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Addis, D. R., Wong, A. T. & Schacter, D. L. (2007). Remembering the past and imagining the future: Common and distinct neural substrates during event construction and elaboration. Neuropsychologia, 45, 1363–1377.
Allen, R. J., Vargha-Khadem, F. & Baddeley, A. D. (2014). Item-location binding in working memory: Is it hippocampus-dependent? Neuropsychologia, 59, 74–84.
Alvarez, P. & Squire, L. R. (1994). Memory consolidation and the medial temporal lobe: A simple network model. Proceedings of the National Academy of Sciences of the United States of America, 91, 7041–7045.
Anderson, M. C. & Hanslmayr, S. (2014). Neural mechanisms of motivated forgetting. Trends in Cognitive Sciences, 18, 279–292.
Anderson, M. C., Ochsner, K. N., Kuhl, B., Cooper, J., Robertson, E., Gabrieli, S. W., Glover, G. H. & Gabrieli, J. D. (2004). Neural systems underlying the suppression of unwanted memories. Science, 303, 232–235.
Andreano, J. M. & Cahill, L. (2009). Sex influences on the neurobiology of learning and memory. Learning & Memory, 16, 248–266.
Aristotle, [350 BCE] (1941). On memory and reminiscence. In McKean, R. (Ed.), Beare, J. I. (Trans.), The Basic Works of Aristotle (pp. 607–617). New York: Random House.
Awh, E., Vogel, E. K. & Oh, S. H. (2006). Interactions between attention and working memory. Neuroscience, 139, 201–208.
Axmacher, N., Draguhn, A., Elger, C. E. & Fell, J. (2009). Memory processes during sleep: Beyond the standard consolidation theory. Cellular and Molecular Life Sciences, 66, 2285–2297.
Babb, S. J. & Crystal, J. D. (2006). Episodic-like memory in the rat. Current Biology, 16, 1317–1321.
Bacon, F. [1620] (2000). The New Organon. Jardine, L. & Silverthorne, M. (Eds.). Cambridge University Press.
Baddeley, A., Allen, R. & Vargha-Khadem, F. (2010). Is the hippocampus necessary for visual and verbal binding in working memory? Neuropsychologia, 48, 1089–1095.
Badgaiyan, R. D., Schacter, D. L. & Alpert, N. M. (2003). Priming of new associations: A PET study. Neuroreport, 14, 2475–2479.
Bakker, A., Albert, M. S., Krauss, G., Speck, C. L. & Gallagher, M. (2015). Response of the medial temporal lobe network in amnestic mild cognitive impairment to therapeutic intervention assessed by fMRI and memory task performance. NeuroImage: Clinical, 7, 688–698.
Baldauf, D. & Desimone, R. (2014). Neural mechanisms of object-based attention. Science, 344, 424–427.
Banks, S. J., Jones-Gotman, M., Ladowski, D. & Sziklas, V. (2012). Sex differences in the medial temporal lobe during encoding and recognition of pseudowords and abstract designs. NeuroImage, 59, 1888–1895.
Bartels, A. & Zeki, S. (2000). The neural basis of romantic love. NeuroReport, 11, 3829–3834.
Bartsch, T., Döhring, J., Rohr, A., Jansen, O. & Deuschl, G. (2011). CA1 neurons in the human hippocampus are critical for autobiographical memory, mental time travel, and autonoetic consciousness. Proceedings of the National Academy of Sciences of the United States of America, 108, 17562–17567.
Bartsch, T., Schönfeld, R., Müller, F. J., Alfke, K., Leplow, B., Aldenhoff, J., Deuschl, G. & Koch, J. M. (2010). Focal lesions of human hippocampal CA1 neurons in transient global amnesia impair place memory. Science, 328, 1412–1415.
Baudry, M., Zhu, G., Liu, Y., Wang, Y., Briz, V. & Bi, X. (2015). Multiple cellular cascades participate in long-term potentiation and in hippocampus-dependent learning. Brain Research, 1621, 73–81.
Bear, M. F. & Abraham, W. C. (1996). Long-term depression in hippocampus. Annual Review of Neuroscience, 19, 437–462.
Beck, D. M. (2010). The appeal of the brain in the popular press. Perspectives on Psychological Science, 5, 762–766.
Benoit, R. G. & Anderson, M. C. (2012). Opposing mechanisms support the voluntary forgetting of unwanted memories. Neuron, 76, 450–460.
Bergmann, H. C., Rijpkema, M., Fernández, G. & Kessels, R. P. (2012). Distinct neural correlates of associative working memory and long-term memory encoding in the medial temporal lobe. NeuroImage, 63, 989–997.
Binder, J. R. (2011). Functional MRI is a valid noninvasive alternative to Wada testing. Epilepsy & Behavior, 20, 214–222.
Blakemore, C. B. & Falconer, M. A. (1967). Long-term effects of anterior temporal lobectomy on certain cognitive functions. Journal of Neurology, Neurosurgery, & Psychiatry, 30, 364–367.
Bliss, T. V. & Collingridge, G. L. (1993). A synaptic model of memory: Long-term potentiation in the hippocampus. Nature, 361, 31–39.
Bliss, T. V. & Lømo, T. (1973). Long-lasting potentiation of synaptic transmission in the dentate area of the anaesthetized rabbit following stimulation of the perforant path. The Journal of Physiology, 232, 331–356.
Bonnici, H. M., Chadwick, M. J., Lutti, A., Hassabis, D., Weiskopf, N. & Maguire, E. A. (2012). Detecting representations of recent and remote autobiographical memories in vmPFC and hippocampus. The Journal of Neuroscience, 32, 16982–16991.
Born, J. & Wilhelm, I. (2012). System consolidation of memory during sleep. Psychological Research, 76, 192–203.
Bridger, E. K., Bader, R., Kriukova, O., Unger, K. & Mecklinger, A. (2012). The FN400 is functionally distinct from the N400. NeuroImage, 63, 1334–1342.
Brodmann, K. (1909). Vergleichende Lokalisationslehre der Grosshirnrinde in ihren Prinzipien dargestellt auf Grund des Zellenbaues. Leipzig: Johann Ambrosius Barth Verlag.
Brown, R. & Kulik, J. (1977). Flashbulb memories. Cognition, 5, 73–99.
Buckner, R. L., Andrews-Hanna, J. R. & Schacter, D. L. (2008). The brain's default network: Anatomy, function, and relevance to disease. Annals of the New York Academy of Sciences, 1124, 1–38.
Buckner, R. L., Bandettini, P. A., O'Craven, K. M., Savoy, R. L., Petersen, S. E., Raichle, M. E. & Rosen, B. R. (1996). Detection of cortical activation during averaged single trials of a cognitive task using functional magnetic resonance imaging. Proceedings of the National Academy of Sciences of the United States of America, 93, 14878–14883.
Buckner, R. L., Snyder, A. Z., Shannon, B. J., LaRossa, G., Sachs, R., Fotenos, A. F., Sheline, Y. I., Klunk, W. E., Mathis, C. A., Morris, J. C. & Mintun, M. A. (2005). Molecular, structural, and functional characterization of Alzheimer's disease: Evidence for a relationship between default activity, amyloid, and memory. The Journal of Neuroscience, 25, 7709–7717.
Buzsáki, G. (2015). Hippocampal sharp wave-ripple: A cognitive biomarker for episodic memory and planning. Hippocampus, 25, 1073–1188.
Cabeza, R., Ciaramelli, E., Olson, I. R. & Moscovitch, M. (2008). The parietal cortex and episodic memory: An attentional account. Nature Reviews Neuroscience, 9, 613–625.
