Hall, Sarah - Cardiff University - School of Biosciences

个人简介

Duties include: Designing and delivering teaching activities in physiology and related disciplines to undergraduate students on BSc, MB and BDS degree schemes Director of the Professional Training (sandwich) Year scheme for Biomedical Sciences degrees Module leader (BI2302 Physiology of Exercise; BI2303 Human Pathophysiology; BI2001 Research Techniques); final year research project supervisor; personal tutor Curriculum development (Biomedical Sciences degree schemes and C21 project)

研究领域

My research career was built on a foundation of electrophysiology and I spent many happy years studying excitable cells, with main interests in cardiac cell physiology and ion channel regulation. In recent years, I have developed a strong interest in education and have found this aspect of academic life very rewarding. I now spend much of my time designing, developing and delivering teaching and learning activities for undergraduate students. I contribute to teaching (and assessment) at all levels and across all Biosciences degree schemes, as well as the medical and dental courses. My teaching portfolio is focussed mainly on physiological and pathophysiological mechanisms and I have a particular interest in the acute and adaptive responses to exercise. I remain connected to current research across the spectrum of biomedical sciences through my duties as the director for the Professional Training Year (PTY) for all Biomedical Sciences degree schemes. We are sending a growing number of students out on research placements each year; these placements allow students to experience the process and practice of research in the context of a real workplace and I am happy to say that they are usually a very positive and productive experience for everyone involved. I contribute to a variety of outreach and engagement activities and have been a STEM ambassador since 2005. I run annual workshops for primary schools and sixth-form pupils as part of Cardiff University schemes; I have also advised on interactive science exhibitions for the general public and am currently on the editorial board for Advances in Physiology Education.

近期论文

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Hall, S. K. and Armstrong, D. L. 2000. Conditional and unconditional inhibition of calcium-activated potassium channels by reversible protein phosphorylation. Journal of Biological Chemistry 275(6), pp. 3749-3754. (10.1074/jbc.275.6.3749) Clark, E. G., Hall, S. K. and Shipston, M. J. 1999. ATP inhibition of a mouse brain large-conductance K+ (mslo) channel variant by a mechanism independent of protein phosphorylation. Journal of Physiology 516(1), pp. 45-53. (10.1111%2Fj.1469-7793.1999.045aa.x) Hall, S. K., Zhang, J. and Lieberman, M. 1997. An early transient current is associated with hyposmotic swelling and volume regulation in embryonic chick cardiac myocytes. Experimental Physiology 82(1), pp. 43-54. (10.1113/expphysiol.1997.sp00401) Hall, S. K., Zhang, J. and Lieberman, M. 1995. Cyclic AMP prevents activation of a swelling-induced chloride-sensitive conductance in chick heart cells. Journal of Physiology 488(2), pp. 359-369. (10.1113/jphysiol.1995.sp020972) Fry, C. H., Griffiths, H. and Hall, S. K. 1993. Actions of extracellular chloride ion substitution on contractility of isolated ventricular myocardium. Cardiovascular Research 27(5), pp. 856-860. (10.1093/cvr/27.5.856) Zhang, J.et al. 1993. A chloride current associated with swelling of cultured chick heart cells. Journal of Physiology 472, pp. 801-820. (10.1113/jphysiol.1993.sp019974) Hall, S. K. and Fry, C. H. 1992. Magnesium affects excitation, conduction, and contraction of isolated mammalian cardiac muscle. American Journal of Physiology - Heart and Circulatory Physiology 263(2), pp. H622-H633. Hall, S.et al. 1991. Use of ion-sensitive microelectrodes to study intracellular free magnesium concentration and its regulation in mammalian cardiac muscle.. Magnesium and Trace Elements 10(2-4), pp. 80-89. Fry, C.et al. 1990. Analysis and presentation of intracellular measurements obtained with ion-selective microelectrodes.. Experimental Physiology 75(2), pp. 187-198. (10.1113/expphysiol.1990.sp003393)