HIGH ANTICOAGULATION ECMO AND EXTRACORPOREAL CIRCULATION CONSUMABLE
20240066201 ยท 2024-02-29
Assignee
Inventors
Cpc classification
A61L33/068
HUMAN NECESSITIES
A61L33/0082
HUMAN NECESSITIES
A61L2300/112
HUMAN NECESSITIES
A61L31/047
HUMAN NECESSITIES
A61L2400/18
HUMAN NECESSITIES
A61L31/06
HUMAN NECESSITIES
A61M1/3666
HUMAN NECESSITIES
A61L33/128
HUMAN NECESSITIES
A61L33/027
HUMAN NECESSITIES
A61L2300/42
HUMAN NECESSITIES
A61L2300/236
HUMAN NECESSITIES
A61L31/028
HUMAN NECESSITIES
International classification
Abstract
Disclosed is a high anticoagulation ECMO and extracorporeal circulation consumable, which include the following preparation methods: S1, aminating the surface of ECMO blood circulation device and extracorporeal circulation consumables; S2, activating heparin groups; S3, heparinizing the ECMO blood circulation device and extracorporeal circulation consumables; S4, modification of enhancer. The application can produce a novel high anticoagulation extracorporeal circulation tube with low price and high biocompatibility, which expands the application in clinic.
Claims
1. A high anticoagulation ECMO and extracorporeal circulation consumable, comprising the following preparation methods: S1, aminating the surface of ECMO blood circulation device and extracorporeal circulation consumables: adding raw materials rich in amino functional groups into organic solvent, fully stirring and mixing, pouring into the ECMO blood circulation device and extracorporeal circulation consumables, refluxing at 20-80? C. for 2-10 hours, grafting the raw materials rich in amino functional groups onto the inner wall contacting with blood, so that a large amount of amino groups are loaded on the surface, and washing to obtain amino-modified ECMO blood circulation device and extracorporeal circulation consumables; S2, activating heparin groups: activating heparin groups by direct coupling method, dissolving heparin sodium in MES buffer, adding EDC and NHS, and stirring the solution in ice-water bath for 1 h-5 h to activate active groups of the heparin and generate heparin containing active carboxyl groups; S3, heparinizing the ECMO blood circulation device and extracorporeal circulation consumables: adding heparin-activated mixed solution into the amino-modified ECMO blood circulation device and extracorporeal circulation consumables, refluxing for 1-20 hours, discharging the solution, repeating this step for 1-3 times, washing with a mixed solution of ethanol and distilled water to obtain heparinized ECMO blood circulation device and extracorporeal circulation consumables, and drying for later use; S4, modification of enhancer: after the heparinization of the ECMO blood circulation device and extracorporeal circulation consumables is completed, using albumin, functionalized PEG which can react with amino groups, and phosphate to further surface modify the heparinized ECMO blood circulation device and extracorporeal circulation consumables to block the sites not modified by heparinization, so as to shield the adsorption of platelets and protein in blood on the inner wall.
2. The high anticoagulation ECMO and extracorporeal circulation consumable according to claim 1, wherein in S1, after the reaction, characterizing the grafting effect by FT-IR and water contact angle measurement, and observing whether the rich in amino functional groups appears in the FT-IR spectrum and the water contact angle decreases.
3. The high anticoagulation ECMO and extracorporeal circulation consumable according to claim 1, wherein in S2, concentration of the heparin sodium is 1?100?1?106 ug/milliliter (ml.), pH of the IVIES is 4.0?7.0, and the concentration of EDC and NHS is 1?10.sup.0 ug/ml?1?10.sup.4 ug/ml.
4. The high anticoagulation ECMO and extracorporeal circulation consumable according to claim 1, wherein in S3, when the mixed solution of ethanol and distilled water is used for washing, the volume ratio of ethanol to distilled water is 0%-100%, so as to efficiently clean unreacted monomers or possible residual harmful components in the ECMO blood circulation device and extracorporeal circulation consumables.
5. The high anticoagulation ECMO and extracorporeal circulation consumable according to claim 1, wherein in S4, using a plurality of anticoagulation methods to further surface modify the heparinized ECMO blood circulation device and extracorporeal circulation consumables, including albumin modification, functionalized PEG modification and phosphate modification, and the concentration of the modified raw materials is 1?10.sup.0?1?10.sup.6 ug/ml.
6. The high anticoagulation ECMO and extracorporeal circulation consumable according to claim 5, wherein the albumin modification is to modify the surface of the heparinized ECMO blood circulation device and extracorporeal circulation consumables with an enhancer containing albumin, so as to effectively reduce thrombosis on the surface of the heparinized ECMO blood circulation device and extracorporeal circulation consumables.
