Anticancer Therapies – Multimedia
Listicle
Cancer Immunotherapies: Transforming Treatment for Patients
Download this listicle to learn more about immune checkpoint inhibitors and immune system modulators, adoptive cell therapies and oncolytic viral therapy.
Listicle
Advances in Cancer Biology
According to the World Health Organization (WHO), cancer is a leading cause of death worldwide. Furthermore, recent estimates predict that as many as one in two people could develop a form of cancer in their lifetime.
eBook
Unlock the Potential of Your Preclinical Oncology Studies
This eBook explores how humanized mouse models can accelerate the development of novel, safe, and effective oncology treatment
Listicle
Five Applications of Single-Cell Analysis Technologies
Download this listicle to discover recent examples of how single-cell analysis methods are driving forward research into cancer, aging, and drug discovery and development.
App Note / Case Study
CAR T: A Promising Cell Therapy for Cancer Treatment
CAR-T cell therapy has emerged as one of the most promising novel treatments in the fight against cancer.
Infographic
Milestones in Cancer Immunology
The field of cancer immunology concerns the study of the interaction between the immune system and cancer cells.
eBook
Vaccine Development Pipeline
Vaccines are critical for the prevention of infectious diseases and improvement of global health. Better understanding of the immune system and the availability of advanced structural biology tools and genetic delivery systems have unlocked new possibilities to improve vaccine development.
eBook
Innovative Tools for Cancer Immunotherapies
This eBook highlights innovative tools to evaluate the potency of immunotherapies in vitro.
eBook
Drug Design and Discovery
This eBook will provide readers with an overview of drug discovery, design, kinetics and development, highlighting challenges and solutions, successes, various modalities and approaches.
App Note / Case Study
Metabolic Preconditioning for Improved CAR-T Cell Therapy
Metabolism is a key driver of CAR-T cell fitness and function. Hence, metabolic preconditioning methods can enhance the bioenergetic capacity of CAR-T cells in culture, supporting their persistence and antitumor activity
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