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Published Online: 1 October 2010

Linkage of Cognitive Impairments With Metabolic Disorders in Schizophrenia

Over the past 20 years, two major challenges have emerged in the treatment of schizophrenia and have become the focus of considerable research. The first is the severe cognitive dysfunction across several domains (1,2), especially short-term memory and executive function, ranging between one and two standard deviations below the general population mean. Cognitive decline is observed over several years prior to the onset of psychotic symptoms, and the cognitive deficits of schizophrenia are now regarded by most researchers as the primary reason for the functional disability that is widely seen even after the successful treatment and abatement of psychotic symptoms. Kraepelin's term “dementia praecox” (3) a century ago for what Bleuler later renamed “schizophrenia” reflects the prominence of cognitive deficits observed in young people who are afflicted with this brain disorder.
The second issue that has come to the forefront for both clinicians and researchers is the metabolic dysregulation associated with schizophrenia (4) before and after pharmacotherapy, including weight gain, hypertension, hyperglycemia, and dyslipidemia. Those disorders cluster together under the term “metabolic syndrome,” which has been reported in about 43% of persons with chronic schizophrenia in the Clinical Antipsychotic Trials of Intervention Effectiveness (CATIE) study (5). Not only do such metabolic disorders significantly increase cardiovascular risk and lead to early mortality (6), but they frequently remain untreated in large proportions of persons with schizophrenia (7). This double jeopardy for persons with schizophrenia is a serious health care disparity that requires urgent attention, especially in the public sector.
The article by Friedman et al. in this issue (8) reports an important association between two metabolic parameters (high body mass index [BMI] and hypertension) and a key cognitive deficit (memory) in schizophrenia. The authors' findings, if replicated, could have important implications for understanding and ameliorating the memory deficits in schizophrenia and perhaps enhancing the outcomes of cognitive and vocational rehabilitation. Previous studies have reported an association between dementia and cardiovascular risk factors, which include obesity and hypertension, but such findings were based on general population investigations, not on schizophrenia samples. Thus, the findings of Friedman et al. imply that the two worst outcomes in schizophrenia—high functional disability (attributed to cognitive impairment) and high cardiovascular mortality (associated with obesity and hypertension)—may be linked.
Researchers are feverishly pursuing pharmacological treatments for cognitive dysfunction in schizophrenia (2). Several mechanisms are being targeted, such as α7 nicotinic receptor agonists, dopamine D1 receptor agonists, AMPA glutamatergic receptor agonists, α2-adrenergic agonists, N-methyl-d-aspartate glutamatergic receptors, γ-aminobutyric acid receptor agonists, and others (9). Most researchers assume that cognitive deficits are part of the genetic etiology of schizophrenia, as evidenced by their presence in first-degree relatives (10). However, nongenetic (secondary) factors in cognitive impairments have been attributed to lifestyle factors (isolation and lack of stimulation), antipsychotic treatment factors (excessive dopamine receptor blockade), and the use of anticholinergic medications to mitigate iatrogenic movement disorders, such as parkinsonism and dyskinesia (11). Similarly, metabolic disorders in schizophrenia have been attributed to genetic factors, which could explain the higher visceral adiposity and glucose dysregulation at the onset of psychosis in drug-naive schizophrenia patients, which may later worsen due to lifestyle factors (sedentary living, high caloric intake) and antipsychotic drug side effects (increased appetite and loss of satiety). The bottom line, however, is that regardless of etiology, interventions to reduce obesity and hypertension (diet, exercise, and cognitive remediation and/or antihypertensive medication) may have a salutary effect on both cognitive deficits and metabolic disorders and may reduce the dual grave outcomes of functional disability and cardiovascular risk.
It is possible to speculate that other preventable health risk factors contribute to other cognitive deficits in schizophrenia, and the study by Friedman et al. should inspire researchers to think outside the traditional box of finding a drug to improve memory dys-function in schizophrenia and instead examine other lifestyle and health factors that may exacerbate other cognitive deficits (such as executive function), the prevention or mitigation of which may lessen the severity of cognitive deficits and their functional impact.
The following are some possible implications of the finding that higher BMI and blood pressure may significantly compromise cognitive performance in schizophrenia:
•. 
Future studies of cognitive function in schizophrenia must covary for BMI and hypertension. The data from a CATIE study (12) that did not find cognitive differences between schizophrenia with and without metabolic syndrome (in which the author participated) should be reanalyzed across patients with and without hypertension, not across patients who meet any three of five metabolic risk criteria
•. 
Cognitive studies in parents of persons with schizophrenia should also control for vascular status, including BMI and blood pressure
•. 
Patients with bipolar disorder and major depression have been shown to have cognitive dysfunction but are also frequently afflicted with metabolic health problems. Studies similar to that of Friedman et al. should be conducted in patients with those disorders
•. 
Discovering and preventing secondary causes of cognitive dysfunction in schizophrenia should become an important research goal with applications in clinical practice
•. 
Patients with chronic schizophrenia must routinely receive primary health care. The health disparities in this population may contribute not only to early mortality but to poor cognition and inability to return to school or hold a job
•. 
Drug trials of experimental agents currently being tested for improving memory in schizophrenia should control for BMI and blood pressure, just as they control for the use of anticholinergic drugs
•. 
Research should be conducted on whether some antihypertensive drugs are more likely than others to be associated with cognitive improvement given the same degree of blood pressure control. Differences between drugs might shed some light on the possible underlying mechanisms
•. 
The cognitive impact of other metabolic disorders, such as hyperglycemia and hyper-lipidemia, should be investigated individually
•. 
Avoiding serious weight gain should become a primary objective in the management of schizophrenia from the outset of diagnosis and treatment. The finding that being overweight, not obese, is linked to memory deficit underscores the importance of weight control to prevent additional cognitive compromise in schizophrenia.

