M
Matthew J. Dalby
Researcher at University of Glasgow
Publications - 278
Citations - 18719
Matthew J. Dalby is an academic researcher from University of Glasgow. The author has contributed to research in topics: Nanotopography & Mesenchymal stem cell. The author has an hindex of 65, co-authored 260 publications receiving 16664 citations. Previous affiliations of Matthew J. Dalby include Autonomous University of Barcelona & Norwich Research Park.
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Journal ArticleDOI
Synergistic growth factor microenvironments.
TL;DR: The concept of synergistic GF/integrin signalling is introduced and GF delivery systems that were key in the development of more advanced synergistic growth factor microenvironments are introduced, which aim to maximise GF effects in vitro and in vivo.
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Surface mobility regulates skeletal stem cell differentiation
Cristina González-García,David Moratal,Richard O.C. Oreffo,Matthew J. Dalby,Manuel Salmerón-Sánchez +4 more
TL;DR: The findings indicate the potential to modulate skeletal progenitor cell commitment to the osteoblastic lineage through surface mobility of the underlying material surface.
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Luminal Surface Engineering, ‘Micro and Nanopatterning’: Potential for Self Endothelialising Vascular Grafts?
Debra Chong,Debra Chong,B. Lindsey,Matthew J. Dalby,N. Gadegaard,Alexander M. Seifalian,George Hamilton,George Hamilton +7 more
TL;DR: This technology may deliver small diameter grafts with the potential for spontaneous in situ endothelialisation without the need for prior 'seeding', with the ability to open a new chapter in vascular graft development.
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Titanium nanofeaturing for enhanced bioactivity of implanted orthopedic and dental devices
Terje Sjöström,Alistair S. Brydone,R. M. Dominic Meek,Matthew J. Dalby,Bo Su,Laura E. McNamara +5 more
TL;DR: This review discusses the different nanofabrication strategies that are available to generate nanofeatures in Ti and the cellular response to the resulting nanofeatured and concludes with a perspective about the future potential for use of nanotopographical features in a therapeutic setting.
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Nacre Topography Produces Higher Crystallinity in Bone than Chemically Induced Osteogenesis
Enateri V. Alakpa,Karl Burgess,Peter Chung,Mathis O. Riehle,Nikolaj Gadegaard,Matthew J. Dalby,Maggie Cusack +6 more
TL;DR: By isolating nacre topography from its inherent chemistry in the production of polycaprolactone (PCL) nacre replica, it is demonstrated that bone tissue that forms in response to the physical topographical features of nacre has a higher crystallinity than bone formed in Response to chemical cues.