BACKGROUND: We used an event-related functional Magnetic Resonance Imaging (fMRI) approach to examine the neural basis of the selective associative memory deficit in schizophrenia. METHODS: Fifteen people with schizophrenia and 18 controls were scanned during a pair and item memory encoding and recognition task. During encoding, subjects studied items and pairs of visual objects. In a subsequent retrieval task, participants performed an item recognition memory test (old/new decisions) and an associative recognition test (intact/rearranged decisions). The fMRI analysis of the recognition data was restricted to correct items only and a random effects model was used. RESULTS: At the behavioral level, both groups performed equally well on item recognition, whereas people with schizophrenia demonstrated lower performance on associative recognition relative to the control group. At the brain level, the comparison between associative and item encoding revealed greater activity in the control group in the left prefrontal cortex and cingulate gyrus relative to the schizophrenia group. During recognition, greater left dorsolateral prefrontal and right inferior prefrontal activations were observed in the control group relative to the schizophrenia group. CONCLUSION: This fMRI study implicates the prefrontal cortex among other brain regions as the basis for the selective associative memory encoding and recognition deficit seen in schizophrenia.
BACKGROUND: We used an event-related functional Magnetic Resonance Imaging (fMRI) approach to examine the neural basis of the selective associative memory deficit in schizophrenia. METHODS: Fifteen people with schizophrenia and 18 controls were scanned during a pair and item memory encoding and recognition task. During encoding, subjects studied items and pairs of visual objects. In a subsequent retrieval task, participants performed an item recognition memory test (old/new decisions) and an associative recognition test (intact/rearranged decisions). The fMRI analysis of the recognition data was restricted to correct items only and a random effects model was used. RESULTS: At the behavioral level, both groups performed equally well on item recognition, whereas people with schizophrenia demonstrated lower performance on associative recognition relative to the control group. At the brain level, the comparison between associative and item encoding revealed greater activity in the control group in the left prefrontal cortex and cingulate gyrus relative to the schizophrenia group. During recognition, greater left dorsolateral prefrontal and right inferior prefrontal activations were observed in the control group relative to the schizophrenia group. CONCLUSION: This fMRI study implicates the prefrontal cortex among other brain regions as the basis for the selective associative memory encoding and recognition deficit seen in schizophrenia.
Authors: Hengyi Cao; Sarah C McEwen; Yoonho Chung; Oliver Y Chén; Carrie E Bearden; Jean Addington; Bradley Goodyear; Kristin S Cadenhead; Heline Mirzakhanian; Barbara A Cornblatt; Ricardo E Carrión; Daniel H Mathalon; Thomas H McGlashan; Diana O Perkins; Aysenil Belger; Larry J Seidman; Heidi Thermenos; Ming T Tsuang; Theo G M van Erp; Elaine F Walker; Stephan Hamann; Alan Anticevic; Scott W Woods; Tyrone D Cannon Journal: Schizophr Bull Date: 2019-06-18 Impact factor: 9.306
Authors: Deborah E Hannula; Charan Ranganath; Ian S Ramsay; Marjorie Solomon; Jong Yoon; Tara A Niendam; Cameron S Carter; John D Ragland Journal: Biol Psychiatry Date: 2010-07-31 Impact factor: 13.382
Authors: Kristen M Haut; Theo G M van Erp; Barbara Knowlton; Carrie E Bearden; Kenneth Subotnik; Joseph Ventura; Keith H Nuechterlein; Tyrone D Cannon Journal: Clin Psychol Sci Date: 2015-03
Authors: John D Ragland; Charan Ranganath; Deanna M Barch; James M Gold; Brittaney Haley; Angus W MacDonald; Steven M Silverstein; Milton E Strauss; Andrew P Yonelinas; Cameron S Carter Journal: Schizophr Bull Date: 2011-11-28 Impact factor: 9.306
Authors: Robert E McCullumsmith; John H Hammond; Dan Shan; James H Meador-Woodruff Journal: Neuropsychopharmacology Date: 2013-10-04 Impact factor: 7.853
Authors: Lee Friedman; Jessica A Turner; Hal Stern; Daniel H Mathalon; Liv C Trondsen; Steven G Potkin Journal: Neuroimage Date: 2008-01-05 Impact factor: 6.556