SU1271523A1 - Filler for bottles of occlusion device - Google Patents

Abstract

The invention relates to medicine, in particular to neurosurgery, vascular surgery, and is intended for filling cylinders of occlusive devices (OS). The purpose of the invention is the acceleration of solidification due to the proposed filler composition. The filler for OU cylinders contains a mixture in the following ratio of components, wt%: 40% aqueous solution of acrylamide 42-46; 2% aqueous solution of N, N-methylene-His-acrylamide 24-28; 1.4% aqueous solution of ammonium persulphate 2-4; tetramethylethylenediamine 1-2; 76% aqueous solution of verografina. The rest. The filler is a polyacrylamide gel, prepared as follows. A mixture of aqueous solutions of acrylasmide, methylene-Bis-acrylamide, above (O ammonium sulphate and verografin) (L is added to the OU balloon, after tetramethylethylenediamide is added to the mixture after determination of tolerability, which hardens the filling of the balloon for 1 minute. 1 Table N3 CH1 SL 1CHE CCi

Description

The invention relates to medicine, namely to neurosurgery, vascular surgery, and is intended to fill occlusive devices used for artificial stationary occlusion (occlusion of blood vessels, in particular, the brain. The purpose of the invention is to accelerate the solidification due to the proposed filler composition. Filler for cylinders of occlusion devices, containing 76% aqueous solution of verografin, additionally contain 40% aqueous solution of acrylamide, water solution of N5 N-methylene-s (4C - acrylanide 1.4%) bs an aqueous solution over ammonium seric acid, it contains tetramethylethylenediamine as a hardener in the following ratio of components, May,%: 40% aqueous solution of acrylamide 2% aqueous solution of N, N-methylene-bis-acrylam1-schA 1.4% ammonia ammonium sulfate solution 2-4 1-2 Tetramethylethylenediamine 76% aqueous solution of verograph The remaining Filler is a polyacrylamide gel consisting of the following components, Acrylamide forms the longitudinal chains of the polymer; methylene-trus-acrylamide provides for the formation of cross-links to the chain of acrylamide. Ammonium superacidum, the first catalyst of the gel formation reaction, provides for the use of CY10 gel only in the presence of the second (basic) catalyst tetra1 methyl ethylenediamine (TE.MEDa). TRMED (main catalyst) - causes polymerization and gel formation of Verografin, embedded in the structure of polyacrylamide gel, thus ensuring its X-ray intensity. The amount of zarographin in the gel determines the degree of X-ray contrast ratio of the X-ray: ice, In the table, examples of the compositions fill the gel. bsishyunov okkl luznr, of their devices. All the components in the initial state are inequalities of internal memory. including tetramethylethylenediamine. The hardening time is influenced by the TEMED catalyst, as well as the amounts of the components forming the acrylamide gel and the amount of verografin. The more nakedvetografin and less gel-forming filler components, the longer it hardens (composition 1) and vice versa, the less vegragraphine and more gel-forming components, the more naturally the filler hardens faster (composition 4). The filler is prepared as follows. A mixture of aqueous solutions of acrylamide, methylene-SME-acrylamide, ammonium sulphate and verografin is initially injected into the balloon of the occlusion device, and after determining the tolerance of patients with occlusion, tetramethylethylenediamine is added to this fluid, which causes rapid filling of the balloon in 1 minute. As can be seen from the data presented in the table, the use of a filler with the composition of the components specified in the composition; 1, does not achieve the goal, since the time of its hardening is long (8-10 min), which lengthens the time of surgical intervention and is inconvenient for the surgeon. The filler with the composition of the components specified in compositions 2 and 3 completely ensures that the target is reached, since, being sufficiently contrast, it hardens in 0.5–2 min and the surgeon manages to detach the catheter from the occlusive balloon. The complete composition of the components indicated in part 4 does not ensure the achievement of the goal, as it is very poorly contrasted and is not visible fluoroscopically against the background of the bones of the skull, besides it hardens so quickly (10-12 seconds) that the surgeon does not have time to disconnect a catheter from an occlusive balloon, since they are glued together by a filler. The filler is used as follows. . Before the operation, in a sterile tube using an automatic micro). The loops are filled with a 40% aqueous solution of acrylshside 500.

2% aqueous solution of N, N-methylene-b - C 300 -acrylamide

1., 4% ammonium persulphate aqueous solution. 50 76% aqueous solution of orographin300

The patient is punctured by the carotid artery with a cannula, through the lumen of which an occlusive device is inserted under x-ray viewing system. When the balloon reaches the site of occlusion, 500 µl of the mixture of the filler components is injected into the balloon via a tuberculin syringe through the catheter. After determining the tolerability of patients with occlusion, tetramethylethylenediamine in an amount of 10 µl per 500 µl of the mixture is injected into the cavity of the balloon, which leads to a rapid solidification of the vehicle. After that, the surgeon gently pulls himself off.

Claims (1)

the tether from the balloon that remains in the vessel overlaps its lumen. Claims of the invention The filler for cylinders of occlusion devices containing 76% aqueous solution of orographic, characterized in that, in order to accelerate the solidification, it additionally contains aqueous solutions of 10% 40% acrylamide, 2% N, N-methylene-ene ffuc-acrylamide, 1, A% ammonium persulphate and as a hardener - tetramethylethylenediamine in the following ratio of components, kos.%: 40% aqueous solution of acrylamide42-46 2% aqueous solution of N, N-methylene-BW.c 0 -acrylamide 24-28 1.4% aqueous solution of ammonium persulphate 2-4 Tetramethylethylenediamine 1-2 76% aqueous solution of 5 before the rest