UG and PG Biomedical Science (BMS) Degrees, as well we STP Reconstructive Sciences
Biomedical Sciences Pathology Science Cell Pathology
Musculo-skeletal Tissue Engineering Mechanical and Perfusion Bioreactors Characterisation and processing of Biomaterials Validation of tissue engineering mathematical models X-Ray microtomography of soft tissues and cells X-Ray radiation damage to mesenchymal stem cellsIn vitro Cardiovascular Substitutes
Biomedical sciences Clinical Engineering
F. Tantakitti, S. Pata, W. Laopajon, W. Kasinrerk, A. Hidalgo-Bastida (2023). Production of High-Value Proteins under Stringent Cost Constraints—The Case of Hollow Fiber Technology for Cell Culture. Processes. 11(3),
JK. Wychowaniec, R. Patel, J. Leach, R. Mathomes, V. Chhabria, et al. Y. Patil-Sen, A. Hidalgo-Bastida, RT. Forbes, JM. Hayes, MA. Elsawy. (2020). Aromatic stacking facilitated self-assembly of ultra-short ionic complementary peptide sequence: β-sheet nanofibres with remarkable gelation and interfacial properties. Biomacromolecules. 21(7), pp.2670-2680.
L. Fusaro, M. Calvo Catoira, M. Ramella, F. Sacco Botto, M. Talmon, et al. LG. Fresu, A. Hidalgo-Bastida, F. Boccafoschi. (2020). Polylysine Enriched Matrices: A Promising Approach for Vascular Grafts. Frontiers in Bioengineering and Biotechnology. 8,
TJ. Spencer, LA. Hidalgo-Bastida, SH. Cartmell, I. Halliday, CM. Care (2013). In silico multi-scale model of transport and dynamic seeding in a bone tissue engineering perfusion bioreactor. Biotechnol Bioeng. 110(4), pp.1221-1230.
R. Balint, NJ. Cassidy, LA. Hidalgo-Bastida, S. Cartmell (2013). Electrical Stimulation Enhanced Mesenchymal Stem Cell Gene Expression for Orthopaedic Tissue Repair. JOURNAL OF BIOMATERIALS AND TISSUE ENGINEERING. 3(2), pp.212-221.
LA. Hidalgo-Bastida, S. Thirunavukkarasu, S. Griffiths, SH. Cartmell, S. Naire (2012). Modeling and design of optimal flow perfusion bioreactors for tissue engineering applications. Biotechnol Bioeng. 109(4), pp.1095-1099.
A. Rupani, LA. Hidalgo-Bastida, F. Rutten, A. Dent, I. Turner, et al. S. Cartmell. (2012). Osteoblast activity on carbonated hydroxyapatite. J Biomed Mater Res A. 100(4), pp.1089-1096.
JR. Glossop, LA. Hidalgo-Bastida, SH. Cartmell (2011). Fluid Shear Stress Induces Differential Gene Expression of Leukemia Inhibitory Factor in Human Mesenchymal Stem Cells. JOURNAL OF BIOMATERIALS AND TISSUE ENGINEERING. 1(2), pp.166-176.
D. Kumar, JP. Gittings, IG. Turner, CR. Bowen, LA. Hidalgo-Bastida, et al. SH. Cartmell. (2010). Corrigendum to “Polarization of hydroxyapatite: Influence on osteoblast cell proliferation” [Acta Biomaterialia 6 (2010) 1549–1554]. Acta Biomaterialia. 6(11), pp.4456-4456.
LA. Hidalgo-Bastida, SH. Cartmell (2010). Mesenchymal stem cells, osteoblasts and extracellular matrix proteins: enhancing cell adhesion and differentiation for bone tissue engineering. Tissue Eng Part B Rev. 16(4), pp.405-412.
D. Kumar, JP. Gittings, IG. Turner, CR. Bowen, LA. Hidalgo-Bastida, et al. SH. Cartmell. (2010). Polarization of hydroxyapatite: influence on osteoblast cell proliferation. Acta Biomater. 6(4), pp.1549-1554.
LA. Hidalgo-Bastida, JJA. Barry, NM. Everitt, FRAJ. Rose, LD. Buttery, et al. IP. Hall, WC. Claycomb, KM. Shakesheff. (2007). Cell adhesion and mechanical properties of a flexible scaffold for cardiac tissue engineering. Acta Biomater. 3(4), pp.457-462.
C-M. Nuttegg, L. Hidalgo-Bastida (2019). 14. Scaffolds for mandibular reconstruction. In: Handbook of Tissue Engineering Scaffolds. Woodhead Publishing Limited,
C-M. Nuttegg, LA. Hidalgo-Bastida (2019). Scaffolds for mandibular reconstruction. In: Handbook of Tissue Engineering Scaffolds: Volume One. Elsevier, pp.347-368.
SH. Cartmell, S. Rathbone, G. Jones, LA. Hidalgo-Bastida (2011). 3D sample preparation for orthopaedic tissue engineering bioreactors. pp.61-76.
K. Hargreaves, A. Hidalgo-Bastida (2024). AN INCLUSIVE PROGRAMME TO LEVEL UP ASSESSMENT LITERACY AND TACKLE AWARDING GAPS IN BIOMEDICAL SCIENCE STUDENTS. In: INTED Proceedings. 6/3/2024.
A. Hidalgo-Bastida, C. Collier, S. Sashikumar (2023). International students learning experience in a post COVID era: preference on delivery model for academic English support. In: EDULEARN23 Proceedings. Palma, Spain, 3/7/2023. pp.5542-5546.
A. Hidalgo-Bastida (2023). International students’ transition into the UK’s higher education. In: EDULEARN23 Proceedings. Palma, Spain, 3/7/2023. pp.5674-5674.
