Functional connectivity of hippocampal and prefrontal networks during episodic and spatial memory based on real-world environments

Hippocampus

Volumn 25, Issue 1, 2015, Pages 81-93

  Robin, Jessica ^a,b   Hirshhorn, Marnie ^a,b   Rosenbaum, R Shayna ^a,c   Winocur, Gordon ^a,b,d   Moscovitch, Morris ^a,b   Grady, Cheryl L ^a,b  

^a ROTMAN RESEARCH INSTITUTE   (Canada)

^b UNIVERSITY OF TORONTO   (Canada)

^c YORK UNIVERSITY   (Canada)

^d TRENT UNIVERSITY   (Canada)

Author keywords

Autobiographical memory; Default network; FMRI; MTL; Sub networks

Indexed keywords

ADULT; ARTICLE; CEREBELLUM; CINGULATE GYRUS; CORPUS STRIATUM; DEFAULT MODE NETWORK; ELECTROENCEPHALOGRAM; EPISODIC MEMORY; FEMALE; FUNCTIONAL CONNECTIVITY; HIPPOCAMPUS; HUMAN; HUMAN EXPERIMENT; INFERIOR FRONTAL GYRUS; MALE; MEDIAL TEMPORAL LOBE; MIDDLE FRONTAL GYRUS; MIDDLE OCCIPITAL GYRUS; MIDDLE TEMPORAL GYRUS; NORMAL HUMAN; PARIETAL CORTEX; PARTIAL LEAST SQUARES REGRESSION; PRECUNEUS; PREFRONTAL CORTEX; PRIMARY MOTOR CORTEX; PUTAMEN; SPATIAL MEMORY; SUPERIOR PARIETAL LOBULE; TEMPOROPARIETAL JUNCTION; THALAMUS; BRAIN MAPPING; ENVIRONMENT; NERVE CELL NETWORK; NUCLEAR MAGNETIC RESONANCE IMAGING; PHYSIOLOGY; PROCEDURES; TEMPORAL LOBE; YOUNG ADULT;

ADULT; BRAIN MAPPING; ENVIRONMENT; FEMALE; HIPPOCAMPUS; HUMANS; MAGNETIC RESONANCE IMAGING; MALE; MEMORY, EPISODIC; NERVE NET; PREFRONTAL CORTEX; SPATIAL MEMORY; TEMPORAL LOBE; YOUNG ADULT;

EID: 84917671707     PISSN: 10509631     EISSN: 10981063     Source Type: Journal    
DOI: 10.1002/hipo.22352     Document Type: Article

References (56)