Cahill, L. (2006). Why sex matters for neuroscience. Nature Reviews Neuroscience, 7, 477–484.
Chaieb, L., Leszczynski, M., Axmacher, N., Höhne, M., Elger, C. E. & Fell, J. (2015). Theta-gamma phase-phase coupling during working memory maintenance in the human hippocampus. Cognitive Neuroscience, 6, 149–157.
Chen, J. K., Johnston, K. M., Frey, S., Petrides, M., Worsley, K & Ptito, A. (2004). Functional abnormalities in symptomatic concussed athletes: An fMRI study. NeuroImage, 22, 68–82.
Chun, M. M. & Jiang, Y. (1998). Contextual cueing: Implicit learning and memory of visual context guides spatial attention. Cognitive Psychology, 36, 28–71.
Chun, M. M. & Phelps, E. A. (1999). Memory deficits for implicit contextual information in amnesic subjects with hippocampal damage. Nature Neuroscience, 2, 844–847.
Clayton, N. S. & Dickinson, A. (1998). Episodic-like memory during cache recovery by scrub jays. Nature, 395, 272–274.
Cohen, D. & Cuffin, B. N. (1991). EEG versus MEG localization accuracy: Theory and experiment. Brain Topography, 4, 95–103.
Corballis, M. C. (2013). Mental time travel: A case for evolutionary continuity. Trends in Cognitive Science, 17, 5–6.
Corbetta, M. & Shulman, G. L. (2002). Control of goal-directed and stimulus-driven attention in the brain. Nature Reviews Neuroscience, 3, 201–215.
Cubelli, R. & Della Sala, S. (2008). Flashbulb memories: Special but not iconic. Cortex, 44, 908–909.
Curran, T., Schacter, D. L., Johnson, M. K. & Spinks, R. (2001). Brain potentials reflect behavioral differences in true and false recognition. Journal of Cognitive Neuroscience, 13, 201–216.
Curtis, C. E. & D'Esposito, M. (2003). Persistent activity in the prefrontal cortex during working memory. Trends in Cognitive Sciences, 7, 415–423.
Daselaar, S. M., Prince, S. E. & Cabeza, R. (2004). When less means more: Deactivations during encoding that predict subsequent memory. NeuroImage, 23, 921–927.
Davachi, L., Mitchell, J. P. & Wagner, A. D. (2003). Multiple routes to memory: Distinct medial temporal lobe processes build item and source memories. Proceedings of the National Academy of Sciences of the United States of America, 100, 2157–2162.
Davidson, P. S., Cook, S. P., Glisky, E. L., Verfaellie, M. & Rapcsak, S. Z. (2005). Source memory in the real world: A neuropsychological study of flashbulb memory. Journal of Clinical and Experimental Neuropsychology, 27, 915–929.
De Waal, F. (2016). Are We Smart Enough to Know How Smart Animals Are? New York: W. W. Norton & Company.
Deese, J. (1959). On the prediction of occurrence of particular verbal intrusions in immediate recall. Journal of Experimental Psychology, 58, 17–22.
Depue, B. E. (2012). A neuroanatomical model of prefrontal inhibitory modulation of memory retrieval. Neuroscience & Biobehavioral Reviews, 36, 1382–1399.
Dettwiler, A., Murugavel, M., Putukian, M., Cubon, V., Furtado, J. & Osherson, D. (2014). Persistent differences in patterns of brain activation after sports-related concussion: A longitudinal functional magnetic resonance imaging study. Journal of Neurotrauma, 31, 180–188.
Diana, R. A., Yonelinas, A. P. & Ranganath, C. (2007). Imaging recollection and familiarity in the medial temporal lobe: A three-component model. Trends in Cognitive Sciences, 11, 379–386.
Dickerson, B. C. & Sperling, R. A. (2008). Functional abnormalities of the medial temporal lobe memory system in mild cognitive impairment and Alzheimer's disease: Insights from functional MRI studies. Neuropsychologia, 46, 1624–1635.
Diedrichsen, J. & Kornysheva, K. (2015). Motor skill learning between selection and execution. Trends in Cognitive Sciences, 19, 227–233.
Döhring, J., Schmuck, A. & Bartsch, T. (2014). Stress-related factors in the emergence of transient global amnesia with hippocampal lesions. Frontiers in Behavioral Neuroscience, 8, 287.
Domoto-Reilly, K., Sapolsky, D., Brickhouse, M. & Dickerson, B. C. (2012). Naming impairment in Alzheimer's disease is associated with left anterior temporal lobe atrophy. NeuroImage, 63, 348–355.
Donders, F. C. (1868). Over de snelheid van psychische processen. Onderzoekingen gedaan in het Physiologisch Laboratorium der Utrechtsche Hoogeschool, 1868–1869, Tweede reeks, II, 92–120.
Duncan, K., Tompary, A. & Davachi, L. (2014). Associative encoding and retrieval are predicted by functional connectivity in distinct hippocampal area CA1 pathways. The Journal of Neuroscience, 34, 11188–11198.
Eichenbaum, H. (2014). Time cells in the hippocampus: A new dimension for mapping memories. Nature Reviews Neuroscience, 15, 732–744.
Eichenbaum, H., Sauvage, M., Fortin, N., Komorowski, R. & Lipton, P. (2012). Towards a functional organization of episodic memory in the medial temporal lobe. Neuroscience & Biobehavioral Reviews, 36, 1597–1608.
Eichenbaum, H., Yonelinas, A. P. & Ranganath, C. (2007). The medial temporal lobe and recognition memory. Annual Review of Neuroscience, 30, 123–152.
Einstein, A. [1905] (1952). On the electrodynamics of moving bodies. In Perrett, W. & Jeffery, G. B. (Trans.), The Principle of Relativity: A Collection of Original Memoirs on the Special and General Theory of Relativity (pp. 37–65). New York: Dover Publications.
Ekstrom, A. D., Copara, M. S., Isham, E. A., Wang, W. C. & Yonelinas, A. P. (2011). Dissociable networks involved in spatial and temporal order source retrieval. NeuroImage, 56, 1803–1813.
Ekstrom, A. D., Kahana, M. J., Caplan, J. B., Fields, T. A., Isham, E. A., Newman, E. L. & Fried, I. (2003). Cellular networks underlying human spatial navigation. Nature, 425, 184–188.
Eldridge, L. L., Knowlton, B. J., Furmanski, C. S., Bookheimer, S. Y. & Engel, S. A. (2000). Remembering episodes: A selective role for the hippocampus during retrieval. Nature Neuroscience, 3, 1149–1152.
Ellenbogen, J. M., Payne, J. D. & Stickgold, R. (2006). The role of sleep in declarative memory consolidation: Passive, permissive, active or none? Current Opinion in Neurobiology, 16, 716–722.
Engel, A. K., Fries, P. & Singer, W. (2001). Dynamic predictions: Oscillations and synchrony in top-down processing. Nature Reviews Neuroscience, 2, 704–716.
Engell, A. D. & McCarthy, G. (2014). Repetition suppression of face-selective evoked and induced EEG recorded from human cortex. Human Brain Mapping, 35, 4155–4162.
Felleman, D. J. & Van Essen, D. C. (1991). Distributed hierarchical processing in the primate cerebral cortex. Cerebral Cortex, 1, 1–47.
