Abraham, L., Copack, P. B., & Gilman, S. (1977). Brain stem pathways for vestibular projections <strong>to</strong> cerebral cortex in the cat. Experinzentnl Neurology, 55, 436-448 Ayres, A. J. (1985). Developnzenral dybpruxia clnd adult onset apraxia. Torrance, CA: Sensory Integration International. Bach-y-Rita. P. (Ed.). (1980). Recovery qf ,function: Theorericczl considerations fi)r hrain injury rehabilirclriorz. Baltimore: University Park Press. Barkley, R. ( 1990). Attenrion deficit hyperucrivity disorder: A Irundbook jOr diugnosis <strong>and</strong> treumzent. New York: The Guilford Press. Bellingham. W. P., Wayne, M. J., & Barone. F. C. (1979). Scheduleinduced eating in water deprived rats. Physiology trnd Behavior, 23, llO5-llO7. Blakeslee, A. F., & Salmon, T. H. (1935). Genetics of sensory thresholds: Individual taste reactions for different substances. Proceedings ofrhe Nelriontrl Academy of Sciences ofthe U.S.A., 21, 84-90. Brody, N. ( 1983). Humun motivarion. New York: Academic Press. Buttner V.. & Henn, V. (1976). Thalamic unit activity in the alert monkey during natural vestibular \timulation. Brain Research, 103, 127- 132. Cool, S. J. (1987). A view for the "outside": sensory integration <strong>and</strong> developmental neurobiology. Sensory Intcyrarion Nerrt~letter, lO(2). 2-3. Coren, S.. Porac, C.. & Ward, L. M. (1983). Sensation arrdperception. Orl<strong>and</strong>o: Academic Pre\s. Crutchfield, C. A,, & Barnes, M. R. (1984). The neurophysiologlc. basis cf parierrt treutmenr: Volume 111, Peripheral componrnts of mo<strong>to</strong>r control. Atlanta: S<strong>to</strong>kesville Publishing Co. Darian-Smith. 1. (1984). The sense of <strong>to</strong>uch: Performance <strong>and</strong> peripheral neural processes. In I. Darian-Smith (Ed.). H<strong>and</strong>book of phvsiology, S~cfion 1: The nervous syJtewz. Volume 11: Senson. processes, part 2 (pp. 739-788). Bethesda: American Physiological Society. Deecke, L. D., Schwartz, W. F., & Fredrickson, J. M. (1974). Nucleus ventroposterior inferior (VPI) as the vestibular thalamic relay in the rhesus monkey. Experimental Bruin Resc,urch, 20, 88- 100. DeGangi. G. A,, & Greenspan, S. 1. (1991). Affectllnteraction Skills. <strong>Neuroscience</strong> foundations of human performance. AOTA Self Study Series, 6. DeGangi, G. A., & Porges, S. W. (1991). Attention/Alertness/ Arousal. <strong>Neuroscience</strong> Foundations of Human Performance. AOTA Self Study Series. 5. DeMoja, C. A,, Reitano, M., & Caracciolo. E. (1985). General arousal <strong>and</strong> performance. Perceptual arrd Mo<strong>to</strong>r Skills, 61, 747- 753. Dunn, W. (1997). The impact of sensory processing abilities on the daily lives of young children <strong>and</strong> their families: A conceptual model. Infrrnts <strong>and</strong> Young Children, 9(4), 23-35. Dunn, W. (1991a). Motivation. <strong>Neuroscience</strong> Foundations of Human Performance. AOTA Self Stuciy Series, 7. Dunn, W. (1991b). Assessing Human Performance Related <strong>to</strong> Brain Function. <strong>Neuroscience</strong> Foundations of Human Performance. AOTA Self Study Series, 12. Dunn, W., Brown, C., & McGuigan, A. (1994). The ecology of human performance: A framework for considering the effect of context. American Journal of Occupurional Therapy, 48(7). 595-607. Goldberg, J. M.. & Fem<strong>and</strong>ez, C. (1984). The vestibular system. In 1. Darian-Smith (Ed.). Hcrndbook of physiology, Srction I: The nervous system. Volunre 11: Senson processes, Parr 2 (pp. 977- 1022). Bethesda: American Physiological Society. Hall. M. J., Bar<strong>to</strong>shuk, L. M.. Cain. W. S., & Stevens. J. C. (1975). PTC taste blindness <strong>and</strong> the taste of caffeine. Nururc. (London), 253, 442-443. Halpern, B. P., & Meiselman, H. L. (1980). Taste psychophysics based on a simulation of human drinking. Chemicd Sense, 5. 