1. Addis DR, Knapp K, Roberts RP, Schacter DL. 2012. Routes to the past: Neural substrates of direct and generative autobiographical memory retrieval. NeuroImage 59:2908-2922.
2. Addis DR, Wong AT, Schacter DL. 2007. Remembering the past and imagining the future: Common and distinct neural substrates during event construction and elaboration. Neuropsychologia 45:1363-1377.
3. Andrews-Hanna JR, Reidler JS, Sepulcre J, Poulin R, Buckner RL. 2010. Functional-anatomic fractionation of the brain's default network. Neuron 65:550-562.
4. Andrews-Hanna JR, Smallwood J, Spreng RN. 2014. The default network and self-generated thought: component processes, dynamic control, and clinical relevance. Ann NY Acad Sci 1316:29-52.
5. D'Argembeau A, Cassol H, Phillips C, Balteau E, Salmon E, Van der Linden M. 2014. Brains creating stories of selves: the neural basis of autobiographical reasoning. Soc Cognit Affect Neurosci 9:646-652.
6. Bird CM, Burgess N. 2008. The hippocampus and memory: Insights from spatial processing. Nat Rev Neurosci 9:182-194.
7. Buckner RL. 2010. The role of the hippocampus in prediction and imagination. Ann Rev Psychol 61:27-48, C1-C8.
8. Buckner RL. 2012. The serendipitous discovery of the brain's default network. NeuroImage 62:1137-1145.
9. Buckner RL, Andrews-Hanna JR, Schacter DL. 2008. The brain's default network: Anatomy, function, and relevance to disease. Ann NY Acad Sci 1124:1-38.
10. Buckner RL, Carroll DC. 2007. Self-projection and the brain. Trends Cognit Sci 11: 49-57.
11. Cabeza R, Moscovitch M. 2013. Memory systems, processing modes, and components: Functional neuroimaging evidence. Perspect Psychol Sci 8:49-55.
12. Campbell KL, Grigg O, Saverino C, Churchill N, Grady CL. 2013. Age differences in the intrinsic functional connectivity of default network subsystems. Front Aging Neurosci 5:1-12.
13. Cohen NJ, Ryan J, Hunt C, Romine L, Wszalek T, Nash C. 1999. Hippocampal system and declarative (relational) memory: summarizing the data from functional neuroimaging studies. Hippocampus 9:83-98.
14. Eichenbaum H, Cohen NJ. 2001. From Conditioning to Conscious Recollection: Memory Systems of the Brain. USA: Oxford University Press.
15. Evensmoen H, Lehn H, Xu J, Witter MP, Nadel L, Haberg AK. 2013. The anterior hippocampus supports a coarse, global environmental representation and the posterior hippocampus supports fine-grained, local environmental. J Cognit Neurosci 25:1908-1925.
16. Fox MD, Snyder AZ, Vincent JL, Corbetta M, Van Essen DC, Raichle ME. 2005. The human brain is intrinsically organized into dynamic, anticorrelated functional networks. Proc Natl Acad Sci USA 102:9673-9678.
17. Gerlach KD, Spreng RN, Gilmore AW, Schacter DL. 2011. Solving future problems: Default network and executive activity associated with goal-directed mental simulations. NeuroImage 55:1816-1824.
18. Greicius MD, Supekar K, Menon V, Dougherty RF. 2009. Resting-state functional connectivity reflects structural connectivity in the default mode network. Cereb Cortex 19:72-78.
19. Grigg O, Grady CL. 2010a. The default network and processing of personally relevant information: converging evidence from task-related modulations and functional connectivity. Neuropsychologia 48:3815-3823.
20. Grigg O, Grady CL. 2010b. Task-related effects on the temporal and spatial dynamics of resting-state functional connectivity in the default network. PloS One 5:e13311.
21. Hannula DE, Ranganath C. 2008. Medial temporal lobe activity predicts successful relational memory binding. J Neurosci 28:116-124.
22. Hassabis D, Maguire EA. 2007. Deconstructing episodic memory with construction. Trends Cognit Sci 11:299-306.
23. Hassabis D, Maguire EA. 2009. The construction system of the brain. Philos Trans R Soc Lond Ser B Biol Sci 364:1263-1271.
24. Hayes SM, Salat DH, Verfaellie M. 2012. Default network connectivity in medial temporal lobe amnesia. J Neurosci 32:14622-14629.
25. Hirshhorn M, Grady C, Rosenbaum RS, Winocur G, Moscovitch M. 2012. Brain regions involved in the retrieval of spatial and episodic details associated with a familiar environment: An fMRI study. Neuropsychologia 50:3094-3106.
26. Hoscheidt SM, Nadel L, Payne J, Ryan L. 2010. Hippocampal activation during retrieval of spatial context from episodic and semantic memory. Behav Brain Res 212:121-132.
27. Huijbers W, Pennartz CMA, Cabeza R, Daselaar SM. 2011. The hippocampus is coupled with the default network during memory retrieval but not during memory encoding. PloS One 6:e17463.
28. Kim H. 2012. A dual-subsystem model of the brain's default network: self-referential processing, memory retrieval processes, and autobiographical memory retrieval. NeuroImage 61:966-977.
