Comparison of visual and auditory emotion recognition in patients with cerebellar and Parkinson´s disease

References

• Adamaszek, M., D’Agata, F., Ferrucci, R., Habas, C., Keulen, S., et al. (2016). Consensus paper: Cerebellum and emotion. Cerebellum (London, England), 16(2), 552–576.
   Google Scholar
• Adamaszek, M., D’Agata, F., Trenner, M. U., Kirkby, K. C., Sehm, B., Steele, C., … Strecker, K. (2014). Impairment of emotional facial expression and prosody discrimination due to ischemic cerebellar lesions. Cerebellum (London, England), 13(3), 338–345.
   Google Scholar
• Adamaszek, M., Kirkby, K. C., D’Agata, F., Olbrich, S., Langner, S., & Berneiser J. (2015). Neural correlates of impaired emotional face recognition in cerebellar lesions. Brain Research, 1613, 1–12.
   Google Scholar
• Adolphs, R. (2004). Processings of emotional and social information by the human amygdala. In M. S. Gazzaniga Editor-in-chief, (ed.) The New cognitive neurosciences III 3rd ed., pp. 1005–1016. Massachusetts: MIT Press.
   Google Scholar
• Adolphs, R., Schul, R., & Tranel, D. (1998). Intact recognition of facial emotion recognition tasks in Parkinson´s disease. Neuropsychol, 12, 253–258.
   Google Scholar
• Argaud, S., Delplanque, S., Houvenaghel, J. F., Auffret, M., Duprez, J., et al. (2016). Does facial amimia impact the recognition of facial emotion? An EMG study in Parkinson’s disease. PLoS One, 11(7), e0160329.
   Google Scholar
• Ariatti, A., Benuzzi, F., & Nichelli, P. (2008). Recognition of emotions from visual and prosodic cues in Parkinson´s disease. Neurological Sciences, 29, 219–227.
   Google Scholar
• Aso, K., Hanokawa, T., Aso, T., & Fukuyama, H. (2010). Cerebro-cerebellar interactions underlying temporal information processing. Journal of Cognitive Neuroscience, 22(12), 2913–2925.
   Google Scholar
• Blazquez, P. M., Fujii, N., Kojima, J., & Graybiel, A. M. (2002). A network representation of response probability in the striatum. Neuron, 33(6), 973–982.
   Google Scholar
• Bostan, A. C., Dum, R. P., & Strick, P. L. (2013). Cerebellar networks with the cerebral cortex and basal ganglia. Trends in Cognitive Sciences, 17(5), 241–254.
   Google Scholar
• Bowers, D., Bonder, L. X., & Heiman, K. M. (1999). The florida affect battery (revised version). Gainesville (FL): Center for Neuropsychological Studies, University of Florid.
   Google Scholar
• Breitenstein, C., Daum, I., & Ackermann, H. (1998). Emotional processing following cortical and subcortical damage: Contribution of the frontal-striatal circuitry. Behavioural Neurology, 11, 29–42.
   Google Scholar
• Breitenstein, C., Daum, I., Ackermann, H., Lütgehetmann, R., & Müller, E. (1996). Erfassung der emotionswahrnehmung bei zentralnervösen Läsionen und Erkrankungen: Psychometrische Gütekriterien der Tübinger Affekt Batterie“. Neurologische Rehabilitation, 2, 93–101.
   Google Scholar
• Cesa, R., & Strata, P. (2009). Axonal competition in the synaptic wiring of the cerebellar cortex during development and in the mature cerebellum. Neuroscience, 162(3), 624–632.
   Google Scholar
• Clower, D. M., Dum, R. P., & Strick, P. L. (2005). Basal ganglia and cerebellar inputs to ‘AIP’. Cerebral Cortex (New York, N.Y. : 1991), 15(7), 913–920.
   Google Scholar
• D’Agata, F., Caroppo, P., Baudino, B., Caglio, M., Croce, M., et al. (2011). The recognition of facial emotions in spinocerebellar ataxia patients. Cerebellum (London, England), 10(3), 600–610.
   Google Scholar
• D’Angelo, E., & De Zeeuw, C. I. (2009). Timing and plasticity in the cerebellum: Focus on the granular layer. Trends in Neurosciences, 32(1), 30–40.
   Google Scholar
• Enrici, I., Adenzato, M., Ardito, R. B., Mitkova, A., Cavallo, M., et al. (2015). Emotion processing in Parkinson`s disease: A three-level study on recognition, representation, and regulation. PloS ONE, 10(6), e0131470.
   Google Scholar
• Ferrucci, R., Giannicola, G., Rosa, M., Fumagalli, M., Boggio, P. S., Hallett, M., … Priori, A. (2012). Cerebellum and processing of negative facial emotions: Cerebellar transcranial DC stimulation specifically enhances the emotional recognition of facial anger and sadness. Cognition Emo, 26(5), 786–799.
