Study on quantitative detection of bacterial endotoxin in recombinant novel coronavirus vaccine (CHO cell) by micro-dynamic chromogenic
- Author:
Hua LIU
1
;
Jun WANG
1
;
Bei SUN
1
;
Lei-Ming XU
1
;
Hua-Hua WANG
2
;
Jiang PU
2
;
Wen-Wu GONG
3
;
Zhen DING
4
Author Information
- Publication Type:Journal Article
- Keywords: bacterial endotoxin lest; gel-clot method; interference lest; micro-dynamic chromogenic method; quantitative detection of endotoxin; recombinant novel coronavirus vaccine ((]H() cell)
- From: Chinese Pharmacological Bulletin 2022;38(7):1110-1113
- CountryChina
- Language:Chinese
- Abstract: Aim To explore the feasibility of the micro- dynamic chromogenic method for quantitative detection of bacterial endotoxin in recombinant novel coronavirus vaccine ( CHO cell).Methods The micro-dynamic color method of Limulus reagent was used to establish a bacterial endotoxin standard curve.The dilution factor was determined through interference pre -experiment, the recoverv rate of the endotoxin added to the test so- J lution was determined, and the interference test to complete the quantitative detection test of the bacterial endotoxin content in the test product was performed, and the results were compared with those of the gel-clot method.Results Hie linear range of the concentration of the standard curve was 0.02 to 2.0 EU • mL 1 , and the regression equation of the standard curve was lgT =-0.302 7 lgC +2.858 7( r = 0.998 9).When recombinant novel coronavirus vaccine ( CHO cell) was cliluted 40 times or below, the micro -dynamic chromogenic reagent did not interfere with the bacterial endotoxin agglutination reaction, and the recovery rate was 50% to 200%.The test results were consistent with the gel- clot method.Conclusions The micro-dynamic chromogenic method can be used for the quantitative detection of bacterial endotoxins in recombinant novel coronavirus vaccine ( CHO cell) with accurate results, high sensitivity, and process monitoring.