Viral vectors are engineered viruses that deliver genetic material encoding antigens into cells, prompting an immune response without causing disease. Commonly used vectors include adenoviruses and lentiviruses, chosen for their ability to efficiently enter cells and produce strong immune responses. Viral vectors are highly versatile, allowing for the delivery of multiple antigens simultaneously, which is beneficial for creating vaccines against complex pathogens. They have been instrumental in the development of several vaccines, including the COVID-19 vaccines. Viral vectors also offer advantages in stability and ease of production, making them a valuable tool in vaccine development for infectious diseases and cancer. However, their use requires careful design to prevent unintended immune reactions and ensure safety across diverse populations.
Khursheed Nadeem Anwer
IMUNON, United States
Ping Xie
Rutgers University, United States
Regina Au
BioMarketing Insight, United States
Madhu Khanna
University of Delhi, India
Ahmed Abdulazeez
BHRUT Trust, United KingdomSubmit your abstract Today
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Regina Au, BioMarketing Insight, United States
Title : Nanoscopic SubATVax™ adjuvanted vaccines against influenza A types H3N2, H1N1 and influenza type B for subcutaneous administration
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Ahmed Abdulazeez, BHRUT Trust, United Kingdom
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Delia Teresa Sponza, Dokuz Eylul University, Turkey
Title : Overcoming biophysical characterization challenges of small antigens in dilute vaccine formulations
Eric Kemp, Merck & Co., United States
Title : Commensal bacteria drive B-cell lymphomagenesis in the setting of innate immunodeficiency
Ping Xie, Rutgers University, United States
Title : A combined LC-MS and immunoassay approach to characterize preservative-induced destabilization of human papillomavirus virus-like particles adsorbed to an aluminum-salt adjuvant
Ria T Caringal, University of Kansas, United States