RU2210816C2 - Method for modeling limb's ischemia - Google Patents

Abstract

FIELD: experimental medicine. SUBSTANCE: one should stop circulation in arteries of the 1st and 2nd order, correspondingly, from external iliac artery up to popliteal artery and those located under popliteal artery. Additionally, one should stop circulation at all the arteries of the 2nd order branching from arteries of the 1st order at section from external iliac artery up to popliteal artery, and at femoral artery below bifurcation. Moreover, this stoppage of arterial circulation is performed by application of ligatures. Moreover, one should apply ligature upon external iliac artery at the site of internal iliac artery branching. EFFECT: more simplified and efficient method for ischemic modeling.

Description

 The invention relates to experimental medicine, mainly to pathophysiology, and can be used to model limb ischemia and study the mechanisms of its development and treatment on this model.

 There is a method of modeling obliterating endarteritis, which consists in partial clamping of the vessels of the hind limbs of the animal and the subsequent parenteral administration of antigenic material to the animal - an extract of aortic intima obtained from an animal of the same species (see auth. USSR 679207, Mcl A 61 3 10/00, G 09 B 23/28, publ. 08/15/79).

 The known method eliminates adverse allergic reactions when reproducing the disease and allows you to create a model with an isolated lesion of the inner lining of the vessels, with the development of sclerotic processes in it, corresponding to the manifestation of this disease in humans. Moreover, in comparison with previously known methods, it has more simplified techniques for creating a model of obliterating endarteritis.

 However, the use of an aortic intima extract obtained from animals of the same species as an antigenic material significantly increases the cost of creating a model of the disease, since obtaining the extract is quite time-consuming and time-consuming, requires additional equipment, drugs and specially trained personnel.

 There is a known method for modeling limb ischemia, chosen as the closest analogue, which consists in blocking blood flow in arteries of the 1st and 2nd order, respectively, from the external iliac to the popliteal artery and located below the popliteal artery, carried out from normal access along the inner surface of the thigh (see auth. of the USSR 1101875, M.C. G 09 B 23/23, publ. 07/07/84).

 This method allows you to create a model with high resistance to chronic limb ischemia for the study of this disease.

 However, the use of a sclerosing solution to ensure that the blood flow in the 2nd order arteries located below the popliteal artery is blocked, as the experiments confirm, can cause gangrene of the operated limb even if the claimed amount of sclerosing solution is introduced into the stump of the popliteal artery, which makes it impossible to create high-quality models of chronic limb ischemia.

 In addition, due to the fact that the method does not provide for blocking the blood flow in the arteries of the 2nd order, departing from the 1st order arteries in the area from the external iliac to the popliteal artery, the blood flow is restored quite quickly and the functional parameters of blood circulation and tissue metabolism are compensated in the later stages , which also makes this method not providing a high-quality model for studying chronic limb ischemia.

 Moreover, the use of the known method does not allow to maximize the approximation of the pathology pathology to the clinical course of the disease.

 In addition, the well-known modeling technique is quite complicated.

 Thus, the objectives of the invention are the creation of a reliable, persistent and simple method for modeling chronic limb ischemia, not capable of causing irreversible changes in limb tissues and providing maximum approximation to the clinical course of the disease.

 These tasks are achieved by the fact that in the known method for modeling limb ischemia, which consists in blocking blood flow in arteries of the 1st and 2nd order, respectively, from the external iliac to the popliteal artery and located below the popliteal artery, carried out from normal access along the inner surface of the thigh, according to the invention additionally provides for the closure of blood flow in all arteries of the 2nd order, departing from arteries of the 1st order in the area from the external iliac artery to the popliteal artery and edrene artery bifurcation below, the overlap of blood flow in the arteries of the 1st and 2nd orders is performed by ligation, and on the external iliac artery ligature is applied at the site of origin of the internal iliac artery.

 It was experimentally established that it is additional blood flow obstruction on all 2nd order arteries extending from 1st order arteries in the area from the external iliac to the popliteal artery, and on the femoral artery below the bifurcation that helps to create a persistent model of chronic limb ischemia that does not allow tissue limbs develop irreversible changes that could exclude the experiment.

 At the same time, it is precisely such a shutdown of the blood flow that makes it possible to bring the pathology closer to the clinical course of the disease.

 The implementation of the overlap of blood flow in arteries of the 1-2th order by applying ligatures helps to simplify the process of modeling pathology due to the fact that the ligation process is not complicated in itself.

 And the application of a ligature to the external iliac artery at the site of discharge of the internal iliac artery contributes even more to the simplification of the process of modeling pathology.

 The set of essential features of the proposed technical solution "method" has differences from the prototype and does not follow explicitly from the studied prior art, which indicates its compliance with the criteria of "novelty" and "inventive step".

 The method can be widely used in experimental medicine, therefore, it is industrially applicable.

 The method is as follows.

 To create a model of chronic ischemia, for example, a dog’s pelvic limb, a cut along the medial surface of this limb of an animal mobilizes all arteries from the pupar ligament to the popliteal fossa. Ligatures are superimposed from the popliteal artery to the external iliac artery with ligation of all outgoing arterial branches. Pulling the external iliac artery, a ligature is applied to it at the site of discharge of the internal iliac artery.

 Overlap of the blood flow (ligature application) on the 2nd order arteries extending from the 1st order artery is carried out in the area from the external iliac to the popliteal artery, as well as on arteries located below the popliteal artery.

 Overlap of the blood flow on the 1st order arteries is done by applying ligatures to the external iliac artery (at the place of discharge of the internal iliac artery), to the popliteal artery, to the tibia, tibia artery, to the femoral artery, below the bifurcation, the deep femoral artery in 2 places - the femoral artery and at a distance of 2-3 cm below the upper ligature in the deep femoral artery.

 The method is illustrated by an example.

 A biological object weighing 23 kg was cut along the medial surface of the hind pelvic limb of an animal and all arteries were mobilized from the pupar ligament to the popliteal fossa.

 Ligatures were superimposed from the popliteal artery to the external iliac artery with ligation of all arterial branches extending throughout. Pulling the external iliac artery, a ligature was placed on it at the site of discharge of the internal iliac artery. Considering the anatomical structure of the animal’s arterial bed — the presence of an additional artery (gluteus-caudal) that runs along the posterior thigh and nourishes the posterior muscle group, acute ischemia and massive necrosis of the limb do not develop, since the minimal amount of blood is delivered through the remaining artery.

Claims (1)

 A method for modeling limb ischemia, which consists in blocking blood flow in arteries of the 1st and 2nd order, respectively, from the external iliac to the popliteal artery and located below the popliteal artery, carried out from normal access along the inner surface of the thigh, characterized in that it further includes blocking blood flow to all arteries of the 2nd order extending from the arteries of the 1st order in the area from the external iliac artery to the popliteal artery, and on the femoral artery below the bifurcation, The term blood flow in the arteries of 1-2-th order is performed by ligation, and on the external iliac artery ligature is applied at the site of origin of the internal iliac artery.