Explores the immune system's defense mechanisms, including epithelial barriers, innate immunity, adaptive immunity, B and T cells, antibodies, and immunological memory.
Covers precision tumor recognition, challenges in T cell therapy, vaccination impact, history, types, and examples of vaccines, immune response, and COVID-19 vaccine types.
Covers the evasion of immune pressure by tumors, cancer immunotherapies, drug delivery strategies, and the impact of nanoparticle characteristics on tumor penetration.
Covers the immune system's defense mechanisms against pathogens, including physical barriers, innate immunity, immune cell functions, and the complement system.
Explores the activation and differentiation of T lymphocytes, focusing on naive T cells recognizing antigens and differentiating into effector and memory cells.
Explores the basic concepts and translational opportunities in immunometabolism, emphasizing the intricate interactions between immune cells and different cell types.
Explores the challenges and triumphs in designing immunogenic vaccines, focusing on antigens, adjuvants, and the delivery strategies for effective vaccination.
Explores the history, mechanisms, and players of cancer immunotherapies, including immune evasion strategies and the role of MHC in antigen presentation.
Explores the immune system's protection levels, antibodies' structure and production, vaccines' history and components, and materials in immune engineering.