29. Kumaran D, Maguire EA. 2005. The human hippocampus: cognitive maps or relational memory? J Neurosci 25:7254-7259.
30. Maguire EA, Mullally SL. 2013. The hippocampus: a manifesto for change. J Exp Psychol 142:1180-1189.
31. McCormick C, St-Laurent M, Ty A, Valiante TA, McAndrews MP. 2013. Functional and effective hippocampal-neocortical connectivity during construction and elaboration of autobiographical memory retrieval. Cerebral cortex [Epub ahead of print].
32. McIntosh AR, Bookstein FL, Haxby JV, Grady CL. 1996. Spatial pattern analysis of functional brain images using partial least squares. NeuroImage 3:143-157.
33. McIntosh AR, Chau WK, Protzner AB. 2004. Spatiotemporal analysis of event-related fMRI data using partial least squares. NeuroImage 23:764-775.
34. Moscovitch M. 1992. Memory and working-with-memory: A component process model based on modules and central systems. J Cognit Neurosci 4:257-267.
35. Mullally SL, Maguire EA. 2014. Memory, imagination, and predicting the future: A common brain mechanism? Neuroscientist 20:220-234.
36. Nadel L, Hoscheidt S, Ryan LR. 2013. Spatial cognition and the hippocampus: the anterior-posterior axis. J Cognit Neurosci 25:22-28.
37. Nadel L, Peterson MA. 2013. The hippocampus: part of an interactive posterior representational system spanning perceptual and memorial systems. J Exp Psychol Gen 142:1242-1254.
38. Nyberg L, Mclntosh A, Houle S, Nilsson L, Tulving E. 1996. Activation of medial temporal structures during episodic memory retrieval. Nature 380:715-717.
39. O'Keefe J, Nadel L. 1978. The Hippocampus as a Cognitive Map. Oxford: Oxford University Press. pp 570.
40. Olsen RK, Moses SN, Riggs L, Ryan JD. 2012. The hippocampus supports multiple cognitive processes through relational binding and comparison. Front Hum Neurosci 6:1-13.
41. Poppenk J, Evensmoen HR, Moscovitch M, Nadel L. 2013. Long-axis specialization of the human hippocampus. Trends Cognit Sci 17:230-240.
42. Rabin JS, Gilboa A, Stuss DT, Mar RA, Rosenbaum RS. 2010. Common and unique neural correlates of autobiographical memory and theory of mind. J Cognit Neurosci 22:1095-1111.
43. Raichle M, MacLeod A. 2001. A default mode of brain function. Proc Natl Acad Sci USA 98:676-682.
44. Rosenbaum RS, Gilboa A, Levine B, Winocur G, Moscovitch M. 2009. Amnesia as an impairment of detail generation and binding: Evidence from personal, fictional, and semantic narratives in K.C. Neuropsychologia 47:2181-2187.
45. Rosenbaum RS, Ziegler M, Winocur G, Grady CL, Moscovitch M. 2004. "I have often walked down this street before": fMRI studies on the hippocampus and other structures during mental navigation of an old environment. Hippocampus 14:826-835.
46. Ryan L, Lin C-Y, Ketcham K, Nadel L. 2010. The role of medial temporal lobe in retrieving spatial and nonspatial relations from episodic and semantic memory. Hippocampus 20:11-18.
47. Scoville W, Milner B. 1957. Loss of recent memory after bilateral hippocampal lesions. J Neurol Neurosurg Psychiatry 20:11-21.
48. Sheldon S, Levine B. 2013. Same as it ever was: Vividness modulates the similarities and differences between the neural networks that support retrieving remote and recent autobiographical memories. NeuroImage 83:880-891.
49. Shulman G, Fiez J, Corbetta M. 1997. Common blood flow changes across visual tasks: II. Decreases in cerebral cortex. J Cognit Neurosci 9:648-663.
50. Spreng RN, Grady CL. 2010. Patterns of brain activity supporting autobiographical memory, prospection, and theory of mind, and their relationship to the default mode network. J Cognit Neurosci 22:1112-1123.
51. Spreng RN, Mar RA, Kim ASN. 2009. The common neural basis of autobiographical memory, prospection, navigation, theory of mind, and the default mode: A quantitative meta-analysis. J Cognit Neurosci 21:489-510.
52. Spreng RN, Sepulcre J, Turner GR, Stevens WD, Schacter DL. 2012. Intrinsic architecture underlying the relations among the default, dorsal attention, and fronto-parietal control networks of the human brain. J Cognit Neurosci 25:74-86.
53. Spreng RN, Stevens WD, Chamberlain JP, Gilmore AW, Schacter DL. 2010. Default network activity, coupled with the frontoparietal control network, supports goal-directed cognition. NeuroImage 53:303-317.
54. St Jacques PL, Kragel PA, Rubin DC. 2011. Dynamic neural networks supporting memory retrieval. NeuroImage 57:608-616.
55. Yarkoni T, Poldrack R, Nichols T. 2011. Large-scale automated synthesis of human functional neuroimaging data. Nature Methods 8:665-670.
56. Yeo BTT, Krienen FM, Sepulcre J, Sabuncu MR, Lashkari D, Hollinshead M, Buckner RL. 2011. The organization of the human cerebral cortex estimated by intrinsic functional connectivity. J Neurophysiol 106:1125-1165.