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Symptomatic remission and neurocognitive functioning in patients with schizophrenia

Published online by Cambridge University Press:  22 March 2011

A. Hofer ,
T. Bodner ,
A. Kaufmann ,
G. Kemmler ,
U. Mattarei ,
N. M. Pfaffenberger ,
M. A. Rettenbacher ,
E. Trebo ,
N. Yalcin  and
W. W. Fleischhacker
A. Hofer*
Affiliation:
Medical University Innsbruck, Department of Psychiatry and Psychotherapy, Biological Psychiatry Division, Innsbruck, Austria
T. Bodner
Affiliation:
Medical University Innsbruck, Department of Neurology, Innsbruck, Austria
A. Kaufmann
Affiliation:
Medical University Innsbruck, Department of Psychiatry and Psychotherapy, Biological Psychiatry Division, Innsbruck, Austria
G. Kemmler
Affiliation:
Medical University Innsbruck, Department of Psychiatry and Psychotherapy, General and Social Psychiatry Division, Innsbruck, Austria
U. Mattarei
Affiliation:
Medical University Innsbruck, Department of Psychiatry and Psychotherapy, Biological Psychiatry Division, Innsbruck, Austria
N. M. Pfaffenberger
Affiliation:
Medical University Innsbruck, Department of Psychiatry and Psychotherapy, General and Social Psychiatry Division, Innsbruck, Austria
M. A. Rettenbacher
Affiliation:
Medical University Innsbruck, Department of Psychiatry and Psychotherapy, Biological Psychiatry Division, Innsbruck, Austria
E. Trebo
Affiliation:
Medical University Innsbruck, Department of Psychiatry and Psychotherapy, General and Social Psychiatry Division, Innsbruck, Austria
N. Yalcin
Affiliation:
Medical University Innsbruck, Department of Psychiatry and Psychotherapy, Biological Psychiatry Division, Innsbruck, Austria
W. W. Fleischhacker
Affiliation:
Medical University Innsbruck, Department of Psychiatry and Psychotherapy, Biological Psychiatry Division, Innsbruck, Austria
*
*Address for correspondence: A. Hofer, M.D., Medical University Innsbruck, Department of Psychiatry and Psychotherapy, Anichstrasse 35, A-6020 Innsbruck, Austria. (Email: [email protected])
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Abstract

Background

A cross-sectional study was conducted in participants with schizophrenia to explore a potential association between the patients' remission status and neurocognitive functioning and to examine whether these factors have an impact on functional outcome.

Method

Psychopathological symptoms were rated by means of the Positive and Negative Syndrome Scale with symptom remission being assessed by applying the severity component of the recently proposed remission criteria. Tests for the cognitive battery were selected to cover domains known to be impaired in patients with schizophrenia. Next to pre-morbid intelligence, attention performance, executive functioning, verbal fluency, verbal learning and memory, working memory and visual memory were assessed. The joint effect of remission status and neurocognitive functioning on treatment outcome was investigated by logistic regression analysis.

Results

Out of 140 patients included in the study, 62 were symptomatically remitted. Mean age, education and sex distribution were comparable in remitted and non-remitted patients. Remitted patients showed significantly higher values on tests of verbal fluency, alertness and optical vigilance. Both symptomatic remission as well as performance on tests of working memory and verbal memory had a significant effect on the patients' employment status.

Conclusions

In the present study neuropsychological measures of frontal lobe functioning were associated with symptomatic remission from schizophrenia. In addition, both symptomatic remission and performance on tests of working memory and verbal memory had a significant effect on the patients' employment status. Longitudinal follow-up data are needed to determine how the associations of these determinants of functional outcome interact and change over time.

Keywords

Neurocognitionremissionschizophrenia
Type
Original Articles
Information
Psychological Medicine , Volume 41 , Issue 10 , October 2011 , pp. 2131 - 2139
Copyright
Copyright © Cambridge University Press 2011

