals, four ligatures are placed on top of the flap, which are then tighten and disruption of blood flow from complete cessation to minimal disruption is modelled, depending on the pulling force of the ligatures.

EFFECT: method provides uniform narrowing of the main artery throughout, stability of fixation, enables modelling of different degrees of disturbance of blood flow in main arteries.

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Description

The invention relates to experimental medicine and can be used to create an experimental model of obliterating atherosclerosis of the main arteries with varying degrees of blood flow disturbance in a laboratory animal while performing research in the field of cardiovascular surgery.

There is a method for modeling critical hind limb ischemia, according to which, under anesthesia, chloral hydrate in a dose of 250-300 mg / kg of animals is fixed on the back, then after appropriate preparation of the surgical field (shaving of the coat and treatment with 70% alcohol solution), a skin incision is made along the inner thigh surface the entire length of the area. The elements of the neurovascular bundle of the thigh are isolated. The artery is separated from the vein and nerve, mobilized (cross branches of the first order extending from it). Place ligatures on the artery at the place of its beginning (under the inguinal ligament) and cross. Bandage and cross a. saphena. The popliteal artery and the initial sections of the lower leg arteries (popliteal artery bifurcation) that intersect are isolated. A section of the main vessel, including the femoral, popliteal artery and the initial sections of the arteries of the lower leg, is removed. Significant retrograde bleeding from the arteries of the lower leg was not observed, therefore, ligatures were not superimposed. The wound on the thigh is sutured with a continuous suture (see Sukovatykh B.S. Surgery News, Volume 23, No. 4, 2015, 365-371, (doi: 10.18484 / 2305-0047.2015.4.365).

The prior art method for modeling acute ischemia-reperfusion syndrome according to the method of V.D. Pasechnikova et al. (1996), the essence of which is the application of a turnstile to the isolated vascular bundle of the experimental limb proximal to the discharge of the deep femoral artery.

A turnstile is placed on an isolated vascular bundle of the hind limb for a period of 4 hours proximal to the departure of the deep femoral artery to palpation of the absence of peripheral pulsation in the distal direction from the place of application of the turnstile (see Pasechnikov V.D., Tatsiy Yu.P. and others. Evaluation of hemosorption efficiency with reperfusion injuries of the liver. Ros. journal of gastroenterol., hepatol. and coloproctol. 1996; 3: 66-69).

Closest to the technical nature of the proposed method is a method for modeling isolated arterial stenosis by ligating the artery (see Sedlarik K. Et al. Experimental model of isolated arterial stenosis. Z Exp Chir. 1981 dec, 14 (6): 391-6) , including the selection of the main artery and the imposition of ligatures on it.

The disadvantages of the above methods are the lack of the ability to uniformly narrow the vessel throughout, the ability to simulate varying degrees of violation of the blood flow of the main arteries, which allows the use of these methods to solve only highly specialized tasks.

The objective of the invention is to provide a method for simulating a violation of blood flow along the main artery, which provides a technical result, which consists in uniform narrowing of the vessel throughout, stability of fixation, the possibility of modeling different degrees of violation of blood flow of the main arteries.

The technical result is achieved by the fact that the method of modeling a violation of blood flow along the main artery includes the selection of the main artery and the imposition of ligatures on it.

The peculiarity is that a flap is cut from a propylene mesh from 3-4 cm to 7-8 cm long, 2/3 of the diameter of the selected artery, with which the artery is then wrapped, after which four ligatures are placed at equal intervals from each other on top of the flap, which tighten and simulate a violation of blood flow from a complete cessation to a minimum violation, depending on the strength of the ligature pull.

The invention is illustrated in the drawing.

From the polypropylene mesh 1, a flap 2 is cut from 3-4 cm to 7-8 cm in length, 2/3 of the diameter of the simulated main artery 3. Then, the simulated main artery 3 is wrapped with this flap 2 at the corresponding length of the flap 2, after which each other four ligatures 4 are superimposed from the other on top of the flap 2 and are fixed (tied). Depending on the degree (strength) of tightening the ligatures 4 model a violation of blood flow from a complete cessation to a minimum violation.

