Temporal preparation in patients with Neglect syndrome

  1. Mónica Triviño 1
  2. Estrella Ródenas 2
  3. Ángel Correa 2
  1. 1 San Rafael University Hospital
  2. 2 Universidad de Granada
    info

    Universidad de Granada

    Granada, España

    ROR https://ror.org/04njjy449

Revista:
Psicológica: Revista de metodología y psicología experimental

ISSN: 1576-8597

Año de publicación: 2020

Volumen: 41

Número: 1

Páginas: 66-83

Tipo: Artículo

DOI: 10.2478/PSICOLJ-2020-0004 DIALNET GOOGLE SCHOLAR lock_openAcceso abierto editor

Otras publicaciones en: Psicológica: Revista de metodología y psicología experimental

Resumen

The right parietal cortex has been widely associated with a spatial orienting network. Its damage frequently produces the Neglect syndrome consisting in deficits in spatial attention to the left hemifield. Neglect has also been related to temporal deficits (such as the estimation of the duration of a stimulus or the discrimination of two stimuli that occur at the same spatial location but at different time intervals). Such attentional deficits have been much less studied in the temporal as compared to the spatial domain. The current research focused on the study of temporal attention processes in patients with Neglect syndrome, specifically, on temporal preparation. We recruited 10 patients with Neglect syndrome, 10 patients without Neglect syndrome, as well as 11 healthy individuals. Each participant completed an experimental task which measures three main temporal preparation effects described in the literature: Temporal orienting and Foreperiod effects (both related to control mechanisms and prefrontal areas) and Sequential effects (automatic in nature and related to parietal and subcortical structures). The results showed a deficit in the sequential effects only in those patients who suffered from Neglect syndrome. The results suggest a causal relation between Neglect syndrome and the automatic mechanisms of temporal preparation. Since our sample of Neglect patients had suffered lesions mainly in the parietal cortex, the results are discussed taking into account the role of the parietal lobe in the processing of time and the models explaining sequential effects.

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* Corresponding author: Mónica Triviño Mosquera. San Rafael University Hospital, c/ San Juan de Dios, 16, 18006, Granada (SPAIN). E-mail: mtrivino@ugr.es. Acknowledgements: This work was supported by the Junta de Andalucía (Research Project Reference: SEJ-3054, http://www.juntadeandalucia.es).

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Referencias bibliográficas

  • Agosta, S., Magnano, D., Tyler, S., Grossman, E., Galante, E., Ferraro, F., Mazzini, N., Miceli, G., Battelli, L. (2017). The pivotal role of the right parietal lobe in temporal attention. Journal of Cognitive Neuroscience, 29(5), 805-815.
  • Battelli, L., Pascual-Leone, A., Cavanagh, P. (2007). The ‘when’ pathway of the right parietal lobe. Trends in Cognitive Sciences, 11(5), 204-210.
  • Battelli, L., Walsh, V., Pascual-Leone, A., Cavanagh, P. (2008). The ‘when’ parietal pathway explored by lesion studies. Current Opinion in Neurobiology, 18(2), 120-126.
  • Berberovic, N., Pisella, L., Morris, A.P., Mattingley, J.B. (2004). Prismatic adaptation reduces biased temporal order judgements in spatial neglect. Neuroreport, 15, 1199-1204.
  • Boukrina, O., Barrett, A.M. (2017). Disruption of the ascending arousal system and cortical attention networks in post-stroke delirium and spatial neglect. Neuroscience & Behavioral Reviews, 83, 1-10.
  • Breska, A., Ivry, R. B. (2018). Double dissociation of single-interval and rhythmic temporal prediction in cerebellar degeneration and Parkinson’s disease. Proceedings of the National Academy of Sciences, 115(48), 12283–12288. https://doi.org/10.1073/pnas.1810596115
  • Calabria, M., Jacquin-Courtois, S., Miozzo, A., Rossetti, Y., Padovani, A., Cotelli, M., Miniussi, C. (2011). Time perception in spatial neglect: a distorted representation? Neuropsychology, 25(2), 193-200.
  • Capizzi, M., Correa, A. Measuring Temporal Preparation. In Vatakis, A., Balci, F., Di Luca, M., Correa, A. (Eds.). (2018). Timing and Time Perception: Procedures, Measures, and Applications. BRILL: https://brill.com/view/title/26665. (pp. 216-232).
  • Capizzi, M., Correa, A., Sanabria, D. (2013). Temporal orienting of attention is interfered by concurrent working memory updating. Neuropsychologia, 51, 326-339.
  • Capizzi, M., Correa, A., Wojtowicz, A., Rafal, R.D. (2015). Foreperiod priming in temporal preparation: testing current models of sequential effects. Cognition, 134, 39-49.
  • Capizzi, M., Sanabria, D., Correa, A. (2012). Dissociating controlled from automatic processing in temporal preparation. Cognition, 123(2), 293-302.
  • Correa, A., Cona, G., Arbula, S., Vallesi, A., Bisiacchi, P. (2014). Neural dissociation of automatic and controlled temporal preparation by transcranial magnetic stimulation. Neuropsychologia, 65, 131–136. https://doi.org/10.1016/j.neuropsychologia.2014.10.023
  • Correa, A., Lupiáñez, J., Milliken, B., Tudela, P. (2004). Endogenous temporal orienting of attention in detection and discrimination tasks. Perception & Psychophysics, 66, 264-278.
  • Correa, A., Lupiáñez, J., Tudela, P. (2006). The attentional mechanism of temporal orienting: determinants and attributes. Experimental Brain Research, 169(1), 58-68.
  • Correa, A., Miró, E., Martínez, M. P., Sánchez, A. I., Lupiáñez, J. (2011). Temporal preparation and inhibitory deficit in fibromyalgia syndrome. Brain and Cognition, 75(3), 211–216. https://doi.org/10.1016/j.bandc.2010.11.005
  • Correa, A., Triviño, M., Pérez-Dueñas, C., Acosta, A., Lupiáñez, J. (2010). Temporal preparation, response inhibition and impulsivity. Brain and Cognition, 73(3), 222–228. https://doi.org/10.1016/j.bandc.2010.05.006
  • Coull, J., Cotti, J., Franck, V. (2016). Differential roles for parietal and frontal cortices in fixed versus evolving temporal expectations: Dissociating prior from posterior temporal probabilities with fMRI. NeuroImage, 141. 10.1016/j.neuroimage.2016.07.036. Google Scholar
  • Coull, J.T., Nobre, A.C. (2008). Dissociating explicit timing from temporal expectation with fMRI. Current Opinion in Neurobiology, 18: 1-8.
  • Coull, J.T., Nobre, A.C. (1998). Where and when to pay attention: the neural systems for directing attention to spatial locations and to time intervals as revealed by both PET and f MRI. Journal of Neuroscience, 18(18), 7426-7435.
  • Coull, J.T., Vidal, F., Nazarian, B., Macar, F. (2004). Functional anatomy of the attentional modulation of time estimation. Science, 303: 1506-1508.
  • Cutanda, D., Correa, A., Sanabria, D. (2015). Auditory temporal preparation induced by rhythmic cues during concurrent auditory working memory tasks. Journal of Experimental Psychology. Human Perception and Performance, 41(3), 790–797. https://doi.org/10.1037/a0039167
  • Danckert, J., Ferber, S., Pun, C., Broderick, C., Striemer, C., Rock, S., Stewart, D. (2007). Neglected Time: Impaired Temporal Perception of Multisecond Intervals in Unilateral Neglect. Journal of Cognitive Neuroscience, 19(10), 1706-1720.
  • Hedge, C., Powell, G., Sumner, P. (2018). The Mapping Between Transformed Reaction Time Costs and Models of Processing in Aging and Cognition. Psychology and Aging, 33(7): 1093–1104.
  • Husain, M., Rorden, C. (2003). Non-spatially lateralized mechanisms in hemispatial neglect. Nature Reviews Neuroscience, 4, 26-36.
  • Husain, M., Shapiro, K., Martin, J., Kennard, C. (1997). Abnormal temporal dynamics of visual attention in spatial neglect patients. Nature, 9;385(6612), 154-156.
  • Jarosz, A. F., Wiley, J. (2014). What are the odds? A practical guide to computing and reporting Bayes factors. Journal of Problem Solving, 7, 2–9. doi: 10.7771/1932-6246.1167
  • JASP Team (2016). JASP (Version 0.8.0.1) [Computer software].
  • Los, S.A. (1996). On the origin of the mixing costs: exploring information processing in pure and mixed blocks of trials. Acta Psychologica, 94, 145-188.
  • Los, S.A. Foreperiod and Sequential effects: theory and data. In Nobre, A.C. & Coull, J.T. (2010). Attention and time. Oxford: Oxford University Press, (pp. 289-302).
  • Los, S.A., Van de Heuvel, C.E. (2001). Intentional and unintentional contributions to nonspecific preparation during reaction time foreperiods. Journal of Experimental Psychology: Human perception and Performance, 27, 370-386.
  • Mioni, G., Capizzi, M., Vallesi, A., Correa, A., Di Giacopo, R., Stablum, F (2018). Dissociating explicit and implicit timing in Parkinson’s Disease patients: evidence from bisection and foreperiod tasks. Frontiers in Human Neuroscience, 12, doi:10.3389/fnhum.2018.00017
  • Niemi, P., Näätänen, R. (1981). Foreperiod and simple reaction time. Psychological Bulletin, 89(1), 133-162. Google Scholar
  • Nobre, A.C. (2001). Orienting attention to instants in time. Neuropsychologia, 39, 1317-1328.
  • Posner, M.I., Petersen, S.E. (1990). The attention system of the humanbrain. Annual Review of Neuroscience, 13, 25-42.
  • Roberts, K.L., Lau, J.K.L., Chechlack, M., Humphreys, G.W. (2012). Spatial and temporal attention deficits following brain injury: a neuroanatomical decomposition of the temporal order judgment task. Congnitive Neuropsychology, 29, 300-324.
  • Robertson, I.H., Mattingley, J.B., Rorden, C., Driver, J. (1998). Phasic alerting of neglect patients overcomes their spatial deficit in visual awareness. Nature, 395, 169-172.
  • Shaqiri, A., Anderson, B. (2013). Priming and statistical learning in right brain damaged patients. Neuropsychologia, 51(13), 2526-2533.
  • Schneider, W., Eschman, A., Zuccolotto, A. (2002). E-Prime user´s guide. Pittsburgh: Psychology Software Tools Inc. Google Scholar
  • Stuss, D.T, Alexander, M.P., Shallice, T., Picton, T.W., Binns, M.A., Macdonald, R., Boroviec, A., Katz, D.I. (2005). Multiple frontal systems controlling response speed. Neuropsychologia, 43, 396-417.
  • Triviño, M., Arnedo, M., Lupiáñez, J., Chirivella, J., Correa; A. (2011). Rhythms can overcome temporal orienting deficit after right frontal damage. Neuropsychologia, 49(14), 3917-3930.
  • Triviño, M., Correa, A., Arnedo, M., Lupiáñez, J. (2010). Temporal orienting deficit after prefrontal damage. Brain, 133, 1173-1185.
  • Triviño, M., Correa, A., Lupiáñez, J., Funes, M.J., Catena, A., He, X., Humphreys, G. (2016). Brain Networks of Temporal Preparation as revealed by multiple regression analysis of neuropsychological data. NeuroImage, 142, 489-497.
  • Tyler, S.C., Contò, F., Battelli, L. (2018). Rapid improvement on a temporal attention task within a single session of high-frequency transcranial random noise stimulation. Journal of Cognitive Neuroscience, 30(5), 656-666.
  • Vallesi, A. (2010). Neuroanatomical substrates of foreperiod effects. In A. Nobre and J.T. Coull (Eds.) Attention and time (pp. 303-316). Oxford: Oxford University Press.
  • Vallesi, A., Mussioni, A., Mondani, M., Budai, R., Skrap, M., Shallice, T. (2007). The neural basis of temporal preparation: insights from brain tumor patients. Neuropsychologia, 45(12), 2755-2763.
  • Vallesi A., Shallice, T. (2007). Developmental dissociations of preparation over time: deconstructing the variable foreperiod phenomena. Journal of Experimental Psychology: Human Perception and Performance, 33(6), 1377-1388.
  • Vallesi, A., Shallice, T., Walsh, V. (2007). Role of the prefrontal cortex in the foreperiod effect: TMS evidence for dual mechanisms in temporal preparation. Cerebral Cortex, 17(2), 466-474.
  • Verdon, V., Schwartz, S., Lövblad, K., Hauert, C., Vuilleumier, P. (2009). Neuroanatomy of hemispatial neglect and its functional components: A study using voxel-based lesion-symptom mapping. Brain, 133, 880-894
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