Abstract
While effective preventive vaccines induce intended protective immunity, they also induce unintended adverse events (AEs). Generally speaking, compared to killed, inactivated vaccines and protein vaccines, live attenuated vaccines induce more protective immune responses. However, live attenuated vaccines are also associated with more AEs and even more serious AEs. For example, while live attenuated smallpox vaccines were critical to the eradication of smallpox, approximately 20–30% of smallpox vaccine recipients also experienced with various AEs that range in prevalence and severity [1]. Inter-individual variations in cytokine and AE response after smallpox vaccinations are in part due to genetic variation. For another example, the attenuated oral poliovirus vaccine (OPV) efficiently induces intestinal immunity and durable humoral immunity. However, OPV has the disadvantage of genetic instability, contributing to rare and sporadic cases of vaccine-associated paralytic poliomyelitis and the emergence of genetically divergent vaccine-derived polioviruses [2]. These AEs are worsened in patients with primary immunodeficiencies. These results suggest that the intended protective immune responses and unintended adverse events are correlated and deserve being studied simultaneously.
Highlights
(i) The Vaccine Ontology (VO) is developed to ontologically represent licensed vaccines or experimentally verified vaccine candidates, vaccine components, and host immune responses to vaccines [3,4]
One missing domain of representation is the fundamental causal molecular interactions that eventually result in clinical phenotypes, which can be intended immune protection and unintended adverse events
In a recent publication [17], an ontological semantic framework is reported that links biological mechanisms to phenotypes of adverse events (AEs) by combining OAE with MedDRA in clinical FAERS drug case report data analysis
Summary
(i) The Vaccine Ontology (VO) is developed to ontologically represent licensed vaccines or experimentally verified vaccine candidates, vaccine components, and host immune responses to vaccines [3,4]. One missing domain of representation is the fundamental causal molecular interactions that eventually result in clinical phenotypes, which can be intended immune protection and unintended adverse events. In a recent publication [17], an ontological semantic framework is reported that links biological mechanisms to phenotypes of AEs by combining OAE with MedDRA in clinical FAERS drug case report data analysis.
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