RU2000740C1 - Two-sided transaxillary-percutaneous angiography method - Google Patents

Abstract

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Description

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The invention relates to medicine, namely to radiology, section of vertebral angiography, and can be used as a diagnostic study of neurology, neurosurgery and vascular surgery.

The aim of the invention is to reduce skiing.

The goal is achieved. that previously, before angiography, the distal end of the catheter is modeled with a tilt angle corresponding to the angle of departure of the left subclavian artery from the aortic arch, then after it is inserted into the right subclavicular artery (by the transaxillary pathway) to the pulmonary artery and performing vertebral angiography of the catheter through the brachiocephalic trunk, they are lowered into the aortic arch, where the latter takes the initially given Form with its placement at the mouth of the left subclavian artery with subsequent vertebral angiography.

To perform angiography of the proposed method, the following catheter simulation is used. Initially, a Kythov angiographic tube is taken, or an X-ray contrast catheter close in quality, up to 60 cm long. A copper wire is inserted into the lumen of one of the ends of the catheter, by means of which it is modeled. The whole structure is lowered into a vessel with boiling water t ° -100 ° C for no more than 2-3 seconds, after which it is immersed in cold water. The rod is removed from the catheter, the latter taking a shape close to the angle of departure of the left subclavian artery from the aortic arch.

At the same time, the end of the catheter is flexible and able to change shape depending on the size of the vessel, after which it tends to take the original again. The latter circumstance is an important condition for performing the proposed angiography.

The first stage, after puncture of the axillary (axillary) artery to the right, the catheter along the metal string along with the last is inserted into the right subclavian artery and then through the brachiocephalic trunk into the aortic arch. After the conductor has been removed, the end of the catheter again assumes its original desired shape. Since the left subclavian artery departs from the aortic arch almost at a right angle and corresponds to the shape of the catheter, the latter is easily installed under the electron-optical converter in the mouth of the left subclavian

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arteries and perform retrograde all-vertebral angiography.

In the second step, the catheter is gradually removed from the aortic arch and placed in the right subclavian artery at the mouth of the corresponding vertebral artery by performing selective vertebral angiography.

A comparable analysis with known methods, such as unilateral transaxillary and bilateral transfemoral methods of pertebral angiography, shows that with the inventive method, selective vertebral angiography is possible simultaneously from 2 sides with transaxillary access, which excludes a separate diagnostic operation from the opposite side. At the same time, the method avoids the technical difficulties associated with the anatomical options for the structure of the veins of the aortic arch, n,) and transfemoral vertebral znography (when the catheter is carried out from the bottom up, it has hedging vascular structures): brachiocephalic trunk, subclavian arteries, common carotid artery), by descending movement of the catheter through these branches into the aortic arch, which can be easily done. In this case, the difference is that the catheter is passed from top to bottom through vessels difficult to access for catheterization, where it is already located originally.

Example. Patient I., 33 years old, was undergoing examination and treatment at the neurosurgery clinic of the Novokuznetsk GIDUV from 10.01.90 to 02.02.90 for vertebral-basilar vascular insufficiency.

Examination revealed symptoms of vertebral artery suffering on both sides. 01/19/90, transaxillary bilateral vertebral angiography was performed using a specially designed anthographic catheter whose shape at the distal end is close to the aortic arch angle of the left subclavian artery.

For this purpose, the axillary artery rights were punctured initially, after which a metal string was inserted into the vessels, along which a prepared catheter was drawn and inserted into the subclavian artery. Through the brachiocephalic trunk, the catheter was lowered E) to the aortic arch and installed at the mouth of the left subclavian artery. Performed vertebral angiography on the left. Second stage, catheter

erected from the aortic arch, installed in the right subclavian artery at the mouth of the vertebral artery VAG on the right

On angiograms revealed: the right vertebral artery departs laterally and from the posterior wall of the subclavian artery. The left vertebral artery departs from the subclavian medially, but stenosis of its mouth is noted

01/23/90, the operation was performed: transposition and desympathization of the initial section of the right vertebral artery.

A month later, a second operation was performed: endoscopic resection from the left vertebra.

DREAMS OF DOUBRONG TG ANSAXIMILARIA

AGRICULTURAL ANGIOGRAPHY by catheterization of the axillary artery, insertion of a catheter in the subclavian artery and performing intra-vertebral angiography, characterized in that. what. in order to reduce the traumatic ™ method, the period by catheterization of the right axillary artery dis

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ABOUT

artery with implantation of the last n subclavian artery. The postoperative period was uneventful. Discharged with improvement.

The method can be used in patients with atherosclerotic lesions of the ileo-femoral segments, when the procedure is either technically difficult to drain or dangerous.

(56) Hasse H.M., Alexander C. 1962, 980 - 986,

Techic zur Angiogcaphic dor Arteria vertebralis.

the thal end of the catheter is modulated at an angle corresponding to the angle of the left subclavian artery from the aortic arch and before the catheter is placed on the right subclavian artery and the L-picGpfi / ibHou ymnuiraphy catheter is inserted through the brachiocephalic trunk into the aortic arch, place it at the mouth of the left sub of the clavicular artery and performing vertebral angiography.