Polyanhydride-Based Microparticles for Programmable Pulsatile Release of Diphtheria Toxoid (DT) for Single-Injection Self-Boosting Vaccines

Author(s)

Zhang, Linzixuan; Xiao, Ruiqing; Gao, Wenhao; Garcia, Johnny; Pan, Xinyan; Daristotle, John L; Forster, Timothy; Han, Jooli; Chaddah, Mehr; Varshney, Dhruv; Menon, Nandita; McHugh, Kevin J; Pedretti, Benjamin J; Yeo, Jing Ying; Yang, Xin; MacDonald, Sydney; Langer, Robert; Jaklenec, Ana; ... Show more Show less

Abstract

Single‐Injection Self‐Boosting Vaccines A single‐injection platform for self‐boosting vaccines is developed using a polyanhydride‐based delivery system. The platform enables pulsatile antigen release, protects pH‐sensitive cargo, and elicits immune responses comparable to traditional multi‐dose regimens. Machine learning enhances design by accurately predicting release profiles, offering a promising solution to improve global vaccine coverage and reduce under‐immunization. More details can be found in article number 2501168 by Robert Langer, Ana Jaklenec, and co‐workers.

Date issued

2025-08-14

URI

https://hdl.handle.net/1721.1/163057

Department

Massachusetts Institute of Technology. Department of Chemical Engineering
Koch Institute for Integrative Cancer Research at MIT
Massachusetts Institute of Technology. Department of Biological Engineering

Journal

Advanced Materials

Publisher

Wiley

Citation

L. Zhang, R. Xiao, W. Gao, J. Garcia, X. Pan, J. L. Daristotle, T. Forster, J. Han, M. Chaddah, D. Varshney, N. Menon, K. J. McHugh, B. J. Pedretti, J. Y. Yeo, X. Yang, S. MacDonald, R. Langer, A. Jaklenec, Polyanhydride-Based Microparticles for Programmable Pulsatile Release of Diphtheria Toxoid (DT) for Single-Injection Self-Boosting Vaccines. Adv. Mater. 2025, 37, 2501168.

Version: Final published version