Colin Scotchford

Contact

• workRoom C40 Coates
  University Park
  Nottingham
  NG7 2RD
  UK
• work0115 951 3742
• fax0115 951 3800
• colin.scotchford@nottingham.ac.uk

Biography

Colin Scotchford is part of the Advanced Materials Research Group.

Expertise Summary

My research interests are in biomaterials, with particular experience in materials for the repair or replacement of bone and cartilage. My research focuses on three specific aspects. These are, investigation of cell-material surface interactions down to the molecular level, application of developing methodologies for the assessment of biocompatibility and the development of novel biomaterials for application in the areas indicated above. These areas have natural overlaps and as such provide a cohesive research structure.

Research Summary

Current research can be grouped under cell-material surface interactions, biocompatibility assessment or the development of novel materials or structures for the repair or replacement of tissues such… read more

Recent Publications

• PITROLINO, K. A., FELFEL, R. M., PELLIZZERI, L. M., MCLAREN, J., POPOV, A. A., SOTTILE, V., SCOTCHFORD, C. A., SCAMMELL, B. E., ROBERTS, G. A. F. and GRANT, D. M., 2022. Development and in vitro assessment of a bi-layered chitosan-nano-hydroxyapatite osteochondral scaffold: Carbohydrate Polymers Carbohydrate Polymers. 282,
• MILBORNE, B., MURRELL, L., CARDILLO-ZALLO, I., TITMAN, J., BRIGGS, L., SCOTCHFORD, C., THOMPSON, A., LAYFIELD, R. and AHMED, I., 2022. Developing Porous Ortho- and Pyrophosphate-Containing Glass Microspheres; Structural and Cytocompatibility Characterisation: Bioengineering Bioengineering. 9(11),
• MABWA D, KUBIEN T, PARNELL H, SU R, FURNISS D, TANG Z, LEACH R K, BENSON T M, SCOTCHFORD C A and SEDDON A B, 2021. Evaluating the cytotoxicity of Ge-Sb-Se chalcogenide glass optical fibres on 3T3 mouse fibroblasts RSC Advances.
• WANG, J., WU, M., LIU, J., XU, F., HUSSAIN, T., SCOTCHFORD, C. and HOU, X., 2021. Metallic skeleton promoted two-phase durable icephobic layers: Journal of Colloid and Interface Science Journal of Colloid and Interface Science. 587, 47-55

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Current Research

Current research can be grouped under cell-material surface interactions, biocompatibility assessment or the development of novel materials or structures for the repair or replacement of tissues such as cartilage and bone.

Cell-material surface interactions focuses on the relationship between material surface properties, protein adsorption and cell adhesion and function. There are three strands of current research under this grouping.

The first area draws on the thin film coating expertise in the School of M3, to develop biologically functionalised coatings for specific implant applications. This initiative has attracted industrial sponsorship.

The second area has developed with colleagues in the School of Biomedical Sciences to exploit proteomic methodologies to investigate early molecular level responses of cells to well characterisied material surfaces. The aims of this work are twofold. First to elucidate novel molecular events occurring in cells contacting material surfaces. Second to evaluate the diagnostic/screening potential of such methods in application to specific material/coating selection. This work has also attracted industrial funding. The initial work has identified the association of proteins not previously associated with cell adhesion events with such processes, opening the door to exciting research opportunities.

The third area of activity is a collaboration with colleagues in the Department of Mathematics, working on the development of new models of active cell motion on biomaterial surfaces. This is an exciting cross-disciplinary venture.

My research strategy is to link the more fundamental studies described above to research that is closer to clinical application. The best example of such a programme is the development of a novel degradable composite material for bone repair. This has involved significant biocompatibility assessment input at the centre of the programme for over 10 years.

More recent established material development areas include the development of novel scaffolds for tissue engineering applications, bioactive coatings for bone tissue integration and nanocomposites for bone repair applications.

Future Research

Research topics that are currently either at the stage of conception of initiation include:

The progression of the novel degradable composite for cranio-maxillofacial bone repair indicated under'current reasearch' from laboratory to clinic.

The application of cutting edge electron microscopy preparation methods for high resolution investigation of intact cell-material surface interfaces.