Feredoes, E., Heinen, K., Weiskopf, N., Ruff, C. & Driver, J. (2011). Causal evidence for frontal involvement in memory target maintenance by posterior brain areas during distracter interference of visual working memory. Proceedings of the National Academy of Sciences of the United States of America, 108, 17510–17515.
Fiebach, C. J., Gruber, T. & Supp, G. G. (2005). Neuronal mechanisms of repetition priming in occipitotemporal cortex: Spatiotemporal evidence from functional magnetic resonance imaging and electroencephalography. The Journal of Neuroscience, 25, 3414–3422.
Finke, C., Braun, M., Ostendorf, F., Lehmann, T. N., Hoffmann, K. T., Kopp, U. & Ploner, C. J. (2008). The human hippocampal formation mediates short-term memory of colour-location associations. Neuropsychologia, 46, 614–623.
Floyer-Lea, A. & Matthews, P. M. (2005). Distinguishable brain activation networks for short- and long-term motor skill learning. Journal of Neurophysiology, 94, 512–518.
Friederici, A. D. & Gierhan, S. M. (2013). The language network. Current Opinion in Neurobiology, 23, 250–254.
Friese, U., Köster, M., Hassler, U., Martens, U., Trujillo-Barreto, N. & Gruber, T. (2013). Successful memory encoding is associated with increased cross-frequency coupling between frontal theta and posterior gamma oscillations in human scalp-recorded EEG. NeuroImage, 66, 642–647.
Frings, L., Wagner, K., Unterrainer, J., Spreer, J., Halsband, U. & Schulze-Bonhage, A. (2006). Gender-related differences in lateralization of hippocampal activation and cognitive strategy. Frontiers in Human Neuroscience, 7, 279.
Gabrieli, J. D., Poldrack, R. A. & Desmond, J. E. (1998). The role of left prefrontal cortex in language and memory. Proceedings of the National Academy of Sciences of the United States of America, 95, 906–913.
Gagnepain, P., Henson, R. N. & Anderson, M. C. (2014). Suppressing unwanted memories reduces their unconscious influence via targeted cortical inhibition. Proceedings of the National Academy of Sciences of the United States of America, 111, E1310–1319.
Gallagher, M. & Koh, M. T. (2011). Episodic memory on the path to Alzheimer's disease. Current Opinion in Neurobiology, 21, 929–934.
Garoff-Eaton, R. J., Slotnick, S. D. & Schacter, D. L. (2006). Not all false memories are created equal: The neural basis of false recognition. Cerebral Cortex, 16, 1645–1652.
Gazzaley, A., & Nobre, A. C. (2012). Top-down modulation: Bridging selective attention and working memory. Trends in Cognitive Sciences, 16, 129–135.
Gazzaniga, M. S., Ivry, R. B. & Mangun, G. R. (2014). Cognitive Neuroscience: The Biology of the Mind (edn.). New York: W. W. Norton & Company.
Ghuman, A. S., Bar, M., Dobbins, I. G. & Schnyer, D. M. (2008). The effects of priming on frontal-temporal communication. Proceedings of the National Academy of Sciences of the United States of America, 105, 8405–8409.
Gilbert, J. R., Gotts, S. J., Carver, F. W. & Martin, A. (2010). Object repetition leads to local increases in the temporal coordination of neural responses. Frontiers in Human Neuroscience, 4, 30.
Girardeau, G. & Zugaro, M. (2011). Hippocampal ripples and memory consolidation. Current Opinion in Neurobiology, 21, 452–459.
Glosser, G., Deutsch, G. K., Cole, L. C., Corwin, J. & Saykin, A. J. (1998). Differential lateralization of memory discrimination and response bias in temporal lobe epilepsy patients. Journal of the International Neuropsychological Society, 4, 502–511.
Goldstein, J. M., Seidman, L. J., Horton, N. J., Makris, N., Kennedy, D. N., Caviness, V. S. Jr., Faraone, S. V. & Tsuang, M. T. (2001). Normal sexual dimorphism of the adult human brain assessed by in vivo magnetic resonance imaging. Cerebral Cortex, 11, 490–497.
Gosselin, N., Bottari, C., Chen, J. K., Petrides, M., Tinawi, S., de Guise, E. & Ptito, A. (2011). Electrophysiology and functional MRI in post-acute mild traumatic brain injury. Journal of Neurotrauma, 28, 329–341.
Gotts, S. J., Chow, C. C. & Martin, A. (2012). Repetition priming and repetition suppression: A case for enhanced efficiency through neural synchronization. Cognitive Neuroscience, 3, 227–237.
Grill-Spector, K., Henson, R. & Martin, A. (2006). Repetition and the brain: Neural models of stimulus-specific effects. Trends in Cognitive Sciences, 10, 14–23.
Grubb, N. R., Fox, K. A., Smith, K., Best, J., Blane, A., Ebmeier, K. P., Glabus, M. F. & O'Carroll, R. E. (2000). Memory impairment in out-of-hospital cardiac arrest survivors is associated with global reduction in brain volume, not focal hippocampal injury. Stroke, 31, 1509–1514.
Gruber, T. & Müller, M. M. (2005). Oscillatory brain activity dissociates between associative stimulus content in a repetition priming task in the human EEG. Cerebral Cortex, 15, 109–116.
Hannula, D. E. & Ranganath, C. (2008). Medial temporal lobe activity predicts successful relational memory binding. The Journal of Neuroscience, 28, 116–124.
Hannula, D. E. & Ranganath, C. (2009). The eyes have it: Hippocampal activity predicts expression of memory in eye movements. Neuron, 63, 592–599.
Harrison, S. A. & Tong, F. (2009). Decoding reveals the contents of visual working memory in early visual areas. Nature, 458, 632–635.
Hart, B. L., Hart, L. A. & Pinter-Wollman, N. (2008). Large brains and cognition: Where do elephants fit in? Neuroscience & Biobehavioral Reviews, 32, 86–98.
Haxby, J. V., Gobbini, M. I., Furey, M. L., Ishai, A., Schouten, J. L. & Pietrini, P. (2001). Distributed and overlapping representations of faces and objects in ventral temporal cortex. Science, 293, 2425–2430.
Helmholtz, H. (1850). Vorläufiger Bericht über die Fortpflanzungsgeschwindigkeit der Nervenreizung. Archiv für Anatomie, Physiologie und wissenschaftliche Medicin, 71–73.
Henson, R., Shallice, T. & Dolan, R. (2000). Neuroimaging evidence for dissociable forms of repetition priming. Science, 287, 1269–1272.
Herrmann, C. S., Rach, S., Neuling, T. & Strüber, D. (2013). Transcranial alternating current stimulation: A review of the underlying mechanisms and modulation of cognitive processes. Frontiers in Human Neuroscience, 7, 279.
Hirst, W., Phelps, E. A., Buckner, R. L., Budson, A. E., Cuc, A., Gabrieli, J. D., Johnson, M. K., Lustig, C., Lyle, K. B., Mather, M., Meksin, R., Mitchell, K. J., Ochsner, K. N., Schacter, D. L., Simons, J. S. & Vaidya, C. J. (2009). Long-term memory for the terrorist attack of September 11: Flashbulb memories, event memories, and the factors that influence their retention. Journal of Experimental Psychology: General, 138, 161–176.
Hirst, W., Phelps, E. A., Meksin, R., Vaidya, C. J., Johnson, M. K., Mitchell, K. J., Buckner, R. L., Budson, A. E., Gabrieli, J. D., Lustig, C., Mather, M., Ochsner, K. N., Schacter, D., Simons, J. S., Lyle, K. B, Cuc, A. F. & Olsson, A. (2015). A ten-year follow-up of a study of memory for the attack of September 11, 2001: Flashbulb memories and memories for flashbulb events. Journal of Experimental Psychology: General, 144, 603–623.