   Google Scholar
• Frühholz, S., & Grandjean, D. (2012). Towards a fronto-temporal neural network for the decoding of angry vocal expressions. Neuroimage, 62(3), 1658–1666.
   Google Scholar
• Fusar-Poli, P., Placentino, A., Carletti, F., Landi, P., Allen, P., Surguladze, S., … Politi, P. (2009). Functional atlas of emotional faces processing: A voxel-based meta-analysis of 105 functional magnetic resonance imaging studies. Journal Psychia Neuroscience, 34(6), 418–432.
   Google Scholar
• Garrido-Vásquez, P., Pell, M. D., Paulmann, S., Strecker, K., Schwarz, J., & Kotz, S. A. (2013). An ERP study of vocal emotion processing in asymmetric Parkinson´s disease. Social Cognitive and Affective Neuroscience, 8(8), 918–927.
   Google Scholar
• Goetz, C. G., Tilley, B. C., Shaftman, S. R., Stebbins, G. T., Fahn, S., et al. (2008). Movement disorder society-sponsored revision of the unified Parkinson’s disease rating scale (MDS-UPDRS): Scale presentation and clinimetric testing results. Movement Disorders : Official Journal of the Movement Disorder Society, 23, 2129–2170.
   Google Scholar
• Gray, H. M., & Tickle-Degnen, L. (2010). A meta-analysis of performance on emotion recognition tasks in Parkinson`s disease. Neuropsychol, 24, 176–191.
   Google Scholar
• Graybiel, A., & Mink, J. W. (2009). The basal ganglia and cognition. In M. Gazzanigga (Ed.), The cognitive neurosciences IV (pp. 565–585). Cambridge, MA: MIT Press.
   Google Scholar
• Habas, C., Kamdar, N., Nguyen, D., Prater, K., Beckmann, C. F., Menon, V., & Greicius, M. D. (2009). Distinct cerebellar contributions to intrinsic connectivity ntworks. The Journal of Neuroscience, 29(26), 8586–8594.
   Google Scholar
• Hamilton, M. (1960). A rating scale for depression. Journal Neurologic Neurosurgery Psychia, 23, 56–62.
   Google Scholar
• Hoehn, M., & Yahr, M. (1967). Parkinsonism: Onset, progression and mortality. Neurology, 17(5), 427–442.
   Google Scholar
• Jenkinson, M., Bannister, P., Brady, M., & Smith, S. (2002). Improved optimization for the robust and accurate linear registration and motion correction of brain images. NeuroImage, 17, 825–841.
   Google Scholar
• Jensen, M. B., & Lyden, P. (2006). Stroke scales: An update. Stroke Clinical Updates, 16, 1–7.
   Google Scholar
• Kesler-West, M. L., Andersen, A. H., Smith, C. D., Avison, M. J., Davis, C. E., Kryscio, R. J., & Blonder, L. X. (2001). Neural subtrates of facial emotion processing using fMRI. Cognition Brain Researcher, 11, 213–226.
   Google Scholar
• Kotz, S. A., & Schwartze, M. (2010). Cortical speech processing unplugged: A timely subcortico-cortical framework. Trends in Cognitive Sciences, 14, 392–399.
   Google Scholar
• Krakauer, J. W., & Shadmehr, R. (2007). Towards a computational neuropsychology of action. Progress in Brain Research, 165, 383–394.
   Google Scholar
• Krienen, F. M., & Buckner, R. L. (2009). Segregated fronto-cerebellar circuits revealed by intrinsic funtional connectivity. Cerebral Cortex, 19(10), 2485–2497.
   Google Scholar
• LeDoux, J. E. (2000). Emotion circuits in the brain. Annual Review of Neuroscience, 23, 154–184.
   Google Scholar
• Leggio, M. G., Chirocozzi, F. R., Clausi, S., Tedesco, A. M., & Molinari, M. (2011). The neuropsychological profile of cerebellar damage: The sequencing hypothesis. Cortex, 47(1), 137–144.
   Google Scholar
• Livingstone, S. R., Vezer, E., McGarry, L. M., Lang, A. E., & Russo, F. A. (2016). Deficits in the mimicry of facial expressions in Parkinson’s disease. Frontiers in Psychology, 7:780.
   Google Scholar
• McAuliffe, M. J., Lalonde, F. M., McGarry, D., Gandler, W., Csaky, K., & Trus, B. L. (2001) Medical image processing, analysis and visualization in clinical research. In: 14th IEEE Symposium on Computer-Based Medical Systems. CBMS Proc:381–386.
   Google Scholar
• Middleton, F. A., & Strick, P. L. (2000). Basal ganglia and cerebellar loops: Motor and cognitive circuits. Brain Research. Brain Research Reviews, 31(2–3), 236–250.