7. The high anticoagulation ECMO and extracorporeal circulation consumable according to claim 5, wherein the functionalized PEG comprises any one or more of active carboxylated PEG, PEG containing succinimide ester, PEG containing isothiocyanine group and PEG containing sulfonyl chloride group, using the functionalized PEG to modify the surface of the heparinized ECMO blood circulation device and extracorporeal circulation consumables to reduce the interaction between the surface of the heparinized ECMO blood circulation device and extracorporeal circulation consumables and blood components.
8. The high anticoagulation ECMO and extracorporeal circulation consumable according to claim 5, wherein the phosphate modification is to modify the surface of the heparinized ECMO blood circulation device and extracorporeal circulation consumables with a phosphate-containing reinforcing agent, so as to effectively reduce the adsorption of platelets and protein on the surface of the heparinized ECMO blood circulation device and extracorporeal circulation consumables.
9. The high anticoagulation ECMO and extracorporeal circulation consumable according to claim 1, wherein in S1, the organic solvent comprises any one or more of chloroform, carbon tetrachloride, dichloromethane, dichloroethane, benzene, toluene or xylene.
10. The high anticoagulation ECMO and extracorporeal circulation consumable according to claim 1, wherein in S1, the raw materials rich in amino functional groups comprise any one or more of PEI, chitosan, polylysine, ethylenediamine, urea-formaldehyde, aniline and amino-terminated hyperbranched polyamide.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
[0024] The drawings illustrated here are used to provide a further understanding of the present application and form a part of this application. The illustrative embodiments of the present application and their descriptions are used to explain the present application, and do not constitute undue limitations on the present application. In the attached drawings:
[0025]
[0026]
[0027]
[0028]
DETAILED DESCRIPTION OF THE EMBODIMENTS
[0029] The principles and features of the present application will be described with reference to the accompanying drawings. Examples are only used to explain the present application, but not to limit the scope of the present application. In the following paragraphs, the present application will be more specifically described by way of example with reference to the accompanying drawings. The advantages and features of the present application will be more apparent from the following description and claims. It should be noted that the drawings are all in a very simplified form and in inaccurate proportions, and are only used to facilitate and clearly explain the purpose of the embodiments of the present application.
[0030] Unless otherwise defined, all technical and scientific terms used herein have the same meanings as commonly understood by those skilled in the technical field of the present application. The terminology used in this specification of the present application is only for the purpose of describing specific embodiments, and is not intended to limit the present application. As used herein, the term and/or includes any and all combinations of one or more related listed items.
[0031] Please refer to
[0036] Specifically, the albumin modification is to modify the surface of the heparinized ECMO blood circulation device and extracorporeal circulation consumables with an enhancer containing albumin, which is used to effectively reduce thrombosis on the surface of heparinized ECMO blood circulation device and extracorporeal circulation consumables.
[0037] Specifically, the functionalized PEG includes any one or more of active carboxylated PEG, PEG containing succinimide ester, PEG containing isothiocyanine group and PEG containing sulfonyl chloride group. The functionalized PEG is used to modify the surface of the heparinized ECMO blood circulation device and extracorporeal circulation consumables, so as to reduce the interaction between the surface of the heparinized ECMO blood circulation device and extracorporeal circulation consumables and blood components.
[0038] Specifically, the phosphate modification is to modify the surface of the heparinized ECMO blood circulation device and extracorporeal circulation consumables with a phosphate-containing reinforcing agent, so as to effectively reduce the adsorption of platelets and protein on the surface of the heparinized ECMO blood circulation device and extracorporeal circulation consumables.
[0039] The working principle of the present application is:
[0040] Firstly, organic solvents such as chloroform, carbon tetrachloride, dichloromethane, dichloroethane, benzene, toluene and xylene, and raw materials rich in amino functional groups such as PEI, chitosan, polylysine, ethylenediamine, urea-formaldehyde, melamine, aniline and amino-terminated hyperbranched polyamide are mixed and added into PVC/PC tube, so that the surface is loaded with a large amount of amino groups. Then EDC/NHS is used to catalyze heparin to generate heparin containing carboxyl groups, and heparin is covalently bonded to the inner surface of the PVC/PC tube through the reaction of carboxyl groups on heparin molecules and amino groups on the inner surface of the PVC/PC tube, so that heparinization is more stable. After that, anticoagulation enhancer is used to modify the tube, and finally the anticoagulation effect of the PVC/PC tube as ECMO blood circulation tube is significantly improved, and the usable time is at least half a month. The present application proved the blood compatibility and cell safety of ECMO blood circulation tube. The present application proves that the ECMO blood circulation tube has blood compatibility and cell safety.
[0041]
[0042]
[0043] The above description is only a preferred embodiment of the present application, and does not limit the present application in any form. Those of ordinary skill in the industry can smoothly implement the application as shown in the drawings and described above; However, those skilled in the art who make some changes, modifications and equivalent changes by using the technical contents disclosed above without departing from the scope of the technical scheme of the present application are equivalent embodiments of the present application. Meanwhile, any changes, modifications and evolutions equivalent to the above embodiments made according to the essential technology of the present application are still within the protection scope of the technical scheme of the present application.