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References

Andreasen, NC, Carpenter, WT Jr., Kane, JM, Lasser, RA, Marder, SR, Weinberger, DR (2005). Remission in schizophrenia: proposed criteria and rationale for consensus. American Journal of Psychiatry 162, 441449.CrossRefGoogle ScholarPubMed
Aschenberger, S, Tucher, O, Lange, KW (2000). Regensburger Wörtflüssigkeits-Test. Hogrefe Verlag für Psychologie: Göttingen.Google Scholar
Benton, AS, Spreen, O (1996). Der Benton Test. Handbuch: 7. Auflage. Huber: Bern.Google Scholar
Bond, GR, Drake, RE (2008). Predictors of competitive employment among patients with schizophrenia. Current Opinion in Psychiatry 21, 362369.Google Scholar
Bryson, G, Bell, MD (2003). Initial and final work performance in schizophrenia: cognitive and symptom predictors. Journal of Nervous and Mental Disease 191, 8792.Google Scholar
Buckley, PF, Harvey, PD, Bowie, CR, Loebel, A (2007). The relationship between symptomatic remission and neuropsychological improvement in schizophrenia patients switched to treatment with ziprasidone. Schizophrenia Research 94, 99–106.Google Scholar
Catty, J, Lissouba, P, White, S, Becker, T, Drake, R, Fiorty, A, Knapp, M, Lauber, C, Rössler, W, Tomov, T, van Busschbach, J, Wiersma, D, Burns, T (2008). Predictors of employment for people with severe mental illness: results of an international six-centre randomised controlled trial. British Journal of Psychiatry 192, 224231.Google Scholar
Cervellione, KL, Burdick, KE, Cottone, JG, Rhinewine, JP, Kumra, S (2007). Neurocognitive deficits in adolescents with schizophrenia: longitudinal stability and predictive utility for short-term functional outcome. Journal of the American Academy of Child and Adolescent Psychiatry 46, 867878.CrossRefGoogle ScholarPubMed
Ciudad, A, Álvarez, E, Bobes, J, San, L, Polavieja, P, Gilaberte, I (2009). Remission in schizophrenia: results from a 1-year follow-up observational study. Schizophrenia Research 108, 214222.Google Scholar
Davidson, M, Galderisi, S, Weiser, M, Werbeloff, N, Fleischhacker, WW, Keefe, RS, Boter, H, Keet, IP, Prelipceanu, D, Rybakowski, JK, Libiger, J, Hummer, M, Dollfus, S, López-Ibor, JJ, Hranov, LG, Gaebel, W, Peuskens, J, Lindefors, N, Riecher-Rössler, A, Kahn, RS (2009). Cognitive effects of antipsychotic drugs in first-episode schizophrenia and schizophreniform disorder: a randomized, open-label clinical trial (EUFEST). American Journal of Psychiatry 166, 675682.CrossRefGoogle ScholarPubMed
Delis, DC, Kramer, JH, Kaplan, E, Ober, BA (1987). California Verbal Learning and Memory Test (Manual). Psychological Corporation: San Antonio, TX.Google Scholar
Fleischhacker, WW, Hummer, M, Hofer, A (2008). Schizophrene Störungen. In Handbuch der Psychopharmakotherapie(ed. Holsboer, F., Gründer, G. and Benkert, O.), pp. 847872. Springer-Verlag: Heidelberg.CrossRefGoogle Scholar
Fujii, DE, Wylie, AM (2003). Neurocognition and community outcome in schizophrenia: long-term predictive validity. Schizophrenia Research 59, 219223.Google Scholar
Gold, JM, Goldberg, RW, McNary, SW, Dixon, LB, Lehman, AF (2002). Cognitive correlates of job tenure among patients with severe mental illness. American Journal of Psychiatry 159, 13951402.CrossRefGoogle ScholarPubMed
Green, MF, Kern, RS, Braff, DL, Mintz, J (2000). Neurocognitive deficits and functional outcome in schizophrenia: are we measuring the “right stuff”? Schizophrenia Bulletin 26, 119136.Google Scholar
Harvey, PD, Green, MF, Keefe, RSE, Velligan, DI (2004). Cognitive functioning in schizophrenia: a consensus statement on its role in the definition and evaluation of effective treatments for the illness. Journal of Clinical Psychiatry 5, 361372.Google Scholar
Heaton, RK, Chelune, GJ, Taley, JL, Kay, GG, Curtiss, G (1993). Wisconsin Card Sorting Test Manual: Revised and Expanded. Psychological Assessment Resources: Odessa, FL.Google Scholar
Helldin, L, Kane, JM, Karilampi, U, Norlander, T, Archer, T (2006). Remission and cognitive ability in a cohort of patients with schizophrenia. Psychiatry Research 40, 738745.CrossRefGoogle Scholar
Hofer, A, Baumgartner, S, Bodner, T, Edlinger, M, Hummer, M, Kemmler, G, Rettenbacher, MA, Fleischhacker, WW (2005). Patient outcomes in schizophrenia II: the impact of cognition. European Journal of Psychiatry 20, 395402.Google Scholar
Jarboe, KS, Schwartz, SK (1999). The relationship between medication noncompliance and cognitive function in patients with schizophrenia. Journal of the American Nurses' Association 5, S2S8.Google Scholar
Kaneda, Y, Jayathilak, H, Meltzer, H (2010). Determinants of work outcome in neuroleptic-resistant schizophrenia and schizoaffective disorder: cognitive impairment and clozapine treatment. Psychiatry Research 178, 5762.CrossRefGoogle ScholarPubMed