A. Hidalgo-Bastida, R. Cullen, C. McAllister-Gibson, MG. Ramirez Sotelo, F. Boccafoschi, et al. M. Giordano. (2022). Global summer schools: developing multicultural competencies staying at home. In: INTED2022 Proceedings. Online, 7/3/2022. pp.4338-4347.
L. Hidalgo-Bastida, M. Elsawy, J. Wychowaniec, J. Leach, C-M. Nuttegg (2019). Ultra-Short Constrained Βeta-Sheet Forming Peptides For The Fabrication Of Versatile Soft Biomaterials.
L. Hidalgo-Bastida, R. Balint (2019). Graphene-Polymer Composites for the Engineering of Cardiac Tissue. In: European Cells and Materials. Nottingham, UK,
L. Hidalgo-Bastida, R. Balint (2019). Vascularisation Bioreactor: A step towards “plug-and-play” vascularised tissue. In: European Cells and Materials. Nottingham, UK,
L. Hidalgo-Bastida, I. Slinn, C. Banks (2019). Biocompatibility of Graphene for Regenerative Medicine Applications using Dental Pulp Stem Cells. In: European Cells and Materials. Nottingham, UK,
L. Hidalgo-Bastida, E. Serra, J. Verran, S. malic (2017). In vitro activity of essential oils and biocides against Candida albicans and development of an ex vivo rodent mandible model to mimic oral candidosis. Manchester, UK,
L. Hidalgo-Bastida, C-M. Murtala, C. Banks, S. Malic (2017). The effect of Cell Culture Media on Graphene Compound Suspension and Topography for in-vitro studies. Manchester, UK,
L. Hidalgo-Bastida, E. Serra, S. malic, J. Verran (2017). Antifungal Potential of Essential Oils and Development of an Ex-Vivo Model for Oral Candidiasis. Plymouth, UK,
L. Hidalgo-Bastida, C-M. Murtala, C. Banks, S. Malic, A. Sloan (2017). Effect of graphene-nanomaterials on DPSCs metabolism for bone tissue regeneration. In: European Cells and Materials. Manchester, UK,
L. Hidalgo-Bastida, V. Parikh, M. Azzawi, M. miraftab, C. holt (2017). Viability of vascular cells in co-culture within small diameter porous electrospun scaffolds. In: European Cells and Materials. Manchester, UK,
L. Hidalgo-Bastida, C-M. Murtala, C. Banks, S. Malic (2017). Graphene Compound Topography and Size after Preparation in Commonly Used Cell Culture Solutions. Athens, Greece,
L. Hidalgo-Bastida, A. Syed, T. burnett, P. Withers (2016). Micro-computed tomography as a correlative imaging tool for the assessment of bone morphology. In: European Cells and Materials. London, UK,
A. Hidalgo (2015). Design and development of novel electrospun small diameter vascular prosthesis. In: EUROPEAN CELLS & MATERIALS.
R. Hernandez-Cordova, A. Ceballos-Villanueva, HJ. Carrillo-Escalante, F. Hernandez-Sanchez, LA. Hidalgo-Bastida (2014). Perfused seeding of an indirect rapid prototyped polyurethane urea scaffold for cardiac tissue engineering. In: JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE. pp.479-479.
SR. Rathbone, LA. Hidalgo-Bastida, R. Bradley, P. Withers, SH. Cartmell (2012). Effect of micro-tomography radiation on cell viability and survival of live human mesenchymal stem cells. In: JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE. pp.319-319.
T. Irene, A. Rupani, A. Hidalgo-Bastida, J. Patel, A. Dent, et al. S. Cartmell. (2011). Osteoblast activity on carbonated hydroxyapatite. In: 24th European Conference on Biomaterials - Annual Conference of the European Society for Biomaterials.
SH. Cartmell, TJ. Spencer, LA. Hildalgo-Bastida, I. Halliday, CM. Care (2011). Modelling of a perfusion bioreactor using lattice Boltzman technique. In: European Cells and Materials.
LA. Hidalgo-Bastida, TJ. Spencer, T. Lowe, P. Withers, I. Halliday, et al. C. Care, SH. Cartmell. (2011). Lattice-Boltzmann mathematical model of cell attachment in a perfusion bioreactor: Validation using microCT. In: European Cells and Materials.
LA. Hidalgo-Bastida, TJ. Spencer, I. Halliday, C. Care, SH. Cartmell (2009). Perfusion bioreactor for bone tissue engineering: Experimental parameters for a Lattice-Boltzmann mathematical model. In: European Cells and Materials.
LA. Hidalgo-Bastida, JH. Ingram, R. Majani, FH. Falcone, LJ. White, et al. E. Ingham, WC. Claycomb, LD. Buttery, FRAJ. Rose, KM. Shakesheff. (2008). Mechanical stimulation of HL-1 cardiomyocytes cultured in poly-(1,8-octanediol-co-citric acid) [POC] scaffolds. In: European Cells and Materials.
LA. Hidalgo-Bastida, JH. Ingram, R. Majani, FH. Falcone, LD. Buttery, et al. FRAJ. Rose, E. Ingham, WC. Claycomb, KM. Shakesheff. (2008). Biomechanical stimulation of Hl-1 cardiomyocytes cultured in poly-(1,8-octanediol-co-citricacid) [Poc] scaffolds. In: TISSUE ENGINEERING PART A. Porto, PORTUGAL, 6/2008. pp.814-815.
LA. Hidalgo-Bastida, JJA. Barry, F. Rose, LD. Buttery, I. Hall, et al. KM. Shakesheff. (2005). Designing flexible biodegradable scaffolds for cardiac tissue engineering. In: European Cells and Materials.