The method is as follows.

The laboratory animal after anesthesia is fixed, access to the main artery 3 is performed. Then, the main artery 3 is isolated throughout. A flap 2 is cut out of polypropylene mesh 1, from 3-4 cm to 7-8 cm long, 2/3 of the diameter of the simulated main artery 3. Then, the simulated main artery 3 is wrapped with a flap 2, after which four ligatures 4 are applied at equal intervals from each other on top of the flap 2 and are fixed (tied). Depending on the degree (strength) of tightening the ligature 4, it is possible to simulate a violation of blood flow from a complete cessation to a minimum violation.

The method is illustrated by an example.

Two series of experiments were carried out to create a model of obliterating atherosclerosis of the main arteries in 12 rabbits of the chinchilla breed of both sexes for 14 days. For all animals, preparation for surgery, anesthesia, and management of the postoperative period were of the same type. 24 hours before the operation, the animals were deprived of food and water. For premedication performed by intramuscular injection, a mixture of 0.1% atropine solution (0.05 mg / kg) was used. Anesthesia was achieved by the administration of zoletil 100 at a dose of 10 mg / kg intramuscularly.

The rabbit was weighed for accurate dosing. After sedation and anesthesia, the animal was fixed in a supine position. The treatment of the surgical field was carried out with 1% iodopiron solution.

In the first series of experiments, a prototype model was created - according to the method of Pasechnikov V.D. A skin incision was made along the inner thigh over the entire length of the region. The elements of the neurovascular bundle of the thigh were isolated. A turnstile was placed on the isolated vascular bundle of the hind limb for a period of 4 hours proximal to the departure of the deep femoral artery to palpation of the absence of peripheral pulsation in the distal direction from the place of application of the turnstile.

The second series of experiments was performed according to the proposed method. A skin incision was made along the inner thigh over the entire length of the region. The elements of the vascular bundle of the hind limb were isolated. A flap from a mesh 3 cm long, 2/3 of the diameter of the simulated artery was applied to the isolated artery of the hind limb, after which 4 ligatures were placed at equal intervals from each other on top of the flap and fixed (tied) in some animals to 50% (the vessel diameter was halved ), others have up to 30% impaired blood flow (narrowed the diameter of the vessel to 1/3).

In the postoperative period, impaired blood flow in the hind limb was monitored by ultrasound.

In the first series of the experiment, as a result of the complete narrowing of the vessel, blood flow was absent, which is a drawback of this method because it does not allow modeling of varying degrees of blood flow disturbance of the main arteries. You can use this method only to create a model of acute limb ischemia.

In the second series of the experiment, as a result of the narrowing of the diameter of the vessel in some animals to 50%, in others to 30% of blood flow disorders, an ultrasound study confirmed these values. The proposed method provides uniform narrowing of the main artery throughout, stability of fixation, the ability to simulate a different degree of violation of the blood flow of the main arteries.

Thus, the inventive method can be used to create an experimental model of obliterating atherosclerosis of the main arteries with varying degrees of blood flow disturbance in a laboratory animal (rat, rabbit, dog) when performing research in the field of cardiovascular surgery. The method provides the possibility of uniform narrowing of the vessel throughout, stability of fixation, the ability to simulate varying degrees of violation of the blood flow of the main arteries.

Claims (1)

A method for simulating a blood flow disorder along the main artery, including the isolation of the main artery and ligature on it, characterized in that a flap is cut from a propylene mesh from 3-4 cm to 7-8 cm long, 2/3 of the diameter of the extracted artery, which is then wrapped an artery, after which four ligatures are placed at equal intervals from each other on top of the flap, which tighten and simulate a violation of blood flow from a complete cessation to a minimum violation, depending on the strength of the ligature pull.

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