Interplay Between Biomaterials and the Immune System: Challenges and Opportunities in Regenerative Medicine
Overview
Affiliations
The use of biomaterials for tissue engineering and regenerative medicine applications has increased dramatically over recent years. However, the clinical uptake of a wide variety of biomaterials remains limited due to adverse effects commonly exhibited by patients, which are caused by the host immune response. Despite this, current in vitro evaluation standards (ISO-10993) for assessing the host response to biomaterials have limitations in predicting the likelihood of in vivo biomaterial acceptance. Furthermore, endotoxin contamination of biomaterials is rarely considered, despite its ability to significantly affect the performance of biomaterials and engineered tissues. This review highlights the importance of the immune response to biomaterials and discusses existing challenges and opportunities in the development and standardised assessment of the immune response to biomaterials, including the importance of endotoxin levels. In addition, the properties of biomaterials that impact the host immune response and the exploitation of immunomodulatory biomaterials in regenerative medicine are explored. Finally, a standardised in vitro pathway of evaluating the immune response to biomaterials (hydrogels) and their regenerative potential is proposed, aiming to ensure safety and consistency, while reducing costs and the use of animals in the biomaterials research for tissue engineering and regenerative medicine. STATEMENT OF SIGNIFICANCE: This review presents a critical analysis of the role of the interactions between the immune system and biomaterials in determining the therapeutic success of biomaterial-based approaches. No such review addressing the lack of understanding of biomaterial-immune system interactions during the developmental and pre-clinical stages of biomaterials, including the impact of the endotoxin levels of biomaterials on the immune response, is published. As there is a lack of in vitro regulations to evaluate the immune response to biomaterials, a standardised in vitro pathway to evaluate the immune response to biomaterials (hydrogels) and their immunomodulatory and regenerative potential for use in tissue engineering/regenerative medicine applications is presented. The aim of the proposed pathway of biomaterial evaluation is to ensure safety and consistency in the biomaterials research community, while reducing costs and animal use (through the concept of the 3R's - reduction, refinement, and replacement of animals).
Gielen A, Leijten N, Balraadjsing P, Braakhuis H, Abee H, Arts J Front Bioeng Biotechnol. 2025; 13:1504883.
PMID: 40059888 PMC: 11885263. DOI: 10.3389/fbioe.2025.1504883.
Peltokallio N, Noel S, Bolen G, Kuure S, Raussi-Lehto E, Reyes G PLoS One. 2025; 20(2):e0317859.
PMID: 39992971 PMC: 11849868. DOI: 10.1371/journal.pone.0317859.
Beyond Needles: Immunomodulatory Hydrogel-Guided Vaccine Delivery Systems.
Rana M, Demirkaya C, De la Hoz Siegler H Gels. 2025; 11(1).
PMID: 39851978 PMC: 11764567. DOI: 10.3390/gels11010007.
The Paradoxical Immunomodulatory Effects of Chitosan in Biomedicine.
Reay S, Marina Ferreira A, Hilkens C, Novakovic K Polymers (Basel). 2025; 17(1.
PMID: 39795422 PMC: 11723117. DOI: 10.3390/polym17010019.
Junior H, Duchemin B, Azzaye S, Soares M, Schneider B, Romoaldo C Polymers (Basel). 2024; 16(21).
PMID: 39518294 PMC: 11548690. DOI: 10.3390/polym16213086.