Advances in lung bioengineering: Where we are, where we need to go, and how to get there

Hsiung, Tiffany; James, Les; Chang, Stephanie H.; Geraci, Travis C.; Angel, Luis F.; Chan, Justin

doi:10.3389/frtra.2023.1147595

Front. Transplant.

2023

DOI: 10.3389/frtra.2023.1147595

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Advances in lung bioengineering: Where we are, where we need to go, and how to get there

Tiffany Hsiung

Les James

Stephanie H. Chang

et al.

Abstract: Lung transplantation is the only potentially curative treatment for end-stage lung failure and successfully improves both long-term survival and quality of life. However, lung transplantation is limited by the shortage of suitable donor lungs. This discrepancy in organ supply and demand has prompted researchers to seek alternative therapies for end-stage lung failure. Tissue engineering (bioengineering) organs has become an attractive and promising avenue of research, allowing for the customized production of … Show more

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2024

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Lung regeneration and lung bioengineering

Cohen

2024

Current Opinion in Anaesthesiology

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Purpose of review Chronic obstructive pulmonary disease affects more than 65 million people worldwide. Lung transplantation is the only definitive treatment. However, donor availability is limited in meeting the demand. Recent findings Lung regeneration is a new therapeutic strategy that uses the patient's stem cells to replace dysfunctional tissue and restore functional lung tissue rather than alleviate symptoms. Organoids are a new promising target for human lung regeneration. The AEP cells are isolated from human lung tissue for growth. The 3D organ-like structures conserve the alveolar progenitor's capacity to proliferate and differentiate into various epithelial cell types. Bioengineered organs, from a patient's cells, allow for customized biocompatible organs-on-demand without the need for immunosuppressive therapy. The concept involves the creation of a form of 3D tissue scaffold, to be populated by cells of the desired tissue to be transplanted into the patient, allowing for function as closely to the native organ as possible. Summary The lung's ability to regenerate extensively after injury suggests that this capability could be promoted in diseases in which loss of lung tissue occurs. Lung bioengineering offers the potential to drastically extend life expectancy in patients with end-stage lung disease. If lung reengineering were successful, it would revolutionize the world of transplantation.

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Lung regeneration and lung bioengineering

Cohen

2024

Current Opinion in Anaesthesiology

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show abstract

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Advances in lung bioengineering: Where we are, where we need to go, and how to get there

Cited by 1 publication

References 83 publications

Lung regeneration and lung bioengineering

Lung regeneration and lung bioengineering

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