TY - JOUR
KW - AAV gene therapy
KW - Immunogenicity
KW - microphysiological systems
KW - organoids
KW - organs-on-chips
KW - Preclinical testing
KW - toxicity
AU - Patrizia Tornabene
AU - Estelle Berreur
AU - Adrian Roth
AU - Magdalena Kasendra
AB - While adeno-associated viral (AAV) vectors are the leading platform in gene therapy - with eight regulatory-approved products spanning multiple disease areas - their clinical performance remains only partially predictable. A major challenge lies in the discrepancy between preclinical model predictions and clinical outcomes, particularly with respect to adverse events such as liver toxicity, immune responses, and tissue tropism. Microphysiological systems (MPS), including organoids and organs-on-chips, offer a promising and powerful approach to address some of these challenges. As emerging "New Approach Methodologies (NAMs)" they provide a human-relevant context to evaluate AAV vectors for tropism, safety, and efficacy, thereby helping to de-risk and accelerate their development. This trajectory is further reinforced by recent initiatives such as the FDA Modernization Act 2.0 and the NIH's Office of Research Innovation, Validation, and Application (ORIVA), both of which promote the adoption and qualification of human-based models in biomedical research. This review summarizes the latest advances in the application of MPS technologies to AAV evaluation, outlines their current limitations and proposes a framework for their integration into AAV development pipeline. Ultimately, MPS could serve as a valuable "human-relevant filter" to prioritize vectors with the highest likelihood of clinical success, ensuring that only the safest and most effective candidates advance to patients.
BT - Advanced Drug Delivery Reviews
DA - 2026-03-05
DO - 10.1016/j.addr.2026.115841
LA - eng
N2 - While adeno-associated viral (AAV) vectors are the leading platform in gene therapy - with eight regulatory-approved products spanning multiple disease areas - their clinical performance remains only partially predictable. A major challenge lies in the discrepancy between preclinical model predictions and clinical outcomes, particularly with respect to adverse events such as liver toxicity, immune responses, and tissue tropism. Microphysiological systems (MPS), including organoids and organs-on-chips, offer a promising and powerful approach to address some of these challenges. As emerging "New Approach Methodologies (NAMs)" they provide a human-relevant context to evaluate AAV vectors for tropism, safety, and efficacy, thereby helping to de-risk and accelerate their development. This trajectory is further reinforced by recent initiatives such as the FDA Modernization Act 2.0 and the NIH's Office of Research Innovation, Validation, and Application (ORIVA), both of which promote the adoption and qualification of human-based models in biomedical research. This review summarizes the latest advances in the application of MPS technologies to AAV evaluation, outlines their current limitations and proposes a framework for their integration into AAV development pipeline. Ultimately, MPS could serve as a valuable "human-relevant filter" to prioritize vectors with the highest likelihood of clinical success, ensuring that only the safest and most effective candidates advance to patients.
PY - 2026
EP - 115841
T2 - Advanced Drug Delivery Reviews
TI - Microphysiological systems to accelerate and de-risk AAV gene therapy development
VL - 233
SN - 1872-8294
ER -