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Professor Veronica Campbell

Bursar/Director of Strategic Initiative (Provost's Office)

 

Professor (Bursar)

Professor (Trinity Inst. of Neurosciences (TCIN))

Professor (Physiology)

Dr Campbell is a Pharmacology graduate (1991; University of Edinburgh) and was awarded her PhD in Neuropharmacology in 1995 (University of London). She took up an HRB post-doctoral fellowship in 1996, and was appointed to the Department of Physiology TCD in 1998.
  Apoptosis   Biology   Biomedical sciences   Intra and intercellular signalling   Neurochemistry and neuropharmacology   Neurodegeneration   Neuropharmacology   Physiology
 Do cannabinoids confer neuroprotection by stabilizing lysosomes?
 Cannabinoids and mesenchymal stem cell differentiation
 Effect of hypoxia on tissue engineering of bone and cartilage
 Cannabinoids and neuronal fate
 Investigation into the role of lysosomes in neuronal cell death

Details Date From Date To
Secretary, Biomedical Sciences Section (Royal Academy Medicine in Ireland) 2004 2007
Fellow, Royal Academy Medicine in Ireland
Member, Society for Neuroscience
Member, Physiological Society
Editor, British Journal of Pharmacology 2005
President, Royal Academy of Medicine in Ireland (Biomedical Sciences Section) 2015
Lyons A, Minogue A.M, Jones R.S, Fitzpatrick O, Noonan J, Campbell V.A, Lynch M.A, Analysis of the Impact of CD200 on Phagocytosis, Molecular Neurobiology, 54, (7), 2017, p5730-5739 , Journal Article, PUBLISHED  DOI  URL
Haugh O, Penman J, Irving AJ, Campbell VA., The Emerging Role of the Cannabinoid Receptor Family in Peripheral and Neuro-immune Interactions., Curr Drug Targets, 17, (16), 2016, p1834 - 1840, Journal Article, PUBLISHED
McKayed K, Prendergast PJ, Campbell VA., Aging enhances the vulnerability of mesenchymal stromal cells to uniaxial tensile strain-induced apoptosis., Journal Biomechanics, 49, (3), 2016, p458 - 462, Journal Article, PUBLISHED  DOI
Endocannabinoids and Alzheimer's Disease in, editor(s)Liana Fattore , Cannabinoids in Neurologic and Mental Disease, Elsevier Academic Press, 2015, ppChapter 2 - [SG Fagan, VA Campbell], Book Chapter, PUBLISHED
Xue, F. Lennon, A.B. McKayed, K.K. Campbell, V.A. Prendergast, P.J., Effect of membrane stiffness and cytoskeletal element density on mechanical stimuli within cells: an analysis of the consequences of ageing in cells, Computer Methods in Biomechanics and Biomedical Engineering, 18, (5), 2015, p468 - 476, Journal Article, PUBLISHED  TARA - Full Text  DOI  URL
Fagan SG, Campbell VA., The influence of cannabinoids on generic traits of neurodegeneration, British Journal of Pharmacology, 171, (6), 2014, p1347 - 1360, Journal Article, PUBLISHED
Gowran A, McKayed K, Campbell VA, The cannabinoid receptor type 1 is essential for mesenchymal stem cell survival and differentiation: implications for bone health., Stem cells international, 2013, 2013, p796715 , Journal Article, PUBLISHED  TARA - Full Text  DOI
Tanveer R, Gowran A, Noonan J, Keating SE, Bowie AG, Campbell VA, The endocannabinoid, anandamide, augments Notch-1 signaling in cultured cortical neurons exposed to amyloid-β and in the cortex of aged rats., Journal of Biological Chemistry, 287(41), (41), 2012, p34709 - 34721, Notes: [PMID: 22891244], Journal Article, PUBLISHED  DOI
Murphy N, Cowley TR, Blau CW, Dempsey CN, Noonan J, Gowran A, Tanveer R, Olango WM, Finn DP, Campbell VA, Lynch MA, The fatty acid amide hydrolase inhibitor URB597 exerts anti-inflammatory effects in hippocampus of aged rats and restores an age-related deficit in long-term potentiation, Journal of Neuroinflammation, 9, (79), 2012, Journal Article, PUBLISHED  DOI
Murphy N, Cowley TR, Blau CW, Dempsey CN, Noonan J, Gowran A, Tanveer R, Olango WM, Finn DP, Campbell VA, Lynch MA, The fatty acid amide hydrolase inhibitor URB597 exerts anti-inflammatory effects in hippocampus of aged rats and restores an age-related deficit in long-term potentiation., Journal of neuroinflammation, 9, 2012, p79 , Journal Article, PUBLISHED  TARA - Full Text  DOI
  

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Award Date
Fellow of TCD 2004
Cannabinoid neuropharmacology; ß-amyloid; Neurodegeneration; Regulation of neuronal calcium homeostasis; Tissue engineering of bone and cartilage; Mesenchymal stem cells