Synthetic biology is revolutionizing vaccine innovation by enabling scientists to design and assemble novel vaccine components at a molecular level. This field utilizes engineering principles to create synthetic DNA, RNA, and proteins, allowing for precise control over vaccine composition. By using synthetic elements, researchers can develop vaccines with higher stability, enhanced immunogenicity, and greater adaptability to rapidly evolving pathogens. This innovation is particularly valuable in responding quickly to emerging diseases, as synthetic biology can significantly reduce vaccine development timelines. With this approach, it’s possible to engineer vaccines that target specific antigens, integrate novel adjuvants, and utilize advanced delivery methods. Synthetic biology not only paves the way for faster vaccine responses but also contributes to safer, more efficient vaccines for complex diseases, ensuring preparedness for global health challenges.
Khursheed Anwer
IMUNON, United States
Ping Xie
Rutgers University, United States
Regina Au
BioMarketing Insight, United States
Madhu Khanna
University of Delhi, India
Lara Isis Teodoro
Mayo Clinic, United States
Ahmed Abdulazeez
BHRUT Trust, United Kingdom
Elena Chiappini
University of Florence, Italy
Ayesha Zahid
Griffith University, Australia
Livia Daflon Silva
Federal University of State of Rio de Janeiro, Brazil
Neha Bhandari
Chitkara University, IndiaSubmit your abstract Today
Title : A promising novel approach to DNA vaccines
Khursheed Anwer, IMUNON, United States
Title : Nanoscopic SubATVax™ adjuvanted vaccines against influenza A types H3N2, H1N1 and influenza type B for subcutaneous administration
David Craig Wright, D4 Labs, LLC, United States
Title : The importance of post-marketing surveillance and real-world data: For a product to be successful
Regina Au, BioMarketing Insight, United States
Title : Prophylactic and molecular approaches for mitigating human influenza A viruses: i. Evaluating influenza vaccine effectiveness in the older population ii. Down-regulation of influenza virus genes with novel sirna-chimeric-ribozyme constructs
Madhu Khanna, University of Delhi, India
Title : Homology analysis of MPXV and VACV peptides underscores the need to consider both MPXV clades for vaccine development
Lara Isis Teodoro, Mayo Clinic, United States
Title : High seroprevalence of RSV antibodies in adults indicates potential undetected transmission and requires further public health assessment
Lara Isis Teodoro, Mayo Clinic, United States
Title : Commensal bacteria drive B-cell lymphomagenesis in the setting of innate immunodeficiency
Ping Xie, Rutgers University, United States
Title : The role of immunity in the pathogenesis of SARS-COV-2 and in the protection generated by COVID-19 in different age groups
Ahmed Abdulazeez, BHRUT Trust, United Kingdom
Title : Establishing a platform method for physical appearance assessment of new parenteral pharmaceuticals
Ying Wan, Merck & Co., United States
Title : Tubercular disease in children: Optimizing treatment strategies through disease insights
Elena Chiappini, University of Florence, Italy