Towards advanced regenerative therapeutics to tackle cardio-cerebrovascular diseases DOI Creative Commons
Xi Chen,

Weiping Lin,

Micky D. Tortorella

et al.

American Heart Journal Plus Cardiology Research and Practice, Journal Year: 2025, Volume and Issue: 53, P. 100520 - 100520

Published: March 1, 2025

The development of vascularized organoids as novel modelling tools the human cardio-cerebrovascular system for preclinical research has become an essential platform studying tissues/organs personalized therapeutics during recent decades. Organ-on-chip technology is promising investigating physiological in vitro responses drug screening and advanced disease models. Vascularized tissue/organ-on-a-chip benefits every step discovery pipeline a tool with close genome relevance to investigate systems biology. Simultaneously, cardio-cerebrovascular-on-chip-integrated microfluidic serves alternative animal (patho-)physiological processes blood vessels embryonic disease. Integrated next-generation techniques, such three-dimensional bioprinting both cells matrix, may enable organoid-on-chip-based therapeutics.

Language: Английский

Towards advanced regenerative therapeutics to tackle cardio-cerebrovascular diseases DOI Creative Commons
Xi Chen,

Weiping Lin,

Micky D. Tortorella

et al.

American Heart Journal Plus Cardiology Research and Practice, Journal Year: 2025, Volume and Issue: 53, P. 100520 - 100520

Published: March 1, 2025

The development of vascularized organoids as novel modelling tools the human cardio-cerebrovascular system for preclinical research has become an essential platform studying tissues/organs personalized therapeutics during recent decades. Organ-on-chip technology is promising investigating physiological in vitro responses drug screening and advanced disease models. Vascularized tissue/organ-on-a-chip benefits every step discovery pipeline a tool with close genome relevance to investigate systems biology. Simultaneously, cardio-cerebrovascular-on-chip-integrated microfluidic serves alternative animal (patho-)physiological processes blood vessels embryonic disease. Integrated next-generation techniques, such three-dimensional bioprinting both cells matrix, may enable organoid-on-chip-based therapeutics.

Language: Английский

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