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Letter to the Editor: Movement disorders should be a criterion for schizophrenia in DSM-V

Published online by Cambridge University Press:  17 July 2009

P. N. van HARTEN M.D., Ph.D.*
