Cell-free biodegradable electroactive scaffold for urinary bladder regeneration

Ameer, Guillermo; Keate, Rebecca; Bury, Matthew; Mendez-Santos, Maria; Gerena, Andres; Goedegebuure, Madeleine; Rivnay, Jonathan; Sharma, Arun

doi:10.21203/rs.3.rs-3817836/v1

2024

DOI: 10.21203/rs.3.rs-3817836/v1

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Cell-free biodegradable electroactive scaffold for urinary bladder regeneration

Guillermo Ameer,

Rebecca Keate,

Matthew Bury

et al.

Abstract: Tissue engineering heavily relies on cell-seeded scaffolds to support the complex biological and mechanical requirements of a target organ. However, in addition to safety and efficacy, translation of tissue engineering technology will depend on manufacturability, affordability, and ease of adoption. Therefore, there is a need to develop scalable biomaterial scaffolds with sufficient bioactivity to eliminate the need for exogenous cell seeding. Herein, we describe synthesis, characterization, and implementation… Show more

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Recent advances in innovative biomaterials for promoting bladder regeneration: processing and functionalization

Zhang,

Ding,

Han

et al. 2025

Front. Bioeng. Biotechnol.

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The bladder is a dynamic organ located in the lower urinary tract, responsible for complex and important physiological activities in the human body, including collecting and storing urine. Severe diseases or bladder injuries often lead to tissue destruction and loss of normal function, requiring surgical intervention and reconstruction. The rapid development of innovative biomaterials has brought revolutionary opportunities for modern urology to overcome the limitations of tissue transplantation. This article first summarized the latest research progress in the processing approaches and functionalization of acellular matrix, hydrogels, nanomaterials, and porous scaffolds in repairing and reconstructing the physiological structure and dynamic function of damaged bladder. Then, we discussed emerging strategies for bladder regeneration and functional recovery, such as cell therapy, organoids, etc. Finally, we outlined the important issues and future development prospects of biomaterials in bladder regeneration to inspire future research directions. By reviewing these innovative biomaterials and technologies, we hope to provide appropriate insights to achieve the ultimate goal of designing and manufacturing artificial bladder substitutes with ideal performance in all aspects.

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Recent advances in innovative biomaterials for promoting bladder regeneration: processing and functionalization

Zhang,

Ding,

Han

et al. 2025

Front. Bioeng. Biotechnol.

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show abstract

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Cell-free biodegradable electroactive scaffold for urinary bladder regeneration

Cited by 1 publication

References 79 publications

Recent advances in innovative biomaterials for promoting bladder regeneration: processing and functionalization

Recent advances in innovative biomaterials for promoting bladder regeneration: processing and functionalization

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