Hodges, J. R. & Warlow, C. P. (1990). Syndromes of transient amnesia: Towards a classification. A study of 153 cases. Journal of Neurology, Neurosurgery, and Psychiatry, 53, 834–843.
Hopfinger, J. B., Woldorff, M. G., Fletcher, E. M. & Mangun, G. R. (2001). Dissociating top-down attentional control from selective perception and action. Neuropsychologia, 39, 1277–1291.
Hou, M., Safron, A., Paller, K. A. & Guo, C. (2013). Neural correlates of familiarity and conceptual fluency in a recognition test with ancient pictographic characters. Brain Research, 1518, 48–60.
Hsieh, L. T., Ekstrom, A. D. & Ranganath, C. (2011). Neural oscillations associated with item and temporal order maintenance in working memory. The Journal of Neuroscience, 31, 10803–10810.
Huettel, S. A., Song, A. W. & McCarthy, G. (2014). Functional Magnetic Resonance Imaging (edn.). Sunderland, MA: Sinauer Associates.
Hutchinson, J. B., Uncapher, M. R., Weiner, K. S., Bressler, D. W., Silver, M. A., Preston, A. R. & Wagner, A. D. (2014). Functional heterogeneity in posterior parietal cortex across attention and episodic memory retrieval. Cerebral Cortex, 24, 49–66.
Ikkai, A. & Curtis, C. E. (2011). Common neural mechanisms supporting spatial working memory, attention and motor intention. Neuropsychologia, 49, 1428–1434.
Jaeggi, S. M., Buschkuehl, M., Jonides, J. & Perrig, W. J. (2008). Improving fluid intelligence with training on working memory. Proceedings of the National Academy of Sciences of the United States of America, 105, 6829–6833.
James, W. (1890). The principles of psychology (Vol. I). New York: Dover Publications.
Ji, D. & Wilson, M. A. (2007). Coordinated memory replay in the visual cortex and hippocampus during sleep. Nature Neuroscience, 10, 100–107.
Johnson, J. D., Minton, B. R. & Rugg, M. D. (2008). Content dependence of the electrophysiological correlates of recollection. NeuroImage, 39, 406–416.
Jolles, D. D., Grol, M. J., Van Buchem, M. A., Rombouts, S. A. & Crone, E. A. (2010). Practice effects in the brain: Changes in cerebral activation after working memory practice depend on task demands. NeuroImage, 52, 658–668.
Jones-Gotman, M. (1986). Right hippocampal excision impairs learning and recall of a list of abstract designs. Neuropsychologia, 24, 659–670.
Kanwisher, N. (2010). Functional specificity in the human brain: A window into the functional architecture of the mind. Proceedings of the National Academy of Sciences of the United States of America, 107, 11163–11170.
Kanwisher, N., McDermott, J. & Chun, M. M. (1997). The fusiform face area: A module in human extrastriate cortex specialized for face perception. The Journal of Neuroscience, 17, 4302–4311.
Karanian, J. M. & Slotnick, S. D. (2014a). The cortical basis of true memory and false memory for motion. Neuropsychologia, 54, 53–58.
Karanian, J. M. & Slotnick, S. D. (2014b). False memory for context activates the parahippocampal cortex. Cognitive Neuroscience, 5, 186–92.
Karanian, J. M. & Slotnick, S. D. (2015). Memory for shape reactivates the lateral occipital complex. Brain Research, 1603, 124–132.
Karanian, J. M. & Slotnick, S. D. (2016). False memories activate early sensory cortex. Manuscript submitted for publication.
Kemp, A. & Manahan-Vaughan, D. (2007). Hippocampal long-term depression: Master or minion in declarative memory processes? Trends in Neurosciences, 30, 111–118.
Kiesel, A., Kunde, W., Pohl, C., Berner, M. P. & Hoffmann, J. (2009). Playing chess unconsciously. Journal of Experimental Psychology: Learning, Memory, and Cognition, 35, 292–298.
Kim, H. (2011). Neural activity that predicts subsequent memory and forgetting: A meta-analysis of 74 fMRI studies. NeuroImage, 54, 2446–2461.
Kim, H. & Cabeza, R. (2007). Differential contributions of prefrontal, medial temporal, and sensory-perceptual regions to true and false memory formation. Cerebral Cortex, 17, 2143–2150.
Klingberg, T. (2010). Training and plasticity of working memory. Trends in Cognitive Sciences, 14, 317–324.
Knowlton, B. J. & Fanselow, M. S. (1998). The hippocampus, consolidation and on-line memory. Current Opinion in Neurobiology, 8, 293–296.
Kosslyn, S. M., Ganis, G. & Thompson, W. L. (2001). Neural foundations of imagery. Nature Reviews Neuroscience, 2, 635–642.
Köster, M., Friese, U., Schöne, B., Trujillo-Barreto, N. & Gruber, T. (2014). Theta-gamma coupling during episodic retrieval in the human EEG. Brain Research, 1577, 57–68.
Koutstaal, W., Wagner, A. D., Rotte, M., Maril, A., Buckner, R. L. & Schacter, D. L. (2001). Perceptual specificity in visual object priming: Functional magnetic resonance imaging evidence for a laterality difference in fusiform cortex. Neuropsychologia, 39, 184–199.
Kraus, B. J., Robinson, R. J., White, J. A., Eichenbaum, H. & Hasselmo, M. E. (2013). Hippocampal “time cells”: Time versus path integration. Neuron, 78, 1090–1101.
Kremers, D., Jaramillo, M. B., Böye, M., Lemasson, A. & Hausberger, M. (2011). Do dolphins rehearse show-stimuli when at rest? Delayed matching of auditory memory. Frontiers in Psychology, 2, 386.
Landau, S. M., Marks, S. M., Mormino, E. C., Rabinovici, G. D., Oh, H., O'Neil, J. P., Wilson, R. S. & Jagust, W. J. (2012). Association of lifetime cognitive engagement and low β-amyloid deposition. Archives of Neurology, 69, 623–629.
Larson, J., Wong, D. & Lynch, G. (1986). Patterned stimulation at the theta frequency is optimal for the induction of hippocampal long-term potentiation. Brain Research, 368, 347–350.
Leal, S. L. & Yassa, M. A. (2013). Perturbations of neural circuitry in aging, mild cognitive impairment, and Alzheimer's disease. Ageing Research Reviews, 12, 823–831.
LePort, A. K., Mattfeld, A. T., Dickinson-Anson, H., Fallon, J. H., Stark, C. E., Kruggel, F., Cahill, L. & McGaugh, J. L. (2012). Behavioral and neuroanatomical investigation of Highly Superior Autobiographical Memory (HSAM). Neurobiology of Learning and Memory, 98, 78–92.
Li, X., Xiao, Y. H., Zhao, Q., Leung, A. W., Cheung, E. F. & Chan, R. C. (2015). The neuroplastic effect of working memory training in healthy volunteers and patients with schizophrenia: Implications for cognitive rehabilitation. Neuropsychologia, 75, 149–162.
Liang, K. Y., Mintun, M. A., Fagan, A. M., Goate, A. M., Bugg, J. M., Holtzman, D. M., Morris, J. C. & Head, D. (2010). Exercise and Alzheimer's disease biomarkers in cognitively normal older adults. Annals of Neurology, 68, 311–318.