Kay, SR, Fiszbein, A, Opler, LA (1987). The Positive and Negative Syndrome Scale for schizophrenia. Schizophrenia Bulletin 13, 261276.CrossRefGoogle ScholarPubMed
Keefe, RS (2007). Cognitive deficits in patients with schizophrenia: effects and treatment. Journal of Clinical Psychiatry 68 (Suppl. 14), 8–13.Google ScholarPubMed
Keefe, RS, Bilder, RM, Davis, SM, Harvey, PD, Palmer, BW, Gold, JM, Meltzer, HY, Green, MF, Capuano, GT, Stroup, S, McEvoy, JP, Swartz, MS, Rosenheck, RA, Perkins, DO, Davis, CE, Hsiao, JK, Lieberman, JA; for the CATIE Investigators and the Neurocognitive Working Group (2007). Neurocognitive effects of antipsychotic medications in patients with chronic schizophrenia in the CATIE Trial. Archives of General Psychiatry 64, 633647.CrossRefGoogle ScholarPubMed
Keefe, RS, Bilder, RM, Harvey, PD, Davis, SM, Palmer, BW, Gold, JM, Meltzer, HY, Green, MF, Miller, DD, Canive, JM, Adler, LW, Manschreck, TC, Swartz, M, Rosenheck, R, Perkins, DO, Walker, TM, Stroup, TS, McEvoy, JP, Lieberman, JA (2006). Baseline neurocognitive deficits in the CATIE Schizophrenia Trial. Neuropsychopharmacology 31, 20332046.Google Scholar
Kern, RS, Green, MF, Satz, P (1992). Neuropsychological predictors of skills training for chronic psychiatric patients. Psychiatry Research 43, 223230.CrossRefGoogle ScholarPubMed
Kopelowicz, A, Liberman, RP, Ventura, J, Zarate, R, Mintz, J (2005). Neurocognitive correlates of recovery from schizophrenia. Psychological Medicine 35, 11651173.Google Scholar
Lehrl, S (1977). Manual zum Mehrfachwahl-Wortschatz-Test-B (Multiple Choice Word Knowledge Test). Straube: Erlangen.Google Scholar
Leucht, S, Komossa, K, Rummel-Kluge, C, Corves, C, Hunger, H, Schmid, F, Asenjo Lobos, C, Schwarz, S, Davis, JM (2009). A meta-analysis of head-to-head comparisons of second-generation antipsychotics in the treatment of schizophrenia. American Journal of Psychiatry 166, 152163.Google Scholar
McClure, MM, Bowie, CR, Patterson, TL, Heaton, RK, Weaver, C, Anderson, H, Harvey, PD (2007). Correlations of functional capacity and neuropsychological performance in older patients with schizophrenia: evidence for specificity of relationships? Schizophrenia Research 89, 330338.CrossRefGoogle ScholarPubMed
Nelson, HE (1992). National Adult Reading Test (NART). NFER-Nelson: Windsor, UK.Google Scholar
Norman, R, Malla, AK, Cortese, L, Cheng, S, Diaz, K, McIntosh, E, McLean, TS, Rickwood, A, Voruganti, LP (1999). Symptoms and cognition as predictors of community functioning: a prospective analysis. American Journal of Psychiatry 156, 400405.Google Scholar
Palmer, BW, Dawes, SE, Heaton, RK (2009). What do we know about neuropsychological aspects of schizophrenia? Neuropsychological Review 19, 365384.CrossRefGoogle ScholarPubMed
Rempfer, MV, Hamera, EK, Brown, CE, Cromwell, RL (2003). The relations between cognition and the independent living skill of shopping in people with schizophrenia. Psychiatry Research 117, 103112.Google Scholar
van Os, J, Burns, T, Cavallaro, R, Leucht, S, Peuskens, J, Helldin, L, Bernardo, M, Arango, C, Fleischhacker, WW, Lachaux, B, Kane, JM (2006). Standardized remission criteria in schizophrenia. Acta Psychiatrica Scandinavica 113, 9195.Google Scholar
Velligan, DI, Bow-Thomas, CC, Mahurin, RK, Miller, AL, Halgunseth, LC (2000). Do specific neurocognitive deficits predict specific domains of community function in schizophrenia? Journal of Nervous and Mental Disease 188, 518524.CrossRefGoogle ScholarPubMed
Velligan, DI, Mahurin, RK, Diamond, PL, Hazleton, BC, Eckert, SL, Miller, AL (1997). The functional significance of symptomatology and cognitive function in schizophrenia. Schizophrenia Research 25, 2131.Google Scholar
Wegener, S, Redoblado-Hodge, MA, Lucas, S, Fitzgerald, D, Harris, A, Brennan, J (2005). Relative contributions of psychiatric symptoms and neuropsychological functioning to quality of life in first-episode psychosis. Australian and New Zealand Journal of Psychiatry 39, 487492.CrossRefGoogle ScholarPubMed
Williams, LM, Withford, TJ, Flynn, G, Wong, W, Liddell, BJ, Silverstein, S, Galletly, C, Harris, AW, Gordon, E (2008). General and social cognition in first episode schizophrenia: identification if separable factors and prediction of functional outcome using the IntegNeuro test battery. Schizophrenia Research 99, 182191.Google Scholar
Zanello, A, Perrig, L, Huguelet, P (2006). Cognitive functions related to interpersonal problem-solving skills in schizophrenic patients compared with healthy subjects. Psychiatry Research 142, 6778.Google Scholar
Zimmermann, P, Fimm, B (2002). Testbatterie zur Aufmerksamkeitsprüfung,Version 1.7 (Test Battery of Attentional Performance). Vera Fimm/Psychologische Testsysteme: Herzogenrath.Google Scholar