Camp, Aaron - University of Sydney - Discipline of Biomedical Science

研究领域

Airplanes, submarines and even our humble phones use sophisticated guidance systems to allow them to navigate through the environment. Amazingly, vertebrates have used an analogous system for billions of years! This system is called the vestibular or ¿balance¿ system. I am interested in how our vestibular system allows us to maintain balance under normal conditions, how disease impairs this ability, and how balance signals are ultimately combined with those of other senses to enable navigation through our complex world.

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Tung, V., Burton, T., Quail, S., Mathews, M., Camp, A. (2016). Motor performance is impaired following vestibular stimulation in ageing mice. Frontiers in Aging Neuroscience, 8, 1-10. [More Information] Mathews, M., Murray, A., Wijesinghe, R., Cullen, K., Tung, V., Camp, A. (2015). Efferent Vestibular Neurons Show Homogenous Discharge Output But Heterogeneous Synaptic Input Profile In Vitro. PloS One, 10(9), 1-21. [More Information] Wijesinghe, R., Tung, V., Camp, A., Protti, D., Mathews, M. (2015). Exciting potential: the importance of the right environment. The Journal of Physiology, 593(10), 2253-2255. [More Information] Zhang, L., Tung, V., Mathews, M., Camp, A. (2015). Near infrared (Nir) light increases expression of a marker of mitochondrial function in the mouse vestibular sensory epithelium. Journal of Visualized Experiments, 2015 (97), 1-6. [More Information] Wijesinghe, R., Protti, D., Camp, A. (2015). Vestibular Interactions in the Thalamus. Frontiers in Neural Circuits, 9, 1-8. [More Information] Tung, V., Burton, T., Dababneh, E., Quail, S., Camp, A. (2014). Behavioral Assessment of the Aging Mouse Vestibular System. Journal of Visualized Experiments, 89, 1-11. [More Information] Lim, R., Drury, H., Camp, A., Tadros, M., Callister, R., Brichta, A. (2014). Preliminary characterization of voltage-activated whole-cell currents in developing human vestibular hair cells and calyx afferent terminals. JARO (Journal of the Association for Research in Otolaryngology), 15(5), 755-766. [More Information] Tung, V., Di Marco, S., Lim, R., Brichta, A., Camp, A. (2013). An Isolated Semi-intact Preparation of the Mouse Vestibular Sensory Epithelium for Electrophysiology and High-resolution Two-photon Microscopy. Journal of Visualized Experiments, 76, 1-9. [More Information] Wijesinghe, R., Solomon, S., Camp, A. (2013). Noise Normalizes Firing Output of Mouse Lateral Geniculate Nucleus Neurons. PloS One, 8(2), 1-8. [More Information] Camp, A. (2012). Intrinsic neuronal excitability: a role in homeostasis and disease. Frontiers in Neurology, 3, 1-2. [More Information] Camp, A. (2011). Intrinsic neuronal excitability: implications for health and disease. Biomolecular Concepts, 2(4), 247-259. Camp, A., Cheong, S., Tailby, C., Solomon, S. (2011). The impact of brief exposure to high contrast on the contrast response of neurons in primate lateral geniculate nucleus. Journal of Neurophysiology, 106(3), 1310-1321. [More Information] Solomon, S., Tailby, C., Gharaei, S., Camp, A., Bourne, J., Solomon, S. (2011). Visual motion integration by neurons in the middle temporal area of a New World monkey, the marmoset. The Journal of Physiology, 589(23), 5741-5758. [More Information] Camp, A., Lim, R., Anderson, W., Schofield, P., Callister, R., Brichta, A. (2010). Attenuated glycine receptor function reduces excitability of mouse medial vestibular nucleus neurons. Neuroscience, 170(1), 348-360. [More Information] Solomon, S., Tailby, C., Cheong, S., Camp, A. (2010). Linear and Nonlinear Contributions to the Visual Sensitivity of Neurons in Primate Lateral Geniculate Nucleus. Journal of Neurophysiology, 104(4), 1884-1898. [More Information] Dixon, K., Sequeira, V., Camp, A., Mason, R. (2010). Vitamin D-fence. Photochemical and Photobiological Sciences, 9(4), 564-570. [More Information] Camp, A., Tailby, C., Solomon, S. (2009). Adaptable mechanisms that regulate the contrast response of neurons in the primate lateral geniculate nucleus. The Journal of Neuroscience, 29(15), 5009-5021. [More Information] Camp, A., Wijesinghe, R. (2009). Calretinin: Modulator of neuronal excitability. The International Journal of Biochemistry and Cell Biology, 41(11), 2118-2121. [More Information] Curthoys, I., Kim, J., McPhedran, S., Camp, A. (2006). Bone conducted vibration selectively activates irregular primary otolithic vestibular neurons in the guinea pig. Experimental Brain Research. [More Information] Camp, A., Callister, R., Brichta, A. (2006). Inhibitory synaptic transmission differs in mouse type A and B medial vestibular nucleus neurons in vitro. Journal of Neurophysiology, 95(5), 3208-3218. [More Information] Lee, H., Camp, A., Callister, R., Brichta, A. (2005). Vestibular primary afferent activity in an in vitro preparation of the mouse inner ear. Journal of Neuroscience Methods, 145(1-2), 73-87. [More Information]