The development of nanocomposite biomaterials and assessment of nanoparticulate biocompatibility

Elaboration of research themes arising from the use of proteomic methodologies for the assessment of cell-material surface interactions

Investigation of the potential for material surface property modification to promote the desired differentiation of mesenchymal stem cells for tissue repair

I welcome enquiries from potential PhD candidates from Home, EU and international countries who are interested in the following research areas: Cell-material surface interactions, biocompatibility assessment or the development of novel materials or structures for the repair or replacement of tissues

• PITROLINO, K. A., FELFEL, R. M., PELLIZZERI, L. M., MCLAREN, J., POPOV, A. A., SOTTILE, V., SCOTCHFORD, C. A., SCAMMELL, B. E., ROBERTS, G. A. F. and GRANT, D. M., 2022. Development and in vitro assessment of a bi-layered chitosan-nano-hydroxyapatite osteochondral scaffold: Carbohydrate Polymers Carbohydrate Polymers. 282,
• MILBORNE, B., MURRELL, L., CARDILLO-ZALLO, I., TITMAN, J., BRIGGS, L., SCOTCHFORD, C., THOMPSON, A., LAYFIELD, R. and AHMED, I., 2022. Developing Porous Ortho- and Pyrophosphate-Containing Glass Microspheres; Structural and Cytocompatibility Characterisation: Bioengineering Bioengineering. 9(11),
• MABWA D, KUBIEN T, PARNELL H, SU R, FURNISS D, TANG Z, LEACH R K, BENSON T M, SCOTCHFORD C A and SEDDON A B, 2021. Evaluating the cytotoxicity of Ge-Sb-Se chalcogenide glass optical fibres on 3T3 mouse fibroblasts RSC Advances.
• WANG, J., WU, M., LIU, J., XU, F., HUSSAIN, T., SCOTCHFORD, C. and HOU, X., 2021. Metallic skeleton promoted two-phase durable icephobic layers: Journal of Colloid and Interface Science Journal of Colloid and Interface Science. 587, 47-55
• BANO, S., ROMERO, A. R., GRANT, D. M., NOMMEOTS-NOMM, A., SCOTCHFORD, C., AHMED, I. and HUSSAIN, T., 2021. In-vitro cell interaction and apatite forming ability in simulated body fluid of ICIE16 and 13-93 bioactive glass coatings deposited by an emerging suspension high velocity oxy fuel (SHVOF) thermal spray: Surface and Coatings Technology Surface and Coatings Technology. 407,
• SAMUEL C COE, MATTHEW D. WADGE, REDA M. FELFEL, IFTY AHMED, GAVIN S WALKER, COLIN A. SCOTCHFORD and DAVID M. GRANT, 2020. Production of High Silicon-Doped Hydroxyapatite Thin Film Coatings via Magnetron Sputtering: Deposition, Characterisation, and In Vitro Biocompatibility Coatings. 10(2), 190
• KAMPLEITNER, C., CHANGI, K., FELFEL, R. M., SCOTCHFORD, C. A., SOTTILE, V., KLUGER, R., HOFFMANN, O., GRANT, D. M. and EPSTEIN, M. M., 2020. Preclinical biological and physicochemical evaluation of two-photon engineered 3D biomimetic copolymer scaffolds for bone healing: Biomaterials Science Biomaterials Science. 8(6), 1683-1694
• ZABIDI, A. Z., LI, S., FELFEL, R. M., THOMAS, K. G., GRANT, D. M., MCNALLY, D. and SCOTCHFORD, C., 2019. Computational mechanical characterization of geometrically transformed Schwarz P lattice tissue scaffolds fabricated via two photon polymerization (2PP): Additive Manufacturing Additive Manufacturing. 25, 399-411
• PATEL, U., MACRI-PELLIZZERI, L., ZAKIR HOSSAIN, K. M., SCAMMELL, B. E., GRANT, D. M., SCOTCHFORD, C. A., HANNON, A. C., KENNEDY, A. R., BARNEY, E. R., AHMED, I. and SOTTILE, V., 2019. In vitro cellular testing of strontium/calcium substituted phosphate glass discs and microspheres shows potential for bone regeneration: Journal of Tissue Engineering and Regenerative Medicine Journal of Tissue Engineering and Regenerative Medicine.
• PROSSER, A., SCOTCHFORD, C., ROBERTS, G., GRANT, D. and SOTTILE, V., 2019. Integrated multi-assay culture model for stem cell chondrogenic differentiation: International Journal of Molecular Sciences International Journal of Molecular Sciences. 20(4),