   Google Scholar
• Moulton, E. A., Elman, I., Pendse, G., Schmahmann, J., Becerra, L., & Borsook, D. (2011). Aversion-related circuitry in the cerebellum: Responses to noxious heat and unpleasant images that link cerebellar posterior activity to aversion processing. Journal of Neuroscience, 31(10), 3795–3804.
   Google Scholar
• O´Halloran, C. J., Kinsella, G. J., & Storey, E. (2012). The cerebellum and neuropsychological functioning: A critical review. Journal of Clinical and Experimental Neuropsychology, 34(1), 35–56.
   Google Scholar
• Palermo, R., & Rhodes, G. (2007). Are you always on my mind? A review of how face perception and attention interact. Neuropsychol, 45(1), 75–92.
   Google Scholar
• Perón, J., Dondaine, T., Le Jeune, F., Grandjean, D., & Vérin, M. (2012). Emotional processing in Parkinson´s disease: A systematic review. Movement of Diseases, 27(29), 186–199.
   Google Scholar
• Pessoa, L. (2005). To what extent are emotional visual stimuli processed without attention and awareness? Current Opinion in Neurobiology, 15(2), 188–196.
   Google Scholar
• Pessoa, L. (2008). On the relationship between emotion and cognition. Nature Reviews Neuroscience, 9(2), 148–158.
   Google Scholar
• Prochnow, D., Höing, B., Kleiser, R., Lindenberg, R., Wittsack, H. J., Schäfer, R., … Seitz, R. J. (2013). The neural correlates of affect reading: An fMRI study on faces and gestures. Behavioural Brain Research, 237, 270–277.
   Google Scholar
• Ramnani, N. (2006). The primate cortico-cerebellar system : Anatomy and function. Nature Reviews. Neuroscience, 7(7), 511–522.
   Google Scholar
• Sacchetti, B., Baldi, E., Lorenzini, C. A, & Bucherelli, C. (2002). Cerebellar role in fear-conditioning consolidation. Proceedings of the National Academy of Sciences, 99, 8406–8411.
   Google Scholar
• Saenz, A., Doé de Maindreville, A., Henry, A., De Labbey, S., Bakchine, S., & Ehrlé, N. (2013). Recognition of facial and musical emotions in Parkinson´s disease. European Journal of Neurology, 20(3), 571–577.
   Google Scholar
• Schmahmann, J. (2014). Dysmetria of Thought: A unifying hypothesis for the cerebellar role in sensorimotor function, cognition, and emotion. In: Koziol et al., Consensus paper: The Cerebellum´s role in movement and cognition. Cerebellum (London, England), 13(1), 151–177.
   Google Scholar
• Schmahmann, J. D., Gardner, R., MacMore, J., & Vangel, M. G. (2009). Development of a brief ataxia rating scale (BARS) based on a modified form of ths ICARS. Movement Disorders : Official Journal of the Movement Disorder Society, 24(12), 1820–1828.
   Google Scholar
• Schmahmann, J. D., & Sherman, J. C. (1998). The cerebellar cognitive affective syndrome. Brain, 121, 561–579.
   Google Scholar
• Schweizer, T. A., Levine, B., Rewilak, D., O’Connor, C., Turner, G., et al. (2007). Rehabilitation of executive functioning after focal damage to the cerebellum. Neurorehabil Neural Repair, 22(1), 72–77.
   Google Scholar
• Shobe, E. R. (2014). Independent and collaborative contributions of the cerebral hemispheres to emotional processing. Frontiers in Human Neuroscience, 8, 230.
   Google Scholar
• Sokolovsky, N., Cook, A., Hunt, H., Giunti, P., & Cipolotti, L. (2010). A preliminary characterisation of cognition and social cognition in spinocerebellar ataxia taypes 2,1, and 7. Behavioural Neurology, 23(1–2), 17–29.
   Google Scholar
• Sprengelmeyer, R., Rausch, M., Eysel, U., & Przuntek, H. (1998). Neural structures associated with recognition of facial expressions of basic emotion. Proceedings of the Royal Society B: Biological Science, 265, 1927–1931.
   Google Scholar
• Stoodley, C. J., & Schmahmann, J. D. (2009). Functional topography in the human cerebellum: A meta-analysis of neuroimaging studies. Neuroimage, 44, 489–501.
   Google Scholar
• Strick, P. L., Dum, R. P., & Fiez, J. A. (2009). Cerebellum and Nonmotor Function. An Reviews Neuroscience, 32, 413–434.
   Google Scholar
• Timmann, D., Drepper, J., Frings, M., Maschke, M., Richter, S., Gerwig, M., & Kolb, F. P. (2009). The human cerebellum contributes to motor, emotional and cognitive associative learning. A Review. Cortex, 46(7), 845–857.
   Google Scholar
• Turner, B. M., Paradiso, S., Marvel, C. L., Pierson, R., Boles Pontoc, L. L., Hichwac, R. D., & Robinsonet, R. G. (2007). The cerebellum and emotional experience. Neuropsychology, 45, 1331–1341.
   Google Scholar