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  • 1
    Rolls ET. The Brain and Emotion. Oxford : Oxford University Press; 1999.
  • 2
    Norgren R. Central neural mechanisms of taste. InDarien-SmithI., ed. Handbook of Physiology. The Nervous System III. Sensory Processes 1. Washington , DC : American Physiological Society; 1984:S1087S1128.
  • 3
    Pritchard TC, Hamilton RB, Morse JR, Norgren R. Projections of thalamic gustatory and lingual areas in the monkey, Macaca fascicularis. J Comp Neurol 1986;244:S213S228.
  • 4
    Rolls ET, Yaxley S., Sienkiewicz ZJ. Gustatory responses of single neurons in the caudolateral orbitofrontal cortex of the macaque monkey. J Neurophysiol 1990;64:S1055S1066.
  • 5
    Rolls ET. Taste and olfactory processing in the brain and its relation to the control of eating. Crit Rev Neurobiol 1997;11:S263S287.
  • 6
    Baylis LL, Rolls ET. Responses of neurons in the primate taste cortex to glutamate. Physiol Behav 1991;49:S973S979.
  • 7
    Rolls ET, Critchley H., Wakeman EA, Mason R. Responses of neurons in the primate taste cortex to the glutamate ion and to inosine 5′-monophosphate. Physiol Behav 1996;59:S991S1000.
  • 8
    Chaudhari N., Landin AM, Roper SD. A metabotropic glutamate receptor variant functions as a taste receptor. Nat Neurosci 2000;3:S113S119.
  • 9
    Rolls ET, Critchley HD, Browning A., Hernadi I. The neurophysiology of taste and olfaction in primates, and umami flavor. Ann N Y Acad Sci 1998;855:S426S437.
  • 10
    Yaxley S., Rolls ET, Sienkiewicz ZJ, Scott TR. Satiety does not affect gustatory activity in the nucleus of the solitary tract of the alert monkey. Brain Res 1985;347:S85S93.
  • 11
    Rolls ET, Scott TR, Sienkiewicz ZJ, Yaxley S. The responsiveness of neurones in the frontal opercular gustatory cortex of the macaque monkey is independent of hunger. J Physiol 1988;397:S1S12.
  • 12
    Yaxley S., Rolls ET, Sienkiewicz ZJ. The responsiveness of neurons in the insular gustatory cortex of the macaque monkey is independent of hunger. Physiol Behav 1988;42:S223S229.
  • 13
    Rolls ET, Sienkiewicz ZJ, Yaxley S. Hunger modulates the responses to gustatory stimuli of single neurons in the caudolateral orbitofrontal cortex of the macaque monkey. Eur J Neurosci 1989;1:S53S60.
  • 14
    Cabanac M. Physiological role of pleasure. Science 1971;173:S1103S1107.
  • 15
    Rolls BJ, Rolls ET, Rowe EA, Sweeney K. Sensory specific satiety in man. Physiol Behav 1981;27:S137S142.
  • 16
    Rolls BJ, Rowe EA, Rolls ET, Kingston B., Megson A., Gunary R. Variety in a meal enhances food intake in man. Physiol Behav 1981;26:S215S221.
  • 17
    Rolls BJ, Rowe EA, Rolls ET. How sensory properties of foods affect human feeding behavior. Physiol Behav 1982;29:S409S417.
  • 18
    Rolls ET, Rolls BJ. Activity of neurones in sensory, hypothalamic and motor areas during feeding in the monkey. In: KatsukiY., SatoM., TakagiS., OomuraY., eds. Food Intake and Chemical Senses. Tokyo : University of Tokyo Press; 1977:S525S549.
  • 19
    Rolls ET, Rolls BJ. Brain mechanisms involved in feeding. In: BarkerLM, ed. Psychobiology of Human Food Selection. Westport , CT : AVI Publishing Company; 1982:S33S62.
  • 20
    Rolls BJ, Rolls ET, Rowe EA. Body fat control and obesity. Behav Brain Sci 1983;4:S744S745.
  • 21
    Rolls ET, Rolls BJ, Rowe EA. Sensory-specific and motivation-specific satiety for the sight and taste of food and water in man. Physiol Behav 1983;30:S185S192.
  • 22
    Rolls ET, Murzi E., Yaxley S., Thorpe SJ, Simpson SJ. Sensory-specific satiety: food-specific reduction in responsiveness of ventral forebrain neurons after feeding in the monkey. Brain Res 1986;368:S79S86.