• PROSSER, A., SCOTCHFORD, C., ROBERTS, G., GRANT, D. and SOTTILE, V., 2019. Integrated multi-assay culture model for stem cell chondrogenic differentiation: International Journal of Molecular Sciences International Journal of Molecular Sciences. 20(4),
• HOSSAIN, K. M. Z., FELFEL, R. M., OGBILIKANA, P. S., THAKKER, D., GRANT, D. M., SCOTCHFORD, C. A. and AHMED, I., 2018. Single Solvent-Based Film Casting Method for the Production of Porous Polymer Films: Macromolecular Materials and Engineering Macromolecular Materials and Engineering.
• HUI, D., GOODRIDGE, R. D., SCOTCHFORD, C. A. and GRANT, D. M., 2018. Laser sintering of nano-hydroxyapatite coated polyamide 12 powders: Additive Manufacturing Additive Manufacturing. 22, 560-570
• WANG, J., LIU, J., NEATE, N., BAI, M., XU, F., HUSSAIN, T., SCOTCHFORD, C. and HOU, X., 2018. Investigation on time-dependent wetting behavior of Ni-Cu-P ternary coating: Journal of Alloys and Compounds Journal of Alloys and Compounds. 765, 221-228
• FELFEL, R. M., GUPTA, D., ZABIDI, A. Z., PROSSER, A., SCOTCHFORD, C. A., SOTTILE, V. and GRANT, D. M., 2018. Performance of multiphase scaffolds for bone repair based on two-photon polymerized poly(D,L-lactide-co-ɛ-caprolactone), recombinamers hydrogel and nano-HA: Materials and Design Materials and Design. 160, 455-467
• FELFEL, R. M., GUPTA, D., ZABIDI, A. Z., PROSSER, A., SCOTCHFORD, C. A., SOTTILE, V. and GRANT, D. M., 2018. Performance of multiphase scaffolds for bone repair based on two-photon polymerized poly(D,L-lactide-co-ɛ-caprolactone), recombinamers hydrogel and nano-HA: Materials and Design Materials and Design. 160, 455-467
• FELFEL, R. M., GUPTA, D., ZABIDI, A. Z., PROSSER, A., SCOTCHFORD, C. A., SOTTILE, V. and GRANT, D. M., 2018. Performance of multiphase scaffolds for bone repair based on two-photon polymerized poly(D,L-lactide-co-epsilon-caprolactone), recombinamers hydrogel and nano-HA: Materials & Design Materials & Design. 160, 455-467
• FELFEL R, POOCZA L, GIMENO FABRA M, MILDE T, HILDEBRAND G, AHMED I, SCOTCHFORD C, SOTTILE V, GRANT DM and LIEFEITH K, 2016. In vitro degradation and mechanical properties of PLA-PCL copolymer unit cell scaffolds generated by two-photon polymerization (Article) Biomedical Materials (Bristol). 11, 1
• PARNELL H, BUTTERWORTH J H, SAKR H, TANG Z, FURNISS D, BENSON T M, SCOTCHFORD C and SEDDON A B, 2016. Ge-Sb-Se glass fiber-optics for in-vivo mid-infrared optical biopsy (Conference Paper) In: Progress in Biomedical Optics and Imaging - Proceedings of SPIE. 9703.
• R M FELFEL, LEANDER POOCZA, MIQUEL GIMENO-FABRA, TOBIAS MILDE, GERHARD HILDEBRAND, IFTY AHMED, COLIN SCOTCHFORD, VIRGINIE SOTTILE, DAVID M GRANT and KLAUS LIEFEITH, 2016. In vitro degradation and mechanical properties of PLA-PCL copolymer unit cell scaffolds generated by two-photon polymerization 11(1),
• PEGG E.C., MATBOLI F., MARRIOTT T., KHAN I., SCOTCHFORD C.A., 2014. Topographical and chemical effects of electrochemically assisted deposited hydroxyapatite coatings on osteoblast-like cells Journal of Biomaterials Applications.
• MOLES, MATTHEW D, SCOTCHFORD, COLIN A and CAMPBELL RITCHIE, ALASTAIR, 2014. Development of an elastic cell culture substrate for a novel uniaxial tensile strain bioreactor: Journal of Biomedical Materials Research Part A Journal of Biomedical Materials Research Part A. 102(7), 2356-2364
• MOLES, MATTHEW D., SCOTCHFORD, COLIN A. and CAMPBELL RITCHIE, ALASTAIR, 2014. Oxidation State of a Polyurethane Membrane after Plasma Etching: Conference Papers in Science Conference Papers in Science. 2014, 11
• K.T. VOISEY, C.A. SCOTCHFORD, L. MARTIN and H.S. GILL, 2014. Effect of Q-switched Laser Surface Texturing of Titanium on Osteoblast Cell Response Physics Procedia. 56, 1126–1135