Libby, L. A., Hannula, D. E. & Ranganath, C. (2014). Medial temporal lobe coding of item and spatial information during relational binding in working memory. The Journal of Neuroscience, 34, 14233–14242.
Lindquist, K. A., Wager, T. D., Kober, H., Bliss-Moreau, E. & Barrett, L. F. (2012). The brain basis of emotion: A meta-analytic review. Behavioral and Brain Sciences, 35, 121–143.
Liu, T., Slotnick, S. D., Serences, J. T. & Yantis, S. (2003). Cortical mechanisms of feature-based attentional control. Cerebral Cortex, 13, 1334–1343.
Logothetis, N. K., Pauls, J., Augath, M., Trinath, T. & Oeltermann, A. (2001). Neurophysiological investigation of the basis of the fMRI signal. Nature, 412, 150–157.
Ma, L., Wang, B., Narayana, S., Hazeltine, E., Chen, X., Robin, D. A., Fox, P. T. & Xiong, J. (2010). Changes in regional activity are accompanied with changes in inter-regional connectivity during 4 weeks motor learning. Brain Research, 1318, 64–76.
MacDonald, C. J., Carrow, S., Place, R. & Eichenbaum, H. (2013). Distinct hippocampal time cell sequences represent odor memories in immobilized rats. The Journal of Neuroscience, 33, 14607–14616.
Maguire, E. A., Gadian, D. G., Johnsrude, I. S., Good, C. D., Ashburner, J., Frackowiak, R. S. & Frith, C. D. (2000). Navigation-related structural change in the hippocampi of taxi drivers. Proceedings of the National Academy of Sciences of the United States of America, 97, 4398–4403.
Maguire, E. A., Valentine, E. R., Wilding, J. M. & Kapur, N. (2003). Routes to remembering: The brains behind superior memory. Nature Neuroscience, 6, 90–95.
Maguire, E. A., Woollett, K. & Spiers, H. J. (2006). London taxi drivers and bus drivers: A structural MRI and neuropsychological analysis. Hippocampus, 16, 1091–1101.
Malmivuo, J. (2012). Comparison of the properties of EEG and MEG in detecting the electric activity of the brain. Brain Topography, 25, 1–19.
Manns, J. R. & Eichenbaum, H. (2006). Evolution of declarative memory. Hippocampus, 16, 795–808.
Manns, J. R., Hopkins, R. O., Reed, J. M., Kitchener, E. G. & Squire, L. R. (2003). Recognition memory and the human hippocampus. Neuron, 37, 171–180.
Marshall, L. & Born, J. (2007). The contribution of sleep to hippocampus-dependent memory consolidation. Trends in Cognitive Sciences, 11, 442–450.
Marshall, L., Helgadóttir, H., Mölle, M. & Born, J. (2006). Boosting slow oscillations during sleep potentiates memory. Nature, 444, 610–613.
Martin, A. & Chao, L. L. (2001). Semantic memory and the brain: Structure and processes. Current Opinion in Neurobiology, 11, 194–201.
Matsumura, N., Nishijo, H., Tamura, R., Eifuku, S., Endo, S. & Ono, T. (1999). Spatial- and task-dependent neuronal responses during real and virtual translocation in the monkey hippocampal formation. The Journal of Neuroscience, 19, 2381–2393.
Maxwell, J. C. (1865). A dynamical theory of the electromagnetic field. Philosophical Transactions of the Royal Society of London, 155, 459–512.
Mayer, A. R., Bellgowan, P. S. & Hanlon, F. M. (2015). Functional magnetic resonance imaging of mild traumatic brain injury. Neuroscience & Biobehavioral Reviews, 49, 8–18.
McAllister, T. W., Sparling, M. B., Flashman, L. A., Guerin, S. J., Mamourian, A. C. & Saykin, A. J. (2001). Differential working memory load effects after mild traumatic brain injury. NeuroImage, 14, 1004–1012.
McDonald, B. C., Saykin, A. J. & McAllister, T. W. (2012). Functional MRI of mild traumatic brain injury (mTBI): Progress and perspectives from the first decade of studies. Brain Imaging and Behavior, 6, 193–207.
Mercado, E., Murray, S. O., Uyeyama, R. K., Pack, A. A. & Herman, L. M. (1998). Memory for recent actions in the bottlenosed dolphin (Tursiops truncates): Repetition of arbitrary behaviors using an abstract rule. Animal Learning & Behavior, 26, 210–218.
Metternich, B., Wagner, K., Schulze-Bonhage, A., Buschmann, F. & McCarthy, R. A. (2013). Flashbulb memories in patients with temporal lobe epilepsy. Epilepsy & Behavior, 28, 71–77.
Mez, J., Stern, R. A. & McKee, A. C. (2013). Chronic traumatic encephalopathy: Where are we and where are we going? Current Neurology and Neuroscience Reports, 13, 407.
Mickley Steinmetz, K. R., Schmidt, K., Zucker, H. R. & Kensinger, E. A. (2012). The effect of emotional arousal and retention delay on subsequent-memory effects. Cognitive Neuroscience, 3, 150–159.
Miller, E. K., Freedman, D. J. & Wallis, J. D. (2002). The prefrontal cortex: Categories, concepts and cognition. Philosophical Transactions of the Royal Society of London B: Biological Sciences, 357, 1123–1136.
Milner, B. (1968). Disorders of memory after brain lesions in man. Neuropsychologia, 6, 175–179.
Mitchell, K. J. & Johnson, M. K. (2009). Source monitoring 15 years later: What have we learned from fMRI about the neural mechanisms of source memory? Psychological Bulletin, 135, 638–677.
Nadel, L. & Bohbot, V. (2001). Consolidation of memory. Hippocampus, 11, 56–60.
Nadel, L. & Moscovitch, M. (1997). Memory consolidation, retrograde amnesia and the hippocampal complex. Current Opinion in Neurobiology, 7, 217–227.
Naghavi, H. R. & Nyberg, L. (2005). Common fronto-parietal activity in attention, memory, and consciousness: Shared demands on integration? Consciousness and Cognition, 14, 390–425.
Nakada, T., Kwee, I. L., Fujii, Y. & Knight, R. T. (2005). High-field, T2 reversed MRI of the hippocampus in transient global amnesia. Neurology, 64, 1170–1174.
Naya, Y. & Suzuki, W. A. (2011). Integrating what and when across the primate medial temporal lobe. Science, 333, 773–776.
Nunez, P. L. & Srinivasan, R. (2005). Electric Fields of the Brain: The Neurophysis of EEG (edn.). New York: Oxford University Press.
O'Keefe, J. & Dostrovsky, J. (1971). The hippocampus as a spatial map: Preliminary evidence from unit activity in the freely-moving rat. Brain Research, 34, 171–175.
Olesen, P. J., Westerberg, H. & Klingberg, T. (2004). Increased prefrontal and parietal activity after training of working memory. Nature Neuroscience, 7, 75–79.
O'Neill, J., Pleydell-Bouverie, B., Dupret, D. & Csicsvari, J. (2010). Play it again: Reactivation of waking experience and memory. Trends in Neurosciences, 33, 220–229.
Otten, L. J. & Rugg, M. D. (2001). When more means less: Neural activity related to unsuccessful memory encoding. Current Biology, 11, 1528–1530.
Paller, K. A., Voss, J. L. & Boehm, S. G. (2007). Validating neural correlates of familiarity. Trends in Cognitive Sciences, 11, 243–250.
Pastalkova, E., Itskov, V., Amarasingham, A. & Buzsáki, G. (2008). Internally generated cell assembly sequences in the rat hippocampus. Science, 321, 1322–1327.
