Integrazione multisensoriale

147. Shimojo S, Shams L. Sensory modalities are not separate modalities: plasticity and interactions. Curr Opin Neurobiol. Aug 2001;11(4):505-509.
148. Bolognini N, Rossetti A, Casati C, Mancini F, Vallar G. Neuromodulation of multisensory perception: a tDCS study of the sound-induced flash illusion. Neuropsychologia. Jan 2011;49(2):231-237.
149. Lovelace CT, Stein BE, Wallace MT. An irrelevant light enhances auditory detection in humans: a psychophysical analysis of multisensory integration in stimulus detection. Cognitive Brain Research. 7/15/ 2003;17(2):447-453.
150. Stevenson RA, Zemtsov RK, Wallace MT. Individual differences in the multisensory temporal binding window predict susceptibility to audiovisual illusions. J Exp Psychol Hum Percept Perform. Dec 2012;38(6):1517-1529.
151. Diederich A, Colonius H. Bimodal and trimodal multisensory enhancement: effects of stimulus onset and intensity on reaction time. Percept Psychophys. Nov 2004;66(8):1388-1404.
152. Mahoney JR, Li PC, Oh-Park M, Verghese J, Holtzer R. Multisensory integration across the senses in young and old adults. Brain Res. Dec 2 2011;1426:43-53.
153. Parise Cesare V, Spence C, Ernst MO. When Correlation Implies Causation in Multisensory Integration. Current Biology. 1/10/ 2012;22(1):46-49.
154. Ernst MO, Bulthoff HH. Merging the senses into a robust percept. Trends Cogn Sci. Apr 2004;8(4):162-169.
155. Kaji R, Shibasaki H, Kimura J. Writer’s cramp: a disorder of motor subroutine? Ann Neurol. 1995;38(6):837-838.
156. Hikosaka O, Nakamura K, Sakai K, Nakahara H. Central mechanisms of motor skill learning. Current Opinion in Neurobiology. 2002;12(2):217-222.
157. Doyon J, Penhune V, Ungerleider LG. Distinct contribution of the cortico-striatal and cortico-cerebellar systems to motor skill learning. Neuropsychologia. 2003;41(3):252- 262.
158. Kaji R, Urushihara R, Murase N, Shimazu H, Goto S. Abnormal sensory gating in basal ganglia disorders. Journal of Neurology. 2005;V252(0):iv13-iv16.
159. Del Olmo MF, Cheeran B, Koch G, Rothwell JC. Role of the Cerebellum in Externally Paced Rhythmic Finger Movements. J Neurophysiol. 2007;98:145-152.
160. Apps R, Garwicz M. Anatomical and Physiological Foundations of Cerebellar Information Processing. Nature Reviews Neuroscience. 2005;6:297-311.
161. Manzoni D. The cerebellum and sensorimotor coupling: Looking at the problem from the perspective of vestibular reflexes. The Cerebellum. 2007;6(1):24-37.
162. Topp KS, Byl NN. Movement dysfunction following repetitive hand opening and closing: anatomical analysis in Owl monkeys. Movement Disorders. Mar 1999;14(2):295-306.
163. Rosenkranz K, Altenmuller E, Siggelkow S, Dengler R. Alteration of sensorimotor integration in musician’s cramp: impaired focusing of proprioception. Clinical Neurophysiology. 2000;111(11):2040-2045.
164. Evinger C. Animal models of focal dystonia. NeuroRx. Jul 2005;2(3):513-524.
165. Butz M, Timmermann L, Gross J, et al. Oscillatory coupling in writing and writer’s cramp. Journal of Physiology-Paris. 2006;99(1):14-20.
166. Tamburin S, Zanette G. Abnormalities of sensory processing and sensorimotor interactions in secondary dystonia: A neurophysiological study in two patients. Movement Disorders. 2005;20(3):354-360.
167. Kessler KR, Ruge D, Ilic TV, Ziemann U. Short latency afferent inhibition and facilitation in patients with writer’s cramp. Movement Disorders. 2005;20(2):238- 242.
168. Tinazzi M, Rosso T, Fiaschi A. Role of the somatosensory system in primary dystonia. Movement Disorders. 2003;18(6):605-622.
169. Abbruzzese G, Berardelli A. Sensorimotor integration in movement disorders. Movement Disorders. 2003;18(3):231-240.
170. Almeida QJ, Frank JS, Roy EA, et al. An evaluation of sensorimotor integration during locomotion toward a target in Parkinson’s disease. Neuroscience. 2005;134(1):283- 293.
171. Mascia MM, Valls-Solé J, Martí MJ, Salazar G. Sensorimotor integration in patients with parkinsonian type multisystem atrophy. Journal of Neurology. 2005;V252(4):473-481.
172. Devos D, Labyt E, Cassim F, et al. Subthalamic stimulation influences postmovement cortical somatosensory processing in Parkinson’s disease. European Journal of Neuroscience. 2003;18(7):1884-1888.
173. Daligadu J, Yielder P, Haavik H, Baarbe J, Murphy B. Alterations in Cortical and Cerebellar Motor Processing in Neck Pain Patients Following Chiropractic Manipulation. Journal of Manipulative & Physiological Therapeutics. 2013;In press.

174. American Geriatrics Society. Guideline for the prevention of falls in older persons. American Geriatrics Society, British Geriatrics Society, and American Academy
of Orthopaedic Surgeons Panel on Falls Prevention. J Am Geriatr Soc. May 2001;49(5):664-672.
175. Taylor D, Stretton C. The Otago exercise programme: An evidence-based approach to falls prevention for older adults living in the community. NZFP. 2004;31(6):391-394.
176. Kannus P, Khan KM, Lord SR. Preventing falls among elderly people in the hospital environment. Med J Aust. 2006;184(8):372-373..
178. Gill T, Taylor AW, Pengelly A. A population-based survey of factors relating to the prevalence of falls in older people. Gerontology. 2005;51(5):340-345.
180. Tinetti ME, Speechley M, Ginter SF. Risk factors for falls among elderly persons living in the community. N Engl J Med. 1988;319:1701-1707.
181. Dougherty PE, Hawk C, Weiner DK, Gleberzon B, Andrew K, Killinger L. The role of chiropractic care in older adults. Chiropr Man Therap. 2012;20(1):3.
182. Hawk C, Pfefer MT, Strunk R, Ramcharan M, Uhl N. Feasibility study of short-term effects of chiropractic manipulation on older adults with impaired balance. J Chiropr Med. Dec 2007;6(4):121-131.
183. Lord S, Fitzpatrick R. Choice stepping reaction time: a composite measure of falls risk in older people. J Gerontol A Biol Sci Med Sci. Oct 2001;56(10):M627-632.
184. Pijnappels M, Delbaere K, Sturnieks D, Lord SR. The association between choice stepping reaction time and falls in older adults--a path analysis model. Age Ageing. Jan 2010;39(1):99-104.
185. St George RJ, Fitzpatrick RC, Rogers MW, Lord SR. Choice stepping response and transfer times: effects of age, fall risk, and secondary tasks. J Gerontol A Biol Sci Med Sci. May 2007;62(5):537-542.
186. Maki BE, McIlroy WE. Control of rapid limb movements for balance recovery: age- related changes and implications for fall prevention. Age Ageing. September 1, 2006 2006;35(suppl_2):ii12-18.
187. Maki BE, McIlroy WE. The role of limb movements in maintaining upright stance: the “change-in-support” strategy.Phys Ther. May 1997;77(5):488-507.
188. Setti A, Burke KE, Kenny RA, Newell FN. Is inefficient multisensory processing associated with falls in older people? Exp Brain Res. Mar 2011;209(3):375-384.
189. Shams L, Kamitani Y, Shimojo S. Visual illusion induced by sound. Brain Res Cogn Brain Res. Jun 2002;14(1):147-152.
190. Mishra J, Martínez A, Hillyard SA. Effect of Attention on Early Cortical Processes Associated with the Sound-induced Extra Flash Illusion. Journal of Cognitive Neuroscience. 2010/08/01 2009;22(8):1714-1729.
191. Mishra J, Martinez A, Sejnowski TJ, Hillyard SA. Early cross-modal interactions in auditory and visual cortex underlie a sound-induced visual illusion. J Neurosci. Apr 11 2007;27(15):4120-4131.
192. Bhattacharya J, Shams L, Shimojo S. Sound-induced illusory flash perception: role of gamma band responses.Neuroreport. Oct 7 2002;13(14):1727-1730.
193. de Haas B, Kanai R, Jalkanen L, Rees G. Grey matter volume in early human visual cortex predicts proneness to the sound-induced flash illusion. Proc Biol Sci. Dec 22 2012;279(1749):4955-4961.
194. Keil J, Muller N, Hartmann T, Weisz N. Prestimulus Beta Power and Phase Synchrony Influence the Sound-Induced Flash Illusion. Cereb Cortex. Jan 8 in press.
195. Shams L. Early Integration and Bayesian Causal Inference in Multisensory Perception. The Neural Bases of Multisensory Processes. Boca Raton FL: Llc.; 2012.
196. Shams L, Iwaki S, Chawla A, Bhattacharya J. Early modulation of visual cortex by sound: an MEG study. Neurosci Lett. Apr 18 2005;378(2):76-81.
197. Apthorp D, Alais D, Boenke LT. Flash illusions induced by visual, auditory, and audiovisual stimuli. Journal of Vision. April 1, 2013 2013;13(5).
198. Kamke MR, Vieth HE, Cottrell D, Mattingley JB. Parietal disruption alters audiovisual binding in the sound-induced flash illusion. NeuroImage. 9// 2012;62(3):1334-1341.