  • 23
    Critchley HD, Rolls ET. Olfactory neuronal responses in the primate orbitofrontal cortex: analysis in an olfactory discrimination task. J Neurophysiol 1996;75:S1659S1672.
  • 24
    Rolls ET. The orbitofrontal cortex. Phil Trans R Soc Lond B Biol Sci 1996;351:S1433S1444.
  • 25
    Rolls ET. The orbitofrontal cortex and reward. Cereb Cortex 2000;10:S284S294.
  • 26
    Rolls ET. Taste, olfactory, visual and somatosen-sory representations of the sensory properties of foods in the brain, and their relation to the control of food intake. In: BerthoudH-R, SeeleyRJ, eds. Neural and Metabolic Control of Macronutrient Intake. Boca-Raton , FL : CRC Press; 2000:S247S262.
  • 27
    Scott TR, Yan J., Rolls ET. Brain mechanisms of satiety and taste in macaques. Neurobiology 1995; 3:S281S292.
  • 28
    Rolls ET, Scott TR. Central taste anatomy and neurophysiology. In: DotyRL, ed. Handbook of Olfaction and Gustation. 2nd ed. New York : Dekker; 2003:S679S705.
  • 29
    Rolls ET, Baylis LL Gustatory, olfactory and visual convergence within the primate orbitofrontal cortex J Neurosci 1994;14:S5437S5452.
  • 30
    Rolls ET. The rules of formation of the olfactory representations found in the orbitofrontal cortex olfactory areas in primates. Chem Senses 2001;26:S595S604.
  • 31
    Rolls ET. The cortical representation of taste and smell. In: RoubyG., SchaalB., DuboisD., GervaisR., HolleyA., eds. Olfaction, Taste and Cognition. New York : Cambridge University Press; 2002.
  • 32
    Rolls ET. The functions of orbitofrontal cortex. In: StussDT, KnightRT, eds. Principles of Frontal Lobe Function. New York : Oxford University Press; 2002:S354S375.
  • 33
    Rolls ET, Critchley HD, Treves A. Representation of olfactory information in the primate orbitofrontal cortex. J Neurophysiol 1996;75:S1982S1996.
  • 34
    Critchley HD, Rolls ET. Hunger and satiety modify the responses of olfactory and visual neurons in the primate orbitofrontal cortex. J Neurophysiol 1996; 75:S1673S1686.
  • 35
    Rolls BJ, van Duijvenvoorde PM, Rolls ET. Pleasantness changes and food intake in a varied four-course meal. Appetite 1984;5:S337S348.
  • 36
    Rolls BJ. The role of sensory-specific satiety in food intake and food selection. In: CapaldiED, PowleyTL, eds. Taste, Experience, and Feeding. Washington , DC : American Psychological Association; 1990:S197S209.
  • 37
    Cabanac M., Fantino M. Origin of olfacto-gustatory alliesthesia: Intestinal sensitivity to carbohydrate concentration Physiol Behav 1977;18:S1039S1045.
  • 38
    Cabanac M., Duclaux R. Specificity of internal signals in producing satity for taste stimuli. Nature 1970;227:S966S967.
  • 39
    Rolls ET, Rolls JH. Olfactory sensory-specific satiety in humans. Physiol Behav 1997;61:S461S473.
  • 40
    Rolls BJ, van Duijenvoorde PM, Rowe EA. Variety in the diet enhances intake in a meal and contributes to the development of obesity in the rat. Physiol Behav 1983;31:S21S27.
  • 41
    Rolls BJ, Hetherington M. The role of variety in eating and body weight regulation. In: ShepherdR., ed. Handbook of the Psychophysiology of Human Eating. Sussex , UK : John Wiley & Sons; 1989:S57S84.
  • 42
    Rolls ET, Critchley HD, Mason R., Wakeman EA. Orbitofrontal cortex neurons: role in olfactory and visual association learning. J Neurophysiol 1996; 75:S1970S1981.
  • 43
    Thorpe SJ, Rolls ET, Maddison S. Neuronal activity in the orbitofrontal cortex of the behaving monkey. Exp Brain Res 1983;49:S93S115.
  • 44
    Rolls ET. The neural control of feeding in primates. In: BoothDA, ed. Neurophysiology of Ingestion. Oxford , UK : Pergamon Press; 1993:S137S169.
  • 45
    Rolls ET. Neural processing related to feeding in primates. In: LeggCR, BoothDA, eds. Appetite: Neural and Behavioral Bases. Oxford , UK : Oxford University Press; 1994:S11S53.
  • 46
    Rolls ET. Taste and olfactory processing in the brain, and its relation to the control of eating. Crit Rev Neurobiol 1997;11:S263S287.