Patzke, N., Olaleye, O., Haagensen, M., Hof, P. R., Ihunwo, A. O. & Manger, P. R. (2014). Organization and chemical neuroanatomy of the African elephant (Loxodonta africana) hippocampus. Brain Structure and Function, 219, 1587–1601.
Payne, J. D. (2010). Memory consolidation, the diurnal rhythm of cortisol, and the nature of dreams: A new hypothesis. International Review of Neurobiology, 92, 101–134.
Pearson, J., Naselaris, T., Holmes, E. A. & Kosslyn, S. M. (2015). Mental imagery: Functional mechanisms and clinical applications. Trends in Cognitive Sciences, 19, 590–602.
Penhune, V. B. & Doyon, J. (2002). Dynamic cortical and subcortical networks in learning and delayed recall of timed motor sequences. The Journal of Neuroscience, 22, 1397–1406.
Penolazzi, B., Stramaccia, D. F., Braga, M., Mondini, S. & Galfano, G. (2014). Human memory retrieval and inhibitory control in the brain: Beyond correlational evidence. The Journal of Neuroscience, 34, 6606–6610.
Pessoa, L. & Adolphs, R. (2010). Emotion processing and the amygdala: From a “low road” to “many roads” of evaluating biological significance. Nature Reviews Neuroscience, 11, 773–783.
Phelps, E. A. (2004). Human emotion and memory: Interactions of the amygdala and hippocampal complex. Current Opinion in Neurobiology, 14, 198–202.
Platt, J. R. (1964). Strong inference. Science, 146, 347–353.
Posner, M. I. (1980). Orienting of attention. The Quarterly Journal of Experimental Psychology, 32, 3–25.
Pratte, M. S. & Tong, F. (2014). Spatial specificity of working memory representations in the early visual cortex. Journal of Vision, 14(3):22, 1–12.
Preston, A. R. & Eichenbaum, H. (2013). Interplay of hippocampus and prefrontal cortex in memory. Current Biology, 23, R764–773.
Preston, A. R. & Gabrieli, J. D. (2008). Dissociation between explicit memory and configural memory in the human medial temporal lobe. Cerebral Cortex, 18, 2192–2207.
Price, C. J. (2000). The anatomy of language: Contributions from functional neuroimaging. Journal of Anatomy, 197, 335–359.
Purpura, D. P. & McMurtry, J. G. (1965). Intracellular activities and evoked potential changes during polarization of motor cortex. Journal of Neurophysiology, 28, 166–185.
Qin, Y. L., McNaughton, B. L., Skaggs, W. E. & Barnes, C. A. (1997). Memory reprocessing in corticocortical and hippocampocortical neuronal ensembles. Philosophical Transactions of the Royal Society of London B: Biological Sciences, 352, 1525–1533.
Quinette, P., Guillery-Girard, B., Dayan, J., de la Sayette, V., Marquis, S., Viader, F., Desgranges, B. & Eustache, F. (2006). What does transient global amnesia really mean? Review of the literature and thorough study of 142 cases. Brain, 129, 1640–1658.
Rattenborg, N. C., Martinez-Gonzalez, D., Roth, T. C., & Pravosudov, V. V. (2011). Hippocampal memory consolidation during sleep: A comparison of mammals and birds. Biological Reviews of the Cambridge Philosophical Society, 86, 658–691.
Raz, A., Packard, M. G., Alexander, G. M., Buhle, J. T., Zhu, H., Yu, S. & Peterson, B. S. (2009). A slice of pi: An exploratory neuroimaging study of digit encoding and retrieval in a superior memorist. Neurocase, 15, 361–372.
Reiman, E. M. & Jagust, W. J. (2012). Brain imaging in the study of Alzheimer's disease. NeuroImage, 61, 505–516.
Roediger, H. L. & McDermott, K. B. (1995). Creating false memories: Remembering words not presented in lists. Journal of Experimental Psychology: Learning, Memory, and Cognition, 21, 803–814.
Ross, R. S. & Slotnick, S. D. (2008). The hippocampus is preferentially associated with memory for spatial context. Journal of Cognitive Neuroscience, 20, 432–446.
Roux, F. & Uhlhaas, P. J. (2014). Working memory and neural oscillations: Alpha-gamma versus theta-gamma codes for distinct WM information? Trends in Cognitive Science, 18, 16–25.
Roux, F., Wibral, M., Mohr, H. M., Singer, W. & Uhlhaas, P. J. (2012). Gamma-band activity in human prefrontal cortex codes for the number of relevant items maintained in working memory. The Journal of Neuroscience, 32, 12411–12420.
Rudoy, J. D., Voss, J. L., Westerberg, C. E. & Paller, K. A. (2009). Strengthening individual memories by reactivating them during sleep. Science, 326, 1079.
Ruff, C. C., Blankenburg, F., Bjoertomt, O., Bestmann, S., Freeman, E., Haynes, J. D., Rees, G., Josephs, O., Deichmann, R. & Driver, J. (2006). Concurrent TMS-fMRI and psychophysics reveal frontal influences on human retinotopic visual cortex. Current Biology, 16, 1479–1488.
Rugg, M. D. & Curran, T. (2007). Event-related potentials and recognition memory. Trends in Cognitive Sciences, 11, 251–257.
Rugg, M. D. & Vilberg, K. L. (2013). Brain networks underlying episodic memory retrieval. Current Opinion in Neurobiology, 23, 255–260.
Sala, J. B., Rämä, P. & Courtney, S. M. (2003). Functional topography of a distributed neural system for spatial and nonspatial information maintenance in working memory. Neuropsychologia, 41, 341–356.
Sauseng, P., Klimesch, W., Heise, K. F., Gruber, W. R., Holz, E., Karim, A. A., Glennon, M., Gerloff, C., Birbaumer, N. & Hummel, F. C. (2009). Brain oscillatory substrates of visual short-term memory capacity. Current Biology, 19, 1846–1852.
Schacter, D. L. (1999). The seven sins of memory. Insights from psychology and cognitive neuroscience. American Psychologist, 54, 182–203.
Schacter, D. L. & Loftus, E. F. (2013). Memory and law: What can cognitive neuroscience contribute? Nature Neuroscience, 16, 119–123.
Schacter, D. L. & Slotnick, S. D. (2004). The cognitive neuroscience of memory distortion. Neuron, 44, 149–160.
Schacter, D. L., Dobbins, I. G. & Schnyer, D. M. (2004). Specificity of priming: A cognitive neuroscience perspective. Nature Reviews Neuroscience, 5, 853–862.
Schacter, D. L., Guerin, S. A. & St Jacques, P. L. (2011). Memory distortion: An adaptive perspective. Trends in Cognitive Sciences, 15, 467–474.
Schacter, D. L., Wig, G. S. & Stevens, W. D. (2007). Reductions in cortical activity during priming. Current Opinion in Neurobiology, 17, 171–176.
Scoville, W. B. & Milner, B. (1957). Loss of recent memory after bilateral hippocampal lesions. Journal of Neurology, Neurosurgery, & Psychiatry, 20, 11–21.
Serences, J. T., Ester, E. F., Vogel, E. K. & Awh, E. (2009). Stimulus-specific delay activity in human primary visual cortex. Psychological Science, 20, 207–214.
Sharot, T., Martorella, E. A., Delgado, M. R. & Phelps, E. A. (2007). How personal experience modulates the neural circuitry of memories of September 11. Proceedings of the National Academy of Sciences of the United States of America, 104, 389–394.
