基本信息
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Career Trajectory
Bio
John’s research has focused on developing breakthrough therapies, devices and technology to repair, replace, augment and in the future regenerate diseased, infected and damaged tissues in humans and other mammals using material interventions.
Understanding the generic science to deliver interventional medical therapies requiring the use of a material (living cells are also considered a material). These will come from an in depth generic first principles approach to understanding and directing the patient’s cellular and molecular mechanisms and responses related to the clinical outcome and efficacy of medical devices, biocompatibility, inflammation and stem cell biology.
Tissue engineering processes are developed and applied, addressing the key areas of patient treatments requiring intervention and material implantation. The materials of choice being researched today also include cells and within that, expertise and intellectual property has been created relating to primary cell sourcing, controlling cell function and phenotype through defining and controlling extracellular matrix interactions, angiogenesis, inflammation, and tissue regeneration.
From a strong long lived generic research platform, specific applications and knowledge has been applied to and continue to be developed for musculoskeletal tissues specifically cartilage and bone, visceral and vascular tissues. Research has been funded by the European Commission, BBSRC, MRC and EPSRC as well as by Industry. Ph.D in 1992 and D.Sc. in 2006.
John has organised seven national and international conferences; the biggest being the European Society for Biomaterials meeting in 2014.
Research areas
The Cellular Response to Implanted Materials.
Tissue Engineering in vitro, in vivo and ex vivo.
Medical Materials including living materials (deriving and applying progenitor cells).
Diagnostics and health monitoring
Understanding the generic science to deliver interventional medical therapies requiring the use of a material (living cells are also considered a material). These will come from an in depth generic first principles approach to understanding and directing the patient’s cellular and molecular mechanisms and responses related to the clinical outcome and efficacy of medical devices, biocompatibility, inflammation and stem cell biology.
Tissue engineering processes are developed and applied, addressing the key areas of patient treatments requiring intervention and material implantation. The materials of choice being researched today also include cells and within that, expertise and intellectual property has been created relating to primary cell sourcing, controlling cell function and phenotype through defining and controlling extracellular matrix interactions, angiogenesis, inflammation, and tissue regeneration.
From a strong long lived generic research platform, specific applications and knowledge has been applied to and continue to be developed for musculoskeletal tissues specifically cartilage and bone, visceral and vascular tissues. Research has been funded by the European Commission, BBSRC, MRC and EPSRC as well as by Industry. Ph.D in 1992 and D.Sc. in 2006.
John has organised seven national and international conferences; the biggest being the European Society for Biomaterials meeting in 2014.
Research areas
The Cellular Response to Implanted Materials.
Tissue Engineering in vitro, in vivo and ex vivo.
Medical Materials including living materials (deriving and applying progenitor cells).
Diagnostics and health monitoring
Research Interests
Papers共 393 篇Author StatisticsCo-AuthorSimilar Experts
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Anna Lipońska,Laura Monlezun, Isaac Wilkins,Saravuth Ngo, Thomas Oïffer, Cylia Bouchachi,John F. Hunt,Daniel P. Aalberts,Grégory Boël
crossref(2024)
Scientific reportsno. 1 (2024): 11065-11065
TISSUE ENGINEERING PART Ano. 13-14 (2023)
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TISSUE ENGINEERING PART Ano. 13-14 (2023)
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Advanced Materials Interfaces (2022)
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