Footnotes

Editorial accepted for publication June 2010
Dr. Nasrallah has received research support from or served in a speaking or consulting capacity for AstraZeneca, Forest, Janssen, Merck, Novartis, Otsuka, Pfizer, Roche, Sanofi, and Shire. Dr. Freedman has reviewed this editorial and found no evidence of influence from these relationships

References

1.
Freedman R: Schizophrenia. N Engl J Med 2003; 349:1738–1749
2.
Green MF: Stimulating the development of drug treatments to improve cognition in schizophrenia. Annu Rev Clin Psychol 2007; 3:159–180
3.
Kraepelin E: Dementia Praecox and Paraphrenia (1919). Translated by, Barclay RM; edited by, Robertson M. New York, Robert E Krieger, 1971
4.
Meyer JM, Nasrallah HA: Medical Illness and Schizophrenia. Washington, DC, American Psychiatric Publishing, Inc, 2009
5.
McEvoy JP, Meyer JM, Goff DC, Nasrallah HA, Davis SM, Sullivan L, Meltzer HY, Hsiao J, Stroup TS, Lieberman JA: Prevalence of the metabolic syndrome in patients with schizophrenia: baseline results from the Clinical Antipsychotic Trials of Intervention Effectiveness (CATIE) schizophrenia trial and comparisons with national estimates from NHANES III. Schizophr Res 2005; 80:19–32
6.
Coulton CW, Manderscheid RW: Congruencies in increased mortality rates, years of potential life lost, and causes of death among public mental health clients in eight states. Prev Chronic Dis 2006; 31:1–4
7.
Nasrallah HA, Meyer JM, Goff DC, McEvoy JP, Davis SM, Stroup TS, Lieberman JA: Low rates of treatment for hypertension, dyslipidemia, and diabetes in schizophrenia: data from the CATIE schizophrenia trial sample at baseline. Schizophr Res 2006; 86:15–22
8.
Friedman JI, Wallenstein S, Moshier E, Parrella M, White L, Bowler S, Gottlieb S, Harvey PD, McGinn TG, Flanagan L, Davis KL: The effects of hypertension and body mass index on cognition in schizophrenia. Am J Psychiatry 2010; 167:1232–1239
9.
Tamminga CA: The neurobiology of cognition in schizophrenia. J Clin Psychiatry 2006; 67(suppl 9):9–13
10.
Sitskoorn MM, Aleman A, Ebisch SJ, Appels MC, Kahn RS: Cognitive de-cits in relatives of patients with schizophrenia: a meta-analysis. Schizophr Res 2004; 71:285–295
11.
Vinogradov S, Fisher M, Warm H, Holland C, Kirshner MA, Pollock BG: The cognitive cost of anticholinergic burden: decreased response to cognitive training in schizophrenia. Am J Psychiatry 2009; 166:1055–1062
12.
Meyer JM, Davis VG, Goff DC, McEvoy JP, Nasrallah HA, Davis SM, Rosenheck RA, Daumit GL, Hsiao J, Swartz MS, Stroup TS, Lieberman JA: Change in metabolic syndrome with antipsychotic treatment in the CATIE schizophrenia trial: prospective data from phase 1. Schizophr Res 2008; 101:273–286

Information & Authors

Information

Published In

Go to American Journal of Psychiatry
Go to American Journal of Psychiatry
American Journal of Psychiatry
Pages: 1155 - 1157
PubMed: 20889659

History

Accepted: June 2010
Published online: 1 October 2010
Published in print: October 2010

Authors

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Henry A. Nasrallah, M.D.

Notes

Address correspondence and reprint requests to Dr. Nasrallah, Department of Psychiatry and Behavioral Neuroscience, 260 Stetson St., Suite 3224, Cincinnati, OH 45219, [email protected] (e-mail).

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