Shin, Y. I., Foerster, Á. & Nitsche, M. A. (2015). Reprint of: Transcranial direct current stimulation (tDCS) – Application in neuropsychology. Neuropsychologia, 74, 74–95.
Shrager, Y., Kirwan, C. B. & Squire, L. R. (2008). Activity in both hippocampus and perirhinal cortex predicts the memory strength of subsequently remembered information. Neuron, 59, 547–553.
Simmons, W. K., Reddish, M., Bellgowan, P. S. & Martin, A. (2010). The selectivity and functional connectivity of the anterior temporal lobes. Cerebral Cortex, 20, 813–825.
Skipper, L. M., Ross, L. A. & Olson, I. R. (2011). Sensory and semantic category subdivisions within the anterior temporal lobes. Neuropsychologia, 49, 3419–3429.
Slobounov, S. M., Zhang, K., Pennell, D., Ray, W., Johnson, B. & Sebastianelli, W. (2010). Functional abnormalities in normally appearing athletes following mild traumatic brain injury: A functional MRI study. Experimental Brain Research, 202, 341–354.
Slotnick, S. D. (2004a). Source localization of ERP generators. In Handy, T. C. (ed.), Event-Related Potentials: A Methods Handbook (pp. 149–166). Cambridge, MA: The MIT Press.
Slotnick, S. D. (2004b). Visual memory and visual perception recruit common neural substrates. Behavioral and Cognitive Neuroscience Reviews, 3, 207–221.
Slotnick, S. D. (2009a). Memory for color reactivates color processing region. NeuroReport, 20, 1568–1571.
Slotnick, S. D. (2009b). Rapid retinotopic reactivation during spatial memory. Brain Research, 1268, 97–111.
Slotnick, S. D. (2010a). Does the hippocampus mediate objective binding or subjective remembering? NeuroImage, 49, 1769–1776.
Slotnick, S. D. (2010b). Synchronous retinotopic frontal-temporal activity during long-term memory for spatial location. Brain Research, 1330, 89–100.
Slotnick, S. D. (2013a). Controversies in Cognitive Neuroscience. Basingstoke, UK: Palgrave Macmillan.
Slotnick, S. D. (2013b). The nature of recollection in behavior and the brain. NeuroReport, 24, 663–670.
Slotnick, S. D. & Dodson, C. S. (2005). Support for a continuous (single-process) model of recognition memory and source memory. Memory & Cognition, 33, 151–170.
Slotnick, S. D. & Schacter, D. L. (2004). A sensory signature that distinguishes true from false memories. Nature Neuroscience, 7, 664–672.
Slotnick, S. D. & Schacter, D. L. (2006). The nature of memory related activity in early visual areas. Neuropsychologia, 44, 2874–2886.
Slotnick, S. D. & Schacter, D. L. (2007). The cognitive neuroscience of memory and consciousness. In Zelazo, P. D., Moscovitch, M. & Thompson, E. (Eds.), Cambridge Handbook of Consciousness (pp. 809–827). New York: Cambridge University Press.
Slotnick, S. D. & Thakral, P. P. (2011). Memory for motion and spatial location is mediated by contralateral and ipsilateral motion processing cortex. NeuroImage, 55, 794–800.
Slotnick, S. D. & White, R. C. (2013). The fusiform face area responds equivalently to faces and abstract shapes in the left and central visual fields. NeuroImage, 83, 408–17.
Slotnick, S. D., Schwarzbach, J. & Yantis, S. (2003). Attentional inhibition of visual processing in human striate and extrastriate cortex. NeuroImage, 19, 1602–1611.
Slotnick, S. D., Moo, L. R., Kraut, M. A., Lesser, R. P. & Hart, J. Jr. (2002). Interactions between thalamic and cortical rhythms during semantic memory recall in human. Proceedings of the National Academy of Sciences of the United States of America, 99, 6440–6443.
Slotnick, S. D., Moo, L. R., Segal, J. B. & Hart, J. Jr. (2003). Distinct prefrontal cortex activity associated with item memory and source memory for visual shapes. Cognitive Brain Research, 17, 75–82.
Slotnick, S. D., Thompson, W. L. & Kosslyn, S. M. (2005). Visual mental imagery induces retinotopically organized activation of early visual areas. Cerebral Cortex, 15, 1570–1583.
Slotnick, S. D., Thompson, W. L. & Kosslyn, S. M. (2012). Visual memory and visual mental imagery recruit common control and sensory regions of the brain. Cognitive Neuroscience, 3, 14–20.
Smith, C. N. & Squire, L. R. (2009). Medial temporal lobe activity during retrieval of semantic memory is related to the age of the memory. The Journal of Neuroscience, 29, 930–938.
Spaniol, J., Davidson, P. S., Kim, A. S., Han, H., Moscovitch, M. & Grady, C. L. (2009). Event-related fMRI studies of episodic encoding and retrieval: Meta-analyses using activation likelihood estimation. Neuropsychologia, 47, 1765–1779.
Špinka, M., Duncan, I. J. H. & Widowski, T. M. (1998). Do domestic pigs prefer short-term to medium-term confinement? Applied Animal Behavior Science, 58, 221–232.
Sprague, T. C., Ester, E. F. & Serences, J. T. (2014). Reconstructions of information in visual spatial working memory degrade with memory load. Current Biology, 24, 2174–2180.
Spurzheim, J. G. (1827). Outlines of Phrenology; Being also a Manual of Reference for the Marked Busts. London, England: Treuttel, Wurtz, & Richter.
Squire, L. R. (1992). Memory and the hippocampus: A synthesis from findings with rats, monkeys, and humans. Psychological Review, 99, 195–231.
Squire, L. R., Wixted, J. T. & Clark, R. E. (2007). Recognition memory and the medial temporal lobe: A new perspective. Nature Reviews Neuroscience, 8, 872–883.
Sreenivasan, K. K., Vytlacil, J. & D'Esposito, M. (2014). Distributed and dynamic storage of working memory stimulus information in extrastriate cortex. Journal of Cognitive Neuroscience, 26, 1141–1153.
Staudigl, T., Hanslmayr, S. & Bäuml, K. H. (2010). Theta oscillations reflect the dynamics of interference in episodic memory retrieval. The Journal of Neuroscience, 30, 11356–11362.
Steele, C. J. & Penhune, V. B. (2010). Specific increases within global decreases: A functional magnetic resonance imaging investigation of five days of motor sequence learning. The Journal of Neuroscience, 30, 8332–8341.
Stickgold, R. & Walker, M. P. (2005). Memory consolidation and reconsolidation: What is the role of sleep? Trends in Neurosciences, 28, 408–415.
Stoub, T. R., deToledo-Morrell, L., Stebbins, G. T., Leurgans, S., Bennett, D. A. & Shah, R. C. (2006). Hippocampal disconnection contributes to memory dysfunction in individuals at risk for Alzheimer's disease. Proceedings of the National Academy of Sciences of the United States of America, 103, 10041–10045.
Suddendorf, T. & Corballis, M. C. (2007). The evolution of foresight: What is mental time travel, and is it unique to humans? Behavioral and Brain Sciences, 30, 299–313.
Suthana, N. A., Parikshak, N. N., Ekstrom, A. D., Ison, M. J., Knowlton, B. J., Bookheimer, S. Y. & Fried, I. (2015). Specific responses of human hippocampal neurons are associated with better memory. Proceedings of the National Academy of Sciences of the United States of America, 112, 10503–10508.
Sweeney-Reed, C. M., Zaehle, T., Voges, J., Schmitt, F. C., Buentjen, L., Kopitzki, K., Esslinger, C., Hinrichs, H., Heinze, H. J., Knight, R. T. & Richardson-Klavehn, A. (2014). Corticothalamic phase synchrony and cross-frequency coupling predict human memory formation. Elife, 3, e05352.
Thakral, P. P. & Slotnick, S. D. (2009). The role of parietal cortex during sustained visual spatial attention. Brain Research, 1302, 157–166.
Thakral, P. P. & Slotnick, S. D. (2013). The role of spatial attention during spatial encoding. Cognitive Neuroscience, 4, 73–80.
Thakral, P. P., Jacobs, C. M. & Slotnick, S. D. (forthcoming). An attention account of neural priming. Memory.
Tromp, D., Dufour, A., Lithfous, S., Pebayle, T. & Després, O. (2015). Episodic memory in normal aging and Alzheimer disease: Insights from imaging and behavioral studies. Ageing Research Reviews, 24, 232–262.
Tulving, E. (1985). Memory and consciousness. Canadian Psychology, 26, 1–12.
Tulving, E. (2005). Episodic memory and autonoesis: Uniquely human? In Terrace, H. S. & Metcalfe, J. (Eds.), The Missing Link in Cognition: Origins of Self-Reflective Consciousness (pp. 3–56). New York: Oxford University Press.
Uncapher, M. R. & Wagner, A. D. (2009). Posterior parietal cortex and episodic encoding: Insights from fMRI subsequent memory effects and dual-attention theory. Neurobiology of Learning and Memory, 91, 139–154.
Ungerleider, L. G., Doyon, J. & Karni, A. (2002). Imaging brain plasticity during motor skill learning. Neurobiology of Learning and Memory, 78, 553–564.
Uttal, W. R. (2003). The New Phrenology. Cambridge, MA: The MIT Press.
van de Ven, V., Jacobs, C. M. & Sack, A. T. (2012). Topographic contribution of early visual cortex to short-term memory consolidation: A transcranial magnetic stimulation study. The Journal of Neuroscience, 32, 4–11.
van Wyhe, J. (2004). Phrenology and the Origins of Victorian Scientific Naturalism. Aldershot, England: Ashgate Publishing Limited.
Vigneau, M., Beaucousin, V., Hervé, P. Y., Duffau, H., Crivello, F., Houdé, O., Mazoyer, B. & Tzourio-Mazoyer, N. (2006). Meta-analyzing left hemisphere language areas: Phonology, semantics, and sentence processing. NeuroImage, 30, 1414–1432.
Vilberg, K. L. & Rugg, M. D. (2009). Functional significance of retrieval-related activity in lateral parietal cortex: Evidence from fMRI and ERPs. Human Brain Mapping, 30, 1490–1501.
Vilberg, K. L., Moosavi, R. F. & Rugg, M. D. (2006). The relationship between electrophysiological correlates of recollection and amount of information retrieved. Brain Research, 1122, 161–170.
Voss, J. L., Schendan, H. E. & Paller, K. A. (2010). Finding meaning in novel geometric shapes influences electrophysiological correlates of repetition and dissociates perceptual and conceptual priming. NeuroImage, 49, 2879–2889.
Vuilleumier, P., Henson, R. N., Driver, J. & Dolan, R. J. (2002). Multiple levels of visual object constancy revealed by event-related fMRI of repetition priming. Nature Neuroscience, 5, 491–499.
Wagner, A. D. & Davachi, L. (2001). Cognitive neuroscience: Forgetting of things past. Current Biology, 11, R964–967.
Wagner, A. D., Shannon, B. J., Kahn, I. & Buckner, R. L. (2005). Parietal lobe contributions to episodic memory retrieval. Trends in Cognitive Sciences, 9, 445–453.
Waldhauser, G. T., Johansson, M. & Hanslmayr, S. (2012). Alpha/beta oscillations indicate inhibition of interfering visual memories. The Journal of Neuroscience, 32, 1953–1961.
Weiner, K. S., Sayres, R., Vinberg, J. & Grill-Spector, K. (2010). fMRI-adaptation and category selectivity in human ventral temporal cortex: regional differences across time scales. Journal of Neurophysiology, 103, 3349–3365.
Wheeler, M. E. & Buckner, R. L. (2003). Functional dissociation among components of remembering: Control, perceived oldness, and content. The Journal of Neuroscience, 23, 3869–3880.
Wheeler, M. E. & Buckner, R. L. (2004). Functional-anatomic correlates of remembering and knowing. NeuroImage, 21, 1337–1349.
Wheeler, M. E., Petersen, S. E. & Buckner, R. L. (2000). Memory's echo: Vivid remembering reactivates sensory-specific cortex. Proceedings of the National Academy of Sciences of the United States of America, 97, 11125–11129.
Wig, G. S., Grafton, S. T., Demos, K. E. & Kelley, W. M. (2005). Reductions in neural activity underlie behavioral components of repetition priming. Nature Neuroscience, 8, 1228–1233.
Willment, K. C. & Golby, A. (2013). Hemispheric lateralization interrupted: Material-specific memory deficits in temporal lobe epilepsy. Frontiers in Human Neuroscience, 7, 546.
Wimber, M., Alink, A., Charest, I., Kriegeskorte, N. & Anderson, M. C. (2015). Retrieval induces adaptive forgetting of competing memories via cortical pattern suppression. Nature Neuroscience, 18, 582–589.
Wimber, M., Bäuml, K. H., Bergström, Z., Markopoulos, G., Heinze, H. J. & Richardson-Klavehn, A. (2008). Neural markers of inhibition in human memory retrieval. The Journal of Neuroscience, 28, 13419–13427.
Winocur, G. & Moscovitch, M. (2011). Memory transformation and systems consolidation. Journal of the International Neuropsychological Society, 17, 766–780.
Winters, B. D., Saksida, L. M. & Bussey, T. J. (2008). Object recognition memory: Neurobiological mechanisms of encoding, consolidation and retrieval. Neuroscience & Biobehavioral Reviews, 32, 1055–1070.
Wixted, J. T. (2007). Dual-process theory and signal-detection theory of recognition memory. Psychological Review, 114, 152–176.
Woollams, A. M., Taylor, J. R., Karayanidis, F. & Henson, R. N. (2008). Event-related potentials associated with masked priming of test cues reveal multiple potential contributions to recognition memory. Journal of Cognitive Neuroscience, 20, 1114–1129.
Woollett, K., Spiers, H. J. & Maguire, E. A. (2009). Talent in the taxi: A model system for exploring expertise. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences, 364, 1407–1416.
Woroch, B. & Gonsalves, B. D. (2010). Event-related potential correlates of item and source memory strength. Brain Research, 1317, 180–191.
Yang, Y., Kim, S. & Kim, J. H. (2008). Ischemic evidence of transient global amnesia: Location of the lesion in the hippocampus. Journal of Clinical Neurology, 4, 59–66.
Yassa, M. A., Stark, S. M., Bakker, A., Albert, M. S., Gallagher, M. & Stark, C. E. (2010). High-resolution structural and functional MRI of hippocampal CA3 and dentate gyrus in patients with amnestic Mild Cognitive Impairment. NeuroImage, 51, 1242–52.
Young, K. D., Bellgowan, P. S., Bodurka, J. & Drevets, W. C. (2013). Functional neuroimaging of sex differences in autobiographical memory recall. Human Brain Mapping, 34, 3320–3332.