Los Angeles, CA – December 4, 2025 – Dr. Vadim Jucaud’s lab at the Terasaki Institute has introduced a new organ-on-a-chip platform that recapitulates age-dependent immune responses, offering a more accurate testing bed for evaluating cancer vaccine performance in older adults, the population most affected by cancer and often overlooked in traditional preclinical testing.
Immunosenescence , the natural decline of the immune system with age, significantly reduces the effectiveness of cancer vaccines. Yet, despite its clinical importance, age-related immune decline is seldom incorporated into vaccine development pipelines. Current 2D culture systems are unable to capture these complex age-specific immune responses, thereby limiting their predictive value towards clinical translation.
To address this need, Dr. Vadim Jucaud’s research team at the Terasaki Institute developed a lymph node paracortex-inspired organ-on-a-chip platform that models key steps in cancer vaccine immune responses, which are characterized by antigen presentation, antigen-specific T cell activation, and downstream tumor-specific cytotoxicity. By comparing immune responses from young and older lymphocytes, the lymph node on-a-chip platform captures functional differences that naturally emerge with age.
Using this platform, the team demonstrated that young antigen-presenting cells displayed significantly stronger peptide presentation compared to old cells. This increased activity led to higher activation of antigen-specific T cells and enhanced cytotoxicity against cancer cells. Notably, these age-dependent differences were detectable only with the lymph node on-a-chip system, underscoring its ability to reveal biologically relevant immune variations that traditional 2D cultures cannot.
“This work introduces our lymph node on-a-chip platform for cancer vaccine testing,” said Dr. Vadim Jucaud, Principal Investigator and Assistant Professor at the Terasaki Institute. “Unlike traditional 2D models, this advanced system replicates age-related immune responses, which is critical because older adults face the highest cancer risk and often have diminished immunity. By accurately modeling these conditions in vitro , our platform enables more reliable insights into cancer vaccine performance, therefore accelerating development and improving outcomes.”
By more accurately reflecting the biology of aging, this novel platform offers a valuable tool for understanding how immunosenescence influences cancer vaccine efficacy. This technology may help guide the development of next-generation immunotherapies designed to meet the needs of older patients, ensuring that emerging cancer treatments support those who depend on them most.
A link to the publication can be found here: https://pubs.rsc.org/en/Content/ArticleLanding/2025/LC/D5LC00533G
A link to Dr. Vadim Jucaud’s lab page can be found here: https://terasaki.org/institute/research/investigators/vadim-jucaud-laboratory.html
For more information, please contact:
Vadim Jucaud, Ph.D.
Email: vjucaud@terasaki.org
About the Terasaki Institute for Biomedical Innovation
The Terasaki Institute for Biomedical Innovation is a non-profit research organization that invents and fosters practical solutions that restore or enhance the health of individuals. The Institute aims to enhance the quality of human life through translational research and the acceleration of biomedical innovation. TIBI's research focuses on the development of biomaterials, cellular and tissue engineering, medical devices, and microfluidic systems.
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Lab on a Chip
Experimental study
Not applicable
Lymph node paracortex-inspired on-a-chip recapitulating immunosenescence: a cancer vaccine immunogenicity and antitumoral efficacy screening platform
24-Nov-2025