• FRANCE, L. A., SCOTCHFORD, C. A., GRANT, D. M., RASHIDI, H., POPOV, A. A. and SOTTILE, V., 2014. Transient serum exposure regimes to support dual differentiation of human mesenchymal stem cells JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE. 8(8), 652-663
• POPOV, A., ROBERTS, G., GRANT, D., SCOTCHFORD, C. and SOTTILE, V., 2014. Optimisation of a dual porosity construct for osteochondral modelling JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE. 8, 84-85
• HASAN, M.S., AHMED, I., PARSONS, A.J., WALKER, G.S., SCOTCHFORD, C.A., 2013. The influence of coupling agents on mechanical property retention and long-term cytocompatibility of phosphate glass fibre reinforced PLA composites Journal of the Mechanical Behavior of Biomedical Materials. 1-14
• HASAN M.S., AHMED I., PARSONS A.J., RUDD C.D., WALKER G.S., SCOTCHFORD C.A., 2013. Investigating the use of coupling agents to improve the interfacial properties between a resorbable phosphate glass and polylactic acid matrix
• SHARMIN N., HASAN M.S., PARSONS A.J., FURNISS D., SCOTCHFORD C.A., AHMED I., RUDD C.D., 2013. Effect of boron addition on the thermal, degradation, and cytocompatibility properties of phosphate-based glasses BioMed Research International.
• HAN N, AHMED I, HARPER L, SCOTCHFORD CA, SCAMMELL BE and RUDD CD, 2012. Influence of screw holes on properties of phosphate glass fibre reinforced polylactic-acid composite plates Journal of Biomaterials Applications.
• HASAN MS, AHMED I, PARSONS AJ, RUDD CD, WALKER GS and SCOTCHFORD CA, 2012. Investigating the use of coupling agents to improve the interfacial properties between a resorbable phosphate glass and polylactic acid matrix Journal of Biomaterials Applications.
• HOSSAIN KMZ, JASMANI L, AHMED I, PARSONS AJ, SCOTCHFORD CA, THIELEMANS W and RUDD C, 2012. High cellulose nanowhisker content composites through cellulose bonding Soft Matter. 8(48), 12099-12110
• FRANCE, L.A., SCOTCHFORD, C.A., GRANT, D.M., RASHIDI, H., POPOV, A.A. and SOTTILE, V., 2012. Transient serum exposure regimes to support dual differentiation of human mesenchymal stem cells Journal of Tissue Engineering and Regenerative Medicine. n/a(n/a), n/a
• MS HASAN, I AHMED, AJ PARSONS, GS WALKER and CA SCOTCHFORD, 2012. Material characterisation and cytocompatibility assessment of quinternary phosphate glasses for totally resorbable composite. Journal of Materials Science: Materials in Medicine.
• MS HASAN, I AHMED, AJ PARSONS, GS WALKER and CA SCOTCHFORD, 2012. Cytocompatibility and mechanical properties of short phosphate glass fibre reinforced PLA composites: Effect of coupling agent mediated interface. Journal of Functional Biomaterials.
• MS HASAN, I AHMED, AJ PARSONS, GS WALKER and CA SCOTCHFORD, 2012. Cytocompatibility assessment of chemical surface treatments for phopshate glass to improve adhesion between glass and polyester. (In Press.)
• M.S. HASAN, I. AHMED, A.J. PARSONS, G.S. WALKER, C.A. SCOTCHFORD., 2012. Cytocompatibility Assessment of Chemical Surface Treatments for Phosphate Glass to Improve Adhesion between Glass and Polyester. Journal of Biomedical Materials Research: Part A.. (In Press.)
• LIANA CONT, DAVID GRANT, COLIN SCOTCHFORD, MILICA TODEA and CATALIN POPA, 2011. Composite PLA scaffolds reinforced with PDO fibres for tissue engineering. Journal of Biomaterials Applications.
• COLIN A SCOTCHFORD, 2009. Cell response to surfacr chemistry in biomaterials. In: LUCY DI SILVIO, ed., Cellular Response to Biomaterials Woodhead Publishing.
• COLIN A SCOTCHFORD, MATTHEW EVANS and ARCHANA VATS, 2008. Biomaterials, Tissue Engineering and their Applications. In: MICHAEL GLEESON, ed., Scott-Brown's Otorhinolaryngology, Head and Neck Surgery. seventh. Hodder Arnold.
• PARSONS, A.J., EVANS, M., RUDD, C.D. and SCOTCHFORD, C.A., 2004. Synthesis and degradation of sodium iron phosphate glasses and their in vitro cell response Journal of Biomedical Materials Research. Part A. 71(2), 283-291