Explores immunoengineering for precise antibody responses and modulation of immunodominance, focusing on vaccine development challenges and innovative strategies.
Introduces the emerging field of immunoengineering, covering interactions between engineering and immunology, genetically engineered immune cells for cancer therapy, and key technologies in immunological analysis.
Covers the immune system's defense mechanisms against pathogens, including physical barriers, innate immunity, immune cell functions, and the complement system.
Explores the history, mechanisms, and players of cancer immunotherapies, including immune evasion strategies and the role of MHC in antigen presentation.
Explores the basic concepts and translational opportunities in immunometabolism, emphasizing the intricate interactions between immune cells and different cell types.
Explores immunoengineering, focusing on genetically engineered immune cells, key technologies in immunological analysis, and the role of mechanical force in the immune system.
Covers the evasion of immune pressure by tumors, cancer immunotherapies, drug delivery strategies, and the impact of nanoparticle characteristics on tumor penetration.