279-294. Heimer, L. (1983). The human hrain und spinal cord. New York: Springer-Verlag. Jongkees, L. B. W. (1974). Pathology of vestibular sensation. In H.H. Kornhuber (Ed.), H<strong>and</strong>book of set1sor.y phvsiology, Volume V1/2, k~.stibulur sysretii Parr 2: Psychophpsics, applied aspects <strong>and</strong> general interprerations (pp. 4 13-450). New York: Springer-Verlag. K<strong>and</strong>el. E. R., & Schwartz, J. H. (1985). <strong>Principles</strong> of neural .PC;- ence. New York: Elsevier. K<strong>and</strong>el, E. R., Schwartz, J. H., & Jessell, T. M. (Eds.). (1991). <strong>Principles</strong> of neural science (3rd ed.). New York: Elsevier Science Publishing Co. Kelly, J. (1985). <strong>Principles</strong> of the functional <strong>and</strong> ana<strong>to</strong>mical organization of the nervous system. In E. K<strong>and</strong>el & J. Schwartz (Eds.), <strong>Principles</strong> of neurtrl science (2nd ed.) (pp. 2 1 1-221 ). New York: Elsevier. Kiang, N. Y. S. (1984). Peripheral neural processing of audi<strong>to</strong>ry information. In I. Darian-Smith (Ed.). H<strong>and</strong>book ofplzysiology, Section I: The nervou.p system, Volume 11: Srnson processes, Part 2 (pp. 639-674). Bethesda: American Physiological Society. Kornhuber, H. H. (1974). The vestibular system <strong>and</strong> the general mo<strong>to</strong>r system. In H. H. Kornhuber (Ed.), H<strong>and</strong>book ofsensor; physiology, Volume V1/2. Vestibular system Part 2: P.syc~hophy.c.ic~s, applied uspects, <strong>and</strong> general interpretdons (pp. 581-620). New York: Springer-Verlag. Liedgren, S. R., & Rubin, A. M. (1976). Vestibule-thalamic projections studied with antidromic techniques in the cat. Acra O<strong>to</strong>- Irrpngdogy. 82, 379-387. Lund, R. D. ( 1978). Development und plasticity of the hrain: An introduction. New York: Oxford University Press. Magnin, M., & Fuchs. A. F. (1977). Discharge properties of neurons in the monkey thalamus tested with angular acceleration, eye movement, <strong>and</strong> visual stimuli. Experimental Bruin Research, 28, 293-299. McGuinness, D.. & Pribram, K. (1980). The neuropsychology ot attention: Emotional <strong>and</strong> motivational controls. In W. Hiack (Ed.), The hrain <strong>and</strong> psychology (pp. 95-139). Orl<strong>and</strong>o: Academic Press. Moore, J. (1976). Behavior, Bias <strong>and</strong> the Limbic System. American Journal of Occupntional Therapy, 30( I), I I - 19.
Moore, J. (1980). Neuroana<strong>to</strong>mical considerations relating <strong>to</strong> recovery of function following brain lesions. In P. Bach-y-Rita (Ed.). Rccowt:~ of function: Theoretictzl consitlerutions ,fi)r bruit1 in,jury rehubilitution (pp. 9-90). Baltimore: University Park Press. Noback, C. R., & Demarest, R. J. (1987). T11e 11utnun t~~v-vou.\ ~j1.stetn. New York: McCraw-Hill. Oetter, P., Laurel, M. K.. & Cool, S. J. (1991). Sensorimo<strong>to</strong>r Foundations of Communication. <strong>Neuroscience</strong> Foundations of Human Performance. AOTA Self Studv Series, 10. deQuiros, J. B., & Schrager. 0. L. (1978). Neurop.s!;chologiccil.fi~~~c/nmentc~ls in letzrning distzbililie~. San Rafael, CA: Academ~c Therapy Publications. Sachar. E. (1985a). Disorders of feeling: affective diseases. In E. K<strong>and</strong>el & J. Schwartz (Eds.), Princ-iplc~ of~rerrrtrl science (2nd rd.) (pp. 7 17-726). New York: Elsevier. Sachar, E. (1985h). Disorders of thought: The schizophrenic syndromes. In E. K<strong>and</strong>el & J. Schwartz (Eds.). Principl(~.c ofneuru1 .scipnce (2nd ed.) (pp. 704-716). New York: Elsevier. Schiller, P. H. (1984). The superior colliculus <strong>and</strong> visual function. In I. Darian-Smith. Hnnrll,ook ofphysiology, Section I: The rwrvous systrm, Volunlr I/: Sensor!; processes, Port 2 (p. 457- 506). Bethesda, MD: American Physiology Society. Stellar, J., & Stellar. E. ( 1985). The neurobiology ofmotivation <strong>and</strong> rewc~rcl. New York: Springer-Verlag. Vinogradova, 0. S. (1970). Registration of information <strong>and</strong> the limbic system. In G. Horn & R. A. Hinde (Eds.), Short-tertn changes in neural tzctivity tznd bt7htzvior (pp. 95- 139). Cambridge University Press. Wepsic. J. G. (1966). Mulrimodal sensory acrivation of cells in the maguocellular medial geniculate nucleus. E.rperimentc11 Neurology. 1.5, 299-319.
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