One of the most commonly used surfactants in the production of split virus influenza vaccine is nonionic surfactant Triton X-100. After splitting of the virus is accomplished, Triton X-100 is removed from the vaccine by subsequent production steps. Because of toxicity of Triton X-100, which remains in the vaccine in residual amounts, a sufficiently sensitive method for its detection and quantification needs to be defined. Two methods for determination of Triton X-100 residuals were developed: the UV-spectrophotometry and HPLC methods. For both methods, preparation of vaccine samples and removal of proteins and virus particles were crucial: samples were treated with methanol (1:1) and then centrifuged at 25000 x g for 30 min. After such treatment, the majority of vaccine components that interfered in the UV region were removed, and diluted samples could be directly measured. The chromatographic system included C18 column, step methanol gradient, and detection at 225 nm with a single pea...k of Triton X-100 at 12.6 min. Both methods were validated and gave satisfactory results for accuracy, precision, specificity, linearity, and robustness. LOQ was slightly lower for the HPLC method. Hence, it was shown that both methods are suitable for analysis of residual amounts of Triton X-100, with the advantages of the UV method being its simplicity and availability in most laboratories.
Source:
Journal of AOAC International, 2016, 99, 2, 396-400
TY - JOUR
AU - Pavlović, Bojana
AU - Cvijetić, Nataša
AU - Dragačević, Luka
AU - Ivković, Branka
AU - Vujić, Zorica
AU - Kuntić, Vesna
PY - 2016
UR - http://intor.torlakinstitut.com/handle/123456789/469
AB - One of the most commonly used surfactants in the production of split virus influenza vaccine is nonionic surfactant Triton X-100. After splitting of the virus is accomplished, Triton X-100 is removed from the vaccine by subsequent production steps. Because of toxicity of Triton X-100, which remains in the vaccine in residual amounts, a sufficiently sensitive method for its detection and quantification needs to be defined. Two methods for determination of Triton X-100 residuals were developed: the UV-spectrophotometry and HPLC methods. For both methods, preparation of vaccine samples and removal of proteins and virus particles were crucial: samples were treated with methanol (1:1) and then centrifuged at 25000 x g for 30 min. After such treatment, the majority of vaccine components that interfered in the UV region were removed, and diluted samples could be directly measured. The chromatographic system included C18 column, step methanol gradient, and detection at 225 nm with a single peak of Triton X-100 at 12.6 min. Both methods were validated and gave satisfactory results for accuracy, precision, specificity, linearity, and robustness. LOQ was slightly lower for the HPLC method. Hence, it was shown that both methods are suitable for analysis of residual amounts of Triton X-100, with the advantages of the UV method being its simplicity and availability in most laboratories.
PB - Oxford Univ Press Inc, Cary
T2 - Journal of AOAC International
T1 - Direct UV Spectrophotometry and HPLC Determination of Triton X-100 in Split Virus Influenza Vaccine
EP - 400
IS - 2
SP - 396
VL - 99
DO - 10.5740/jaoacint.15-0201
ER -
@article{
author = "Pavlović, Bojana and Cvijetić, Nataša and Dragačević, Luka and Ivković, Branka and Vujić, Zorica and Kuntić, Vesna",
year = "2016",
abstract = "One of the most commonly used surfactants in the production of split virus influenza vaccine is nonionic surfactant Triton X-100. After splitting of the virus is accomplished, Triton X-100 is removed from the vaccine by subsequent production steps. Because of toxicity of Triton X-100, which remains in the vaccine in residual amounts, a sufficiently sensitive method for its detection and quantification needs to be defined. Two methods for determination of Triton X-100 residuals were developed: the UV-spectrophotometry and HPLC methods. For both methods, preparation of vaccine samples and removal of proteins and virus particles were crucial: samples were treated with methanol (1:1) and then centrifuged at 25000 x g for 30 min. After such treatment, the majority of vaccine components that interfered in the UV region were removed, and diluted samples could be directly measured. The chromatographic system included C18 column, step methanol gradient, and detection at 225 nm with a single peak of Triton X-100 at 12.6 min. Both methods were validated and gave satisfactory results for accuracy, precision, specificity, linearity, and robustness. LOQ was slightly lower for the HPLC method. Hence, it was shown that both methods are suitable for analysis of residual amounts of Triton X-100, with the advantages of the UV method being its simplicity and availability in most laboratories.",
publisher = "Oxford Univ Press Inc, Cary",
journal = "Journal of AOAC International",
title = "Direct UV Spectrophotometry and HPLC Determination of Triton X-100 in Split Virus Influenza Vaccine",
pages = "400-396",
number = "2",
volume = "99",
doi = "10.5740/jaoacint.15-0201"
}
Pavlović, B., Cvijetić, N., Dragačević, L., Ivković, B., Vujić, Z.,& Kuntić, V.. (2016). Direct UV Spectrophotometry and HPLC Determination of Triton X-100 in Split Virus Influenza Vaccine. in Journal of AOAC International
Oxford Univ Press Inc, Cary., 99(2), 396-400.
https://doi.org/10.5740/jaoacint.15-0201
Pavlović B, Cvijetić N, Dragačević L, Ivković B, Vujić Z, Kuntić V. Direct UV Spectrophotometry and HPLC Determination of Triton X-100 in Split Virus Influenza Vaccine. in Journal of AOAC International. 2016;99(2):396-400.
doi:10.5740/jaoacint.15-0201 .
Pavlović, Bojana, Cvijetić, Nataša, Dragačević, Luka, Ivković, Branka, Vujić, Zorica, Kuntić, Vesna, "Direct UV Spectrophotometry and HPLC Determination of Triton X-100 in Split Virus Influenza Vaccine" in Journal of AOAC International, 99, no. 2 (2016):396-400,
https://doi.org/10.5740/jaoacint.15-0201 . .
