Selective map-following navigation deficit: A new case of developmental topographical disorientation (274 views visite)
J Clin Exp Neuropsychol (ISSN: 1380-3395linking), 2018 Nov; 40(9): 940-950.
Export to Esporta in BibTeX Export to Esporta in EndNote
Paper type Tipo di articolo: Journal Article,
Impact factor: 1.839, 5-year impact factor Impact factor a 5 anni: 0
Url: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85044963409&doi=10.1080%2f13803395.2018.1451493&partnerID=40&md5=3574fd2550379bec0e322bdcb9ad3cc3
Keywords Parole chiave: Allocentric Navigation, Cognitive Map, Default-Mode Network, Developmental Topographical Disorientation, Way-Finding,
Affiliations Affiliazioni:
*** IBB - CNR ***
a Developmental Neuropsychology Laboratory, Department of Psychology , University of Campania "Luigi Vanvitelli," , Caserta , Italy.
b Department of Psychology , "Sapienza" University of Rome , Rome , Italy.
c Cognitive and Motor Rehabilitation Unit , IRCCS Fondazione Santa Lucia , Rome , Italy.
d Institute of Biostructure and Bioimaging , National Research Council , Naples , Italy.
e Cognitive-Behavioral School of Psychotherapy "Serapide SPEE," , Naples , Italy.
f PhD Program in Behavioral Neuroscience , "Sapienza" University of Rome , Rome , Italy.
References Riferimenti:
Aguirre, G.K., D’Esposito, M., Topographical disorientation: A synthesis and taxonomy (1999) Brain, 122, pp. 1613-162
Arnold, A.E., Protzner, A.B., Bray, S., Levy, R.M., Iaria, G., Neural network configuration and efficiency underlies individual differences in spatial orientation ability (2014) Journal of Cognitive Neuroscience, 26, pp. 380-394
Ashburner, J., A fast diffeomorphic image registration algorithm (2007) NeuroImage, 38, pp. 95-113
Ashburner, J., Friston, K.J., Unified segmentation (2005) NeuroImage, 26, pp. 839-851
Barclay, S.F., Burles, F., Potocki, K., Rancourt, K.M., Nicolson, M.L., Bech-Hansen, N.T., Iaria, G., Familial aggregation in developmental topographical disorientation (DTD) (2016) Cognitive Neuropsychology, 33, pp. 388-397
Barrash, J., Damasio, H., Adolphs, R., Tranel, D., The neuroanatomical correlates of route learning impairment (2000) Neuropsychologia, 38, pp. 820-836
Benton, A.L., Hamsher, K., Varney, N., Spreen, O., (1983) Contributions to neuropsychological assessment: A clinical manual, , New York: Oxford
Benton, A.L., Sivan, A.B., Hamsher, K., Varney, N.R., Spreen, O., (1994) Contributions to neuropsychological assessment, , New York: Oxford University Press
Bianchini, F., Di Vita, A., Palermo, L., Piccardi, L., Blundo, C., Guariglia, C., A selective egocentric topographical working memory deficit in the early stages of Alzheimer’s disease: A preliminary study (2014) American Journal of Alzheimer’s Disease & Other Dementiasr, 29, pp. 749-754
Bianchini, F., Incoccia, C., Palermo, L., Piccardi, L., Zompanti, L., Sabatini, U., Guariglia, C., Developmental topographical disorientation in a healthy subject (2010) Neuropsychologia, 48, pp. 1563-1573. , …
Bianchini, F., Palermo, L., Piccardi, L., Incoccia, C., Nemmi, F., Sabatini, U., Guariglia, C., Where am I? A new case of developmental topographical disorientation (2014) Journal of Neuropsychology, 8, pp. 107-124
Boccia, M., Guariglia, C., Sabatini, U., Nemmi, F., Navigating toward a novel environment from a route or survey perspective: Neural correlates and context-dependent connectivity (2016) Brain Structure and Function, 221, pp. 2005-2021
Boccia, M., Sulpizio, V., Nemmi, F., Guariglia, C., Galati, G., Direct and indirect parieto-medial temporal pathways for spatial navigation in humans: Evidence from resting-state functional connectivity (2017) Brain Structure and Function, 222, pp. 1945-1957
Buckner, R.L., Carroll, D.C., Self-projection and the brain (2007) Trends in Cognitive Sciences, 11, pp. 49-57
Burgess, N., Maguire, E.A., Spiers, H.J., O’Keefe, J., A temporoparietal and prefrontal network for retrieving the spatial context of lifelike events (2001) Neuroimage, 14, pp. 439-453
Byrne, P., Becker, S., Burgess, N., Remembering the past and imagining the future: A neural model of spatial memory and imagery (2007) Psychological Review, 114, pp. 340-375
Caffarra, P., Vezzadini, G., Dieci, F., Zonato, F., Venneri, A., Rey-Osterrieth complex figure: Normative values in an Italian population sample (2002) Neurological Sciences, 22, pp. 443-447
Carlesimo, G.A., Caltagirone, C., Gainotti, G., Fadda, L., Gallassi, R., Lorusso, S., Parnetti, L., The mental deterioration battery: Normative data, diagnostic reliability and qualitative analyses of cognitive impairment (1996) European Neurology, 36, pp. 378-384. , …
Ciaramelli, E., The role of ventromedial prefrontal cortex in navigation: A case of impaired wayfinding and rehabilitation (2008) Neuropsychologia, 46, pp. 2099-2105
Crawford, J.R., Garthwaite, P.H., Comparison of a single case to a control or normative sample in neuropsychology: Development of a Bayesian approach (2007) Cognitive Neuropsychology, 24, pp. 343-372
Desikan, R.S., Ségonne, F., Fischl, B., Quinn, B.T., Dickerson, B.C., Blacker, D., Killiany, R.J., An automated labeling system for subdividing the human cerebral cortex on MRI scans into gyral based regions of interest (2006) Neuroimage, 31, pp. 968-980. , …
Ferlazzo, F., Piccardi, L., Burattini, C., Barbalace, M., Giannini, A.M., Bisegna, F., Effects of new light sources on task switching and mental rotation performance (2014) Journal of Environmental Psychology, 39, pp. 92-100
Fox, M.D., Snyder, A.Z., Vincent, J.L., Corbetta, M., Van Essen, D.C., Raichle, M.E., The human brain is intrinsically organized into dynamic, anticorrelated functional networks (2005) Proceedings of the National Academy of Sciences USA, 102, pp. 9673-9678
Friston, K.J., Holmes, A.P., Worsley, K.J., Poline, J.-P., Frith, C.D., Frackowiak, R.S.J., Statistical Parametric Maps in functional imaging: A general linear approach (1994) Human Brain Mapping, 2, pp. 189-210
Guay, R., (1977) Purdue spatial visualization tests, , West Lafayette, IN: Purdue Research Foundation
Gusnard, D.A., Akbudak, E., Shulman, G.L., Raichle, M.E., Medial prefrontal cortex and self-referential mental activity: Relation to a default mode of brain function (2001) Proceedings of the National Academy of Sciences, 98, pp. 4259-4264
Hyvärinen, J., Poranen, A., Function of the parietal associative area 7 as revealed from cellular discharges in alert monkeys (1974) Brain, 97, pp. 673-692
Iaria, G., Arnold, A.E., Burles, F., Liu, I., Slone, E., Barclay, S., Levy, R.M., Developmental topographical disorientation and decreased hippocampal functional connectivity (2014) Hippocampus, 24, pp. 1364-1374. , …
Iaria, G., Barton, J.J., Developmental topographical disorientation: A newly discovered cognitive disorder (2010) Experimental Brain Research, 206, pp. 189-196
Iaria, G., Bogod, N., Fox, C.J., Barton, J.J., Developmental topographical disorientation: Case one (2009) Neuropsychologia, 47, pp. 30-40
Iaria, G., Burles, F., Developmental topographical disorientation (2016) Trends in Cognitive Sciences, 20, pp. 720-722
Iaria, G., Chen, J.-K., Guariglia, C., Ptito, A., Petrides, M., Retrosplenial and hippocampal brain regions in human navigation: Complementary functional contributions to the formation and use of cognitive maps (2007) European Journal of Neuroscience, 25, pp. 890-899
Janzen, G., Jansen, C., A neural wayfinding mechanism adjusts for ambiguous landmark information (2010) Neuroimage, 52, pp. 364-370
Kim, J.G., Aminoff, E.M., Kastner, S., Behrmann, M., A neural basis for developmental topographic disorientation (2015) Journal of Neuroscience, 35, pp. 12954-12969
Laiacona, M., Inzaghi, M.G., De Tanti, A., Capitani, E., Wisconsin card sorting test: A new global score, with Italian norms, and its relationship with the Weigl sorting test (2000) Neurological Sciences, 21, pp. 279-291
Maguire, E.A., Burgess, N., Donnett, J.G., Frackowiak, R.S., Frith, C.D., O’Keefe, J., Knowing where and getting there: A human navigation network (1998) Science, 280, pp. 921-924
Monaco, M., Costa, A., Caltagirone, C., Carlesimo, G.A., Forward and backward span for verbal and visuo-spatial data: Standardization and normative data from an Italian adult population (2013) Neurological Sciences, 34, pp. 749-754
Money, J., Alexander, D., Walzer, H.T., (1965) A standardized road map test of direction sense, , Baltimore, MD: The Johns Hopkins Press
Mountcastle, V.B., Lynch, J.C., Georgopoulos, A., Sakata, H., Acuna, C., Posterior parietal association cortex of the monkey: Command functions for operations within extrapersonal space (1975) Journal of Neurophysiology, 38, pp. 871-908
Nemmi, F., Bianchini, F., Piras, F., Péran, P., Palermo, L., Piccardi, L., Guariglia, C., Finding my own way: An fMRI single case study of a subject with developmental topographical disorientation (2015) Neurocase, 21, pp. 573-583. , …
O’Keefe, J., Nadel, L., (1978) The hippocampus as a cognitive map, , Oxford Univiversity Press, &,. New York
Orsini, A., Pezzuti, L., (2013) WAIS-IV. Contributo alla taratura italiana, , Firenze: Giunti O.S. Organizzazioni Speciali
Palermo, L., Foti, F., Ferlazzo, F., Guariglia, C., Petrosini, L., I find my way in a maze but not in my own territory! Navigational processing in developmental topographical disorientation (2014) Neuropsychology, 28, pp. 135-146
Peer, M., Salomon, R., Goldberg, I., Blanke, O., Arzy, S., Brain system for mental orientation in space, time, and person (2015) Proceedings of the National Academy of Sciences, 112, pp. 11072-11107
Piccardi, L., Bianchini, F., Argento, O., De Nigris, A., Maialetti, A., Palermo, L., Guariglia, C., The Walking Corsi Test (WalCT): Standardization of the topographical memory test in an Italian population (2013) Neurological Sciences, 34, pp. 971-978
Piccardi, L., Iaria, G., Ricci, M., Bianchini, F., Zompanti, L., Guariglia, C., Walking in the Corsi test: Which type of memory do you need? (2008) Neuroscience Letters, 432, pp. 127-131
Power, J.D., Barnes, K.A., Snyder, A.Z., Schlaggar, B.L., Petersen, S.E., Spurious but systematic correlations in functional connectivity MRI networks arise from subject motion (2012) Neuroimage, 59, pp. 2142-2154
Ryan, L., Lin, C.Y., Ketcham, K., Nadel, L., The role of medial tem- poral lobe in retrieving spatial and nonspatial relations from episodic and semantic memory (2010) Hippocampus, 20, pp. 11-18
Siegel, A.W., White, S.H., (1975) The development of spatial representations of large-scale environments, vol 10, , Amsterdam: Academic Press
Snyder, L.H., Grieve, K.L., Brotchie, P., Andersen, R.A., Separate body- and world-referenced representations of visual space in parietal cortex (1998) Nature, 394, pp. 887-891
Spiers, H.J., Keeping the goal in mind: Prefrontal contributions to spatial navigation (2008) Neuropsychologia, 46, pp. 2106-2108
Spiers, H.J., Maguire, E.A., A navigational guidance system in the human brain (2007) Hippocampus, 17, pp. 618-626
Takahashi, N., Kawamura, M., Shiota, J., Kasahata, N., Hirayama, K., Pure topographic disorientation due to right retrosplenial lesion (1997) Neurology, 49, pp. 464-469
Thurstone, L.L., Ability, motivation, and speed (1937) Psychometrika, 2, pp. 249-254
Verde, P., Boccia, M., Colangeli, S., Barbetti, S., Nori, R., Ferlazzo, F., Piccardi, L., Domain-specific interference tests on navigational working memory in military pilots (2016) Aerospace Medicine and Human Performance, 87, pp. 528-533. , …
Verde, P., Piccardi, L., Bianchini, F., Guariglia, C., Carrozzo, P., Morgagni, F., Tomao, E., Gender differences in navigational memory: Pilots vs. nonpilots (2015) Aerospace Medicine and Human Performance, 86, pp. 103-111. , …
Wang, R.F., Spelke, E.S., Human spatial representation: Insights from animals (2002) Trends in Cognitive Sciences, 6, pp. 376-382
Wegman, J., Janzen, G., Neural encoding of objects relevant for navigation and resting state correlations with navigational ability (2011) Journal of Cognitive Neuroscience, 23, pp. 3841-3854
Wetzels, R., Matzke, D., Lee, M.D., Rouder, J.N., Iverson, G.J., Wagenmakers, E.-J., Statistical evidence in experimental psychology: An empirical comparison using 855 t tests (2011) Perspectives on Psychological Science, 6, pp. 291-298
Wolbers, T., Buchel, C., Dissociable retrosplenial and hippocampal contributions to successful formation of survey representations (2005) Journal of Neuroscience, 25, pp. 3333-3340
Wolbers, T., Hegarty, M., What determines our navigational abilities? (2010) Trends in Cognitive Sciences, 14, pp. 138-146
Zhang, H., Ekstrom, A., Human neural systems underlying rigid and flexible forms of allocentric spatial representation (2013) Human Brain Mapping, 34, pp. 1070-1087
J Clin Exp Neuropsychol (ISSN: 1380-3395linking), 2018 Nov; 40(9): 940-950.
Export to Esporta in BibTeX Export to Esporta in EndNote
Paper type Tipo di articolo: Journal Article,
Impact factor: 1.839, 5-year impact factor Impact factor a 5 anni: 0
Url: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85044963409&doi=10.1080%2f13803395.2018.1451493&partnerID=40&md5=3574fd2550379bec0e322bdcb9ad3cc3
Keywords Parole chiave: Allocentric Navigation, Cognitive Map, Default-Mode Network, Developmental Topographical Disorientation, Way-Finding,
Affiliations Affiliazioni:
*** IBB - CNR ***
a Developmental Neuropsychology Laboratory, Department of Psychology , University of Campania "Luigi Vanvitelli," , Caserta , Italy.
b Department of Psychology , "Sapienza" University of Rome , Rome , Italy.
c Cognitive and Motor Rehabilitation Unit , IRCCS Fondazione Santa Lucia , Rome , Italy.
d Institute of Biostructure and Bioimaging , National Research Council , Naples , Italy.
e Cognitive-Behavioral School of Psychotherapy "Serapide SPEE," , Naples , Italy.
f PhD Program in Behavioral Neuroscience , "Sapienza" University of Rome , Rome , Italy.
References Riferimenti:
Aguirre, G.K., D’Esposito, M., Topographical disorientation: A synthesis and taxonomy (1999) Brain, 122, pp. 1613-162
Arnold, A.E., Protzner, A.B., Bray, S., Levy, R.M., Iaria, G., Neural network configuration and efficiency underlies individual differences in spatial orientation ability (2014) Journal of Cognitive Neuroscience, 26, pp. 380-394
Ashburner, J., A fast diffeomorphic image registration algorithm (2007) NeuroImage, 38, pp. 95-113
Ashburner, J., Friston, K.J., Unified segmentation (2005) NeuroImage, 26, pp. 839-851
Barclay, S.F., Burles, F., Potocki, K., Rancourt, K.M., Nicolson, M.L., Bech-Hansen, N.T., Iaria, G., Familial aggregation in developmental topographical disorientation (DTD) (2016) Cognitive Neuropsychology, 33, pp. 388-397
Barrash, J., Damasio, H., Adolphs, R., Tranel, D., The neuroanatomical correlates of route learning impairment (2000) Neuropsychologia, 38, pp. 820-836
Benton, A.L., Hamsher, K., Varney, N., Spreen, O., (1983) Contributions to neuropsychological assessment: A clinical manual, , New York: Oxford
Benton, A.L., Sivan, A.B., Hamsher, K., Varney, N.R., Spreen, O., (1994) Contributions to neuropsychological assessment, , New York: Oxford University Press
Bianchini, F., Di Vita, A., Palermo, L., Piccardi, L., Blundo, C., Guariglia, C., A selective egocentric topographical working memory deficit in the early stages of Alzheimer’s disease: A preliminary study (2014) American Journal of Alzheimer’s Disease & Other Dementiasr, 29, pp. 749-754
Bianchini, F., Incoccia, C., Palermo, L., Piccardi, L., Zompanti, L., Sabatini, U., Guariglia, C., Developmental topographical disorientation in a healthy subject (2010) Neuropsychologia, 48, pp. 1563-1573. , …
Bianchini, F., Palermo, L., Piccardi, L., Incoccia, C., Nemmi, F., Sabatini, U., Guariglia, C., Where am I? A new case of developmental topographical disorientation (2014) Journal of Neuropsychology, 8, pp. 107-124
Boccia, M., Guariglia, C., Sabatini, U., Nemmi, F., Navigating toward a novel environment from a route or survey perspective: Neural correlates and context-dependent connectivity (2016) Brain Structure and Function, 221, pp. 2005-2021
Boccia, M., Sulpizio, V., Nemmi, F., Guariglia, C., Galati, G., Direct and indirect parieto-medial temporal pathways for spatial navigation in humans: Evidence from resting-state functional connectivity (2017) Brain Structure and Function, 222, pp. 1945-1957
Buckner, R.L., Carroll, D.C., Self-projection and the brain (2007) Trends in Cognitive Sciences, 11, pp. 49-57
Burgess, N., Maguire, E.A., Spiers, H.J., O’Keefe, J., A temporoparietal and prefrontal network for retrieving the spatial context of lifelike events (2001) Neuroimage, 14, pp. 439-453
Byrne, P., Becker, S., Burgess, N., Remembering the past and imagining the future: A neural model of spatial memory and imagery (2007) Psychological Review, 114, pp. 340-375
Caffarra, P., Vezzadini, G., Dieci, F., Zonato, F., Venneri, A., Rey-Osterrieth complex figure: Normative values in an Italian population sample (2002) Neurological Sciences, 22, pp. 443-447
Carlesimo, G.A., Caltagirone, C., Gainotti, G., Fadda, L., Gallassi, R., Lorusso, S., Parnetti, L., The mental deterioration battery: Normative data, diagnostic reliability and qualitative analyses of cognitive impairment (1996) European Neurology, 36, pp. 378-384. , …
Ciaramelli, E., The role of ventromedial prefrontal cortex in navigation: A case of impaired wayfinding and rehabilitation (2008) Neuropsychologia, 46, pp. 2099-2105
Crawford, J.R., Garthwaite, P.H., Comparison of a single case to a control or normative sample in neuropsychology: Development of a Bayesian approach (2007) Cognitive Neuropsychology, 24, pp. 343-372
Desikan, R.S., Ségonne, F., Fischl, B., Quinn, B.T., Dickerson, B.C., Blacker, D., Killiany, R.J., An automated labeling system for subdividing the human cerebral cortex on MRI scans into gyral based regions of interest (2006) Neuroimage, 31, pp. 968-980. , …
Ferlazzo, F., Piccardi, L., Burattini, C., Barbalace, M., Giannini, A.M., Bisegna, F., Effects of new light sources on task switching and mental rotation performance (2014) Journal of Environmental Psychology, 39, pp. 92-100
Fox, M.D., Snyder, A.Z., Vincent, J.L., Corbetta, M., Van Essen, D.C., Raichle, M.E., The human brain is intrinsically organized into dynamic, anticorrelated functional networks (2005) Proceedings of the National Academy of Sciences USA, 102, pp. 9673-9678
Friston, K.J., Holmes, A.P., Worsley, K.J., Poline, J.-P., Frith, C.D., Frackowiak, R.S.J., Statistical Parametric Maps in functional imaging: A general linear approach (1994) Human Brain Mapping, 2, pp. 189-210
Guay, R., (1977) Purdue spatial visualization tests, , West Lafayette, IN: Purdue Research Foundation
Gusnard, D.A., Akbudak, E., Shulman, G.L., Raichle, M.E., Medial prefrontal cortex and self-referential mental activity: Relation to a default mode of brain function (2001) Proceedings of the National Academy of Sciences, 98, pp. 4259-4264
Hyvärinen, J., Poranen, A., Function of the parietal associative area 7 as revealed from cellular discharges in alert monkeys (1974) Brain, 97, pp. 673-692
Iaria, G., Arnold, A.E., Burles, F., Liu, I., Slone, E., Barclay, S., Levy, R.M., Developmental topographical disorientation and decreased hippocampal functional connectivity (2014) Hippocampus, 24, pp. 1364-1374. , …
Iaria, G., Barton, J.J., Developmental topographical disorientation: A newly discovered cognitive disorder (2010) Experimental Brain Research, 206, pp. 189-196
Iaria, G., Bogod, N., Fox, C.J., Barton, J.J., Developmental topographical disorientation: Case one (2009) Neuropsychologia, 47, pp. 30-40
Iaria, G., Burles, F., Developmental topographical disorientation (2016) Trends in Cognitive Sciences, 20, pp. 720-722
Iaria, G., Chen, J.-K., Guariglia, C., Ptito, A., Petrides, M., Retrosplenial and hippocampal brain regions in human navigation: Complementary functional contributions to the formation and use of cognitive maps (2007) European Journal of Neuroscience, 25, pp. 890-899
Janzen, G., Jansen, C., A neural wayfinding mechanism adjusts for ambiguous landmark information (2010) Neuroimage, 52, pp. 364-370
Kim, J.G., Aminoff, E.M., Kastner, S., Behrmann, M., A neural basis for developmental topographic disorientation (2015) Journal of Neuroscience, 35, pp. 12954-12969
Laiacona, M., Inzaghi, M.G., De Tanti, A., Capitani, E., Wisconsin card sorting test: A new global score, with Italian norms, and its relationship with the Weigl sorting test (2000) Neurological Sciences, 21, pp. 279-291
Maguire, E.A., Burgess, N., Donnett, J.G., Frackowiak, R.S., Frith, C.D., O’Keefe, J., Knowing where and getting there: A human navigation network (1998) Science, 280, pp. 921-924
Monaco, M., Costa, A., Caltagirone, C., Carlesimo, G.A., Forward and backward span for verbal and visuo-spatial data: Standardization and normative data from an Italian adult population (2013) Neurological Sciences, 34, pp. 749-754
Money, J., Alexander, D., Walzer, H.T., (1965) A standardized road map test of direction sense, , Baltimore, MD: The Johns Hopkins Press
Mountcastle, V.B., Lynch, J.C., Georgopoulos, A., Sakata, H., Acuna, C., Posterior parietal association cortex of the monkey: Command functions for operations within extrapersonal space (1975) Journal of Neurophysiology, 38, pp. 871-908
Nemmi, F., Bianchini, F., Piras, F., Péran, P., Palermo, L., Piccardi, L., Guariglia, C., Finding my own way: An fMRI single case study of a subject with developmental topographical disorientation (2015) Neurocase, 21, pp. 573-583. , …
O’Keefe, J., Nadel, L., (1978) The hippocampus as a cognitive map, , Oxford Univiversity Press, &,. New York
Orsini, A., Pezzuti, L., (2013) WAIS-IV. Contributo alla taratura italiana, , Firenze: Giunti O.S. Organizzazioni Speciali
Palermo, L., Foti, F., Ferlazzo, F., Guariglia, C., Petrosini, L., I find my way in a maze but not in my own territory! Navigational processing in developmental topographical disorientation (2014) Neuropsychology, 28, pp. 135-146
Peer, M., Salomon, R., Goldberg, I., Blanke, O., Arzy, S., Brain system for mental orientation in space, time, and person (2015) Proceedings of the National Academy of Sciences, 112, pp. 11072-11107
Piccardi, L., Bianchini, F., Argento, O., De Nigris, A., Maialetti, A., Palermo, L., Guariglia, C., The Walking Corsi Test (WalCT): Standardization of the topographical memory test in an Italian population (2013) Neurological Sciences, 34, pp. 971-978
Piccardi, L., Iaria, G., Ricci, M., Bianchini, F., Zompanti, L., Guariglia, C., Walking in the Corsi test: Which type of memory do you need? (2008) Neuroscience Letters, 432, pp. 127-131
Power, J.D., Barnes, K.A., Snyder, A.Z., Schlaggar, B.L., Petersen, S.E., Spurious but systematic correlations in functional connectivity MRI networks arise from subject motion (2012) Neuroimage, 59, pp. 2142-2154
Ryan, L., Lin, C.Y., Ketcham, K., Nadel, L., The role of medial tem- poral lobe in retrieving spatial and nonspatial relations from episodic and semantic memory (2010) Hippocampus, 20, pp. 11-18
Siegel, A.W., White, S.H., (1975) The development of spatial representations of large-scale environments, vol 10, , Amsterdam: Academic Press
Snyder, L.H., Grieve, K.L., Brotchie, P., Andersen, R.A., Separate body- and world-referenced representations of visual space in parietal cortex (1998) Nature, 394, pp. 887-891
Spiers, H.J., Keeping the goal in mind: Prefrontal contributions to spatial navigation (2008) Neuropsychologia, 46, pp. 2106-2108
Spiers, H.J., Maguire, E.A., A navigational guidance system in the human brain (2007) Hippocampus, 17, pp. 618-626
Takahashi, N., Kawamura, M., Shiota, J., Kasahata, N., Hirayama, K., Pure topographic disorientation due to right retrosplenial lesion (1997) Neurology, 49, pp. 464-469
Thurstone, L.L., Ability, motivation, and speed (1937) Psychometrika, 2, pp. 249-254
Verde, P., Boccia, M., Colangeli, S., Barbetti, S., Nori, R., Ferlazzo, F., Piccardi, L., Domain-specific interference tests on navigational working memory in military pilots (2016) Aerospace Medicine and Human Performance, 87, pp. 528-533. , …
Verde, P., Piccardi, L., Bianchini, F., Guariglia, C., Carrozzo, P., Morgagni, F., Tomao, E., Gender differences in navigational memory: Pilots vs. nonpilots (2015) Aerospace Medicine and Human Performance, 86, pp. 103-111. , …
Wang, R.F., Spelke, E.S., Human spatial representation: Insights from animals (2002) Trends in Cognitive Sciences, 6, pp. 376-382
Wegman, J., Janzen, G., Neural encoding of objects relevant for navigation and resting state correlations with navigational ability (2011) Journal of Cognitive Neuroscience, 23, pp. 3841-3854
Wetzels, R., Matzke, D., Lee, M.D., Rouder, J.N., Iverson, G.J., Wagenmakers, E.-J., Statistical evidence in experimental psychology: An empirical comparison using 855 t tests (2011) Perspectives on Psychological Science, 6, pp. 291-298
Wolbers, T., Buchel, C., Dissociable retrosplenial and hippocampal contributions to successful formation of survey representations (2005) Journal of Neuroscience, 25, pp. 3333-3340
Wolbers, T., Hegarty, M., What determines our navigational abilities? (2010) Trends in Cognitive Sciences, 14, pp. 138-146
Zhang, H., Ekstrom, A., Human neural systems underlying rigid and flexible forms of allocentric spatial representation (2013) Human Brain Mapping, 34, pp. 1070-1087
Selective map-following navigation deficit: A new case of developmental topographical disorientation
Developmental topographical
disorientation (DTD) is a lifelong condition in which affected
individuals are selectively impaired in navigating space. Although it
seems that DTD is widespread in the population, only a few cases have
been studied from both a behavioral and a neuroimaging point of view.
Here, we report a new case of DTD, never described previously, of a
young woman (C.F.) showing a specific deficit in translating
allocentrically coded information into egocentrically guided navigation,
in presence of spared ability of constructing such representations.
A series of behavioral experiments was performed together with a resting-state functional magnetic resonance imaging (fMRI).
We
demonstrated that C.F. was fully effective in learning and following
routes and in building up cognitive maps as well as in recognizing
landmarks. C.F.'s navigational skills, instead, dropped drastically in
the map-following task when she was required to use a map to navigate in
a novel environment. The rs-fMRI experiment demonstrated aberrant
functional connectivity between regions within the default-mode network
(DMN), and in particular between medial prefrontal cortex and posterior
cingulate, medial parietal, and temporal cortices.
Our
results would suggest that, at least in C.F., dysfunctional
coactivation of core DMN regions would interfere with the ability to
exploit cognitive maps for real-life navigation even when these maps can
be correctly built.
INTRODUCTION:
Developmental topographical
disorientation (DTD) is a lifelong condition in which affected
individuals are selectively impaired in navigating space. Although it
seems that DTD is widespread in the population, only a few cases have
been studied from both a behavioral and a neuroimaging point of view.
Here, we report a new case of DTD, never described previously, of a
young woman (C.F.) showing a specific deficit in translating
allocentrically coded information into egocentrically guided navigation,
in presence of spared ability of constructing such representations.
METHOD:
A series of behavioral experiments was performed together with a resting-state functional magnetic resonance imaging (fMRI).
RESULTS:
We
demonstrated that C.F. was fully effective in learning and following
routes and in building up cognitive maps as well as in recognizing
landmarks. C.F.'s navigational skills, instead, dropped drastically in
the map-following task when she was required to use a map to navigate in
a novel environment. The rs-fMRI experiment demonstrated aberrant
functional connectivity between regions within the default-mode network
(DMN), and in particular between medial prefrontal cortex and posterior
cingulate, medial parietal, and temporal cortices.
DISCUSSION:
Our
results would suggest that, at least in C.F., dysfunctional
coactivation of core DMN regions would interfere with the ability to
exploit cognitive maps for real-life navigation even when these maps can
be correctly built.
Selective map-following navigation deficit: A new case of developmental topographical disorientation
No results. Nessun risultato. |
Selective map-following navigation deficit: A new case of developmental topographical disorientation
Pistoia F, Conson M, Quarantelli M, Panebianco L, Carolei A, Curcio G, Sacco S, Saporito G, Di Cesare E, Barile A, Masciocchi C, Splendiani A
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Quarantelli M, Salvatore E, Giorgio SM, Filla A, Cervo A, Russo CV, Cocozza S, Massarelli M, Brunetti A, De Michele G
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4 Records (2 escludendo Abstract e Conferenze).
Impact factor totale: 11.167 (7.633 escludendo Abstract e Conferenze).
Impact factor a 5 anni totale: 8.353 (4.338 escludendo Abstract e Conferenze).
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Pistoia F, Conson M, Quarantelli M, Panebianco L, Carolei A, Curcio G, Sacco S, Saporito G, Di Cesare E, Barile A, Masciocchi C, Splendiani A
* Neural Correlates of Facial Expression Recognition in Earthquake Witnesses (138 visite)
Front Neurosci (ISSN: 1662-453xlinking, 1662-453xelectronic), 2019 Sep 27; 13: 1038-1038.
Impact Factor: 3.648
Dettagli Esporta in BibTeX Esporta in EndNote
Longarzo M, Quarantelli M, Aiello M, Romano M, Del Prete A, Cimminiello C, Cocozza S, Olivo G, Loguercio C, Trojano L, Grossi D
* The influence of interoceptive awareness on functional connectivity in patients with irritable bowel syndrome (299 visite)
Brain Imaging Behav (ISSN: 1931-7557), 2016 Oct 4; 11(4): 1117-1128.
Impact Factor: 3.985
Dettagli Esporta in BibTeX Esporta in EndNote
Salvatore E, Quarantelli M, Russo C, Giorgio SM, Cervo A, Cocozza S, Di Maio L, Brunetti A, Filla A, De Michele G
* Default-Mode Network Alterations In Huntington'S Disease (299 visite)
Second Joint Limpe / Dismov Sin Meeting Rome, 2013 Nov; N/D: N/D-N/D.
Impact Factor: 0
Dettagli Esporta in BibTeX Esporta in EndNote
Quarantelli M, Salvatore E, Giorgio SM, Filla A, Cervo A, Russo CV, Cocozza S, Massarelli M, Brunetti A, De Michele G
* Default-mode network changes in Huntington's disease: an integrated MRI study of functional connectivity and morphometry (407 visite)
Plosone (ISSN: 1932-6203, 1932-6203electronic, 1932-6203linking), 2013 Aug 19; 8(8): e72159-e72159.
Impact Factor: 3.534
Dettagli Esporta in BibTeX Esporta in EndNote
4 Records (2 escludendo Abstract e Conferenze).
Impact factor totale: 11.167 (7.633 escludendo Abstract e Conferenze).
Impact factor a 5 anni totale: 8.353 (4.338 escludendo Abstract e Conferenze).
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