RESUMEN
ObjectiveThis study explored the application of Yiqi Zengmian prescription as a vaccine adjuvant, aiming to provide a new scheme for the prevention and control of corona virus disease 2019(COVID-19) with traditional Chinese medicine (TCM). By analyzing the compatibility and efficacy, this paper examines the compatibility effect of Yiqi Zengmian prescription, which is modified from the classic tonifying agent Si Junzitang, as a vaccine adjuvant. MethodUsing the Database of Ancient Classical Prescriptions, this paper analyzed the composition of Yiqi Zengmian prescription and probed into the theoretical basis for the compatibility of this prescription from the properties, medicine combination, and efficacy. Furthermore, the compatibility effect of this prescription with vaccines was analyzed. ResultAs a TCM prescription, Yiqi Zengmian prescription focuses on the lung and spleen and enhances the Qi in the two organs. The lung governs Qi movement. The body breathes fresh air through the lungs and exchanges the turbid gas in the lungs, and the gas circulates alternately in the lungs to ensure the normal breathing of the human body. The spleen governing transportation and transformation is the hub for Qi movement, and Qi is the embodiment of metabolic function. By regulating qi movement and enhancing the functions of Qi and blood, Yiqi Zengmian prescription can enhance the immunogenicity of the vaccine, which provides a theoretical basis for enhancing the immune effects of vaccines. ConclusionYiqi Zengmian prescription has the effects of replenishing Qi and invigorating spleen, regulating Qi and drying dampness, and enhancing immunity. The in-depth analysis of the TCM theory of Yiqi Zengmian prescription as a vaccine adjuvant and the results of clinical and laboratory studies suggest that Yiqi Zengmian prescription may enhance the induction of immune response after vaccination and maintain the immune memory. However, the mechanism of Yiqi Zengmian prescription in regulating the complex immune network remains to be elucidated.
RESUMEN
Vaccines are some of the most effective tools for the prevention of infectious diseases. Adjuvants are included in vaccines for a variety of reasons: to increase the breadth of response, to lower antigen dose, to overcome limited immune response in some populations, or to enable complex combination vaccines. This study aims to review the safety of licensed vaccine adjuvants and describe their mechanism of action. Potential publications for inclusion were identified through a direct search of PubMed/Medline database. Results of online literature searches were supplemented by relevant papers cited in published studies along with the authors’ knowledge of published studies. To date, there are 5 licensed vaccine adjuvants in US and Europe: Aluminum salts (EU, US), MF59 (EU), AS03 (EU), AS04 (EU, US), and virosomes (EU). AS03 is not available as an adjuvant in other vaccines but included within the US government’s National Stockpile. All vaccines that contain these adjuvants have been proven safe in clinical trials and post-marketing studies, with the exception of the AS03, for which the rare events of narcolepsy have been reported in some countries. Every adjuvant has a complex and often multifactorial immunological mechanism, usually poorly understood in vivo. The safety profile of an adjuvant, including the actual and hypothetical risks, is a critical component that can speed up or impede adjuvant development. The increasing understanding in adjuvant sciences is fundamental to the further development of new adjuvants.
RESUMEN
Vaccines are some of the most effective tools for the prevention of infectious diseases. Adjuvants are included in vaccines for a variety of reasons: to increase the breadth of response, to lower antigen dose, to overcome limited immune response in some populations, or to enable complex combination vaccines. This study aims to review the safety of licensed vaccine adjuvants and describe their mechanism of action. Potential publications for inclusion were identified through a direct search of PubMed/Medline database. Results of online literature searches were supplemented by relevant papers cited in published studies along with the authors’ knowledge of published studies. To date, there are 5 licensed vaccine adjuvants in US and Europe: Aluminum salts (EU, US), MF59 (EU), AS03 (EU), AS04 (EU, US), and virosomes (EU). AS03 is not available as an adjuvant in other vaccines but included within the US government’s National Stockpile. All vaccines that contain these adjuvants have been proven safe in clinical trials and post-marketing studies, with the exception of the AS03, for which the rare events of narcolepsy have been reported in some countries. Every adjuvant has a complex and often multifactorial immunological mechanism, usually poorly understood in vivo. The safety profile of an adjuvant, including the actual and hypothetical risks, is a critical component that can speed up or impede adjuvant development. The increasing understanding in adjuvant sciences is fundamental to the further development of new adjuvants.
RESUMEN
This study investigated the adjuvant potential of W/O/W multiple emulsions and microemulsions, comparing them with traditional aluminum hydroxide and oil-in-water emulsion adjuvants against bluetongue vaccine (BTV). Local inflammatory reactions were assessed in rabbits by measuring the temperature of the animals and the skin thickness at the site of application. Antibodies titers were determined by serum-neutralization test. Histological analyses of lesions at the site of adjuvants application were done. Results showed that multiple emulsion and microemulsion maintained their stability even in the presence of complex components and presented adequate characteristics for subcutaneous administration. They were able to induce immune response against BTV, but it was smaller than the traditional adjuvants. Despite microemulsion adjuvant showed lower antibodies titre, it was easier to prepare more stable at 4°C and it was the only one that did not induce any local reaction.