CN Bio’s Lung-on-a-Chip technology will enable research into therapies to prevent interstitial lung disease and long-term lung impairment, following SARS-CoV-2 infection
CN Bio’s Lung-on-a-Chip technology will enable research into therapies to prevent interstitial lung disease and long-term lung impairment, following SARS-CoV-2 infection
CAMBRIDGE, England & MELBOURNE, Australia--(BUSINESS WIRE)-- CN Bio, a leading cell culture company, that has developed single and multi-organ microphysiological systems (MPS) to improve the accuracy and efficiency of drug discovery, today announced a collaboration with the University of Melbourne, focused on respiratory therapies for recovering COVID-19 patients. Harnessing CN Bio’s Organ-on-a-Chip technology, the aim of the research is to develop a model capable of recapitulating the fibrosis and tissue remodelling seen in chronic interstitial lung disease, often occurring following SARS-CoV-2 infection. Subsequently, the University will investigate anti-inflammatory, anti-fibrotic and anti-viral agents to treat patients.
For patients suffering from the chronic complications of COVID-19, many long-term health effects have been identified, including respiratory complications resulting from interstitial lung disease. Through the collaboration, CN Bio’s Sydney-based distributor, AXT, will provide the University of Melbourne access to the Company’s proprietary PhysioMimix™ Organ-on-Chip system, to create a more human-relevant COVID-infected lung culture than current in vitro standards that use monkey fibroblasts. Led by Professor Alastair Stewart, the research team will adopt the lung model to elicit physiologically comparable inflammation and cytokine responses following drug testing; to support development of novel therapies, aiming to prevent a second wave of late mortalities associated with the medium-term morbidity.
To further improve translatability of the COVID-19 infected lung culture, CN Bio’s technology will enable researchers to create an organotypic air-liquid interface, which has more utility than the organoid approach, in which cilia within the structure make it difficult to study viral infection. Additionally, viable cell culture time is predicted to be prolonged (currently 1 week), allowing for an extended study of infection and pharmacology drug intervention.
“The COVID-19 pandemic has affected everyone’s lives; we are honoured to apply our Organ-on-a-Chip capabilities to support this invaluable research addressing its ongoing complications. Selection for this project by the University of Melbourne, one of the world’s top research institutions, is a privilege for our team.” commented Dr Audrey Dubourg, Product Manager, CN Bio. “We look forward to working with Professor Alastair Stewart and his group, who will be supported by our Australian distributor, AXT, leading experts in high-tech scientific equipment.”
Professor Alastair Stewart, Director of the ARC Centre for Personalised Therapeutics Technologies, University of Melbourne, said: “If we are to avert a second wave of late mortality caused by this pandemic, research into drugs that can treat interstitial lung disease in COVID-recovered patients is crucial. Harnessing CN Bio’s microphysiological technology, we hope to enhance our understanding of the molecular mechanisms and pharmacological effects of drugs capable of treating patients that suffer with the respiratory complications.”
For more information about CN Bio’s Organ-on-a-Chip technology, visit: https://cn-bio.com/organ-on-chip/
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Lily Jeffery
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Email: lily.jeffery@zymecommunications.com
Source: CN Bio
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