  • 47
    Rolls ET, Verhagen JV, Kadohisa M. Representations of the texture of food in the primate orbitofrontal cortex: neurons responding to viscosity, grittiness and capsaicin. J Neurophysiol 2003;90:S3711S3724.
  • 48
    Kadohisa M., Rolls ET, Verhagen JV. Orbitofrontal cortex neuronal representation of temperature and capsaicin in the mouth. Neuroscience 2004;127:S207S221.
  • 49
    Rolls ET, Critchley HD, Browning AS, Hernadi I., Lenard L. Responses to the sensory properties of fat of neurons in the primate orbitofrontal cortex. J Neurosci 1999;19:S1532S1540.
  • 50
    Verhagen JV, Rolls ET, Kadohisa M. Neurons in the primate orbitofrontal cortex respond to fat texture independently of viscosity. J Neurophysiol 2003; 90:S1514S1525.
  • 51
    Francis S., Rolls ET, Bowtell R., et al. The representation of pleasant touch in the brain and its relationship with taste and olfactory areas. Neuroreport 1999;10:S453S459.
  • 52
    O'Doherty J., Rolls ET, Francis S., Bowtell R., Mc-Glone F. Representation of pleasant and aversive taste in the human brain. J Neurophysiol 2001;85:S1315S1321.
  • 53
    de Araujo IE, Kringelbach ML, Rolls ET, McGlone F. Human cortical responses to water in the mouth, and the effects of thirst. J Neurophysiol 2003;90:S1865S1876.
  • 54
    de Araujo IE, Kringelbach ML, Rolls ET, Hobden P. Representation of umami taste in the human brain. J Neurophysiol 2003;90:S313S319.
  • 55
    Poellinger A., Thomas R., Lio P., Lee A., Makris N., Rosen BR, Kwong KK. Activation and habituation in olfaction—an fMRI study. Neuroimage 2001;13:S547S560.
  • 56
    Sobel N., Prabkakaran V., Zhao Z., et al. Time course of odorant-induced activation in the human primary olfactory cortex. J Neurophysiol 2000;83:S537S551.
  • 57
    Zald DH, Pardo JV. Emotion, olfaction, and the human amygdala: amygdala activation during aversive olfactory stimulation. Proc Natl Acad Sci USA 1997;94:S4119S4124.
  • 58
    Zatorre RJ, Jones-Gotman M., Evans AC, Meyer E. Functional localization of human olfactory cortex. Nature 1992;360:S339S340.
  • 59
    O'Doherty J., Rolls ET, Francis S., et al. Sensory-specific satiety related olfactory activation of the human orbitofrontal cortex. Neuroreport 2000;11:S893S897.
  • 60
    Kringelbach ML, O'Doherty J., Rolls ET, Andrews C. Activation of the human orbitofrontal cortex to a liquid food stimulus is correlated with its subjective pleasantness. Cereb Cortex 2003;13:S1064S1071.
  • 61
    Rolls ET, Kringelbach ML, de Araujo IE. Different representations of pleasant and unpleasant odours in the human brain. Eur J Neurosci 2003;18:S695S703.
  • 62
    Rolls ET, Treves A. Neural Networks and Brain Function. Oxford , UK : Oxford University Press; 1998.
  • 63
    Rolls ET, Deco G. Computational Neuroscience of Vision. Oxford , UK : Oxford University Press; 2002.
  • 64
    de Araujo IE, Rolls ET, Kringelbach ML, McGlone F., Phillips N. Taste-olfactory convergence, and the representation of the pleasantness of flavour, in the human brain. Eur J Neurosci 2003;18:S2059S2068.
  • 65
    de Araujo IE, Rolls ET. The representation in the human brain of food texture and oral fat. J Neurosci 2004;24:S3086S3093.
  • 66
    Rolls ET, O'Doherty J., Kringelbach ML, Francis S., Bowtell R., McGlone F. Representations of pleasant and painful touch in the human orbitofrontal and cingulate cortices. Cereb Cortex 2003;13:S308S317.
  • 67
    O'Doherty J., Kringelbach ML, Rolls ET, Hornak J., Andrews C. Abstract reward and punishment representations in the human orbitofrontal cortex. Nat Neurosci 2001;4:S95S102.
  • 68
    Rolls ET. The representation of umami taste in the taste cortex. J Nutr 2000;130:S960S965.
  • 69
    Rolls ET. Precis of the brain and emotion. Behav Brain Sci 2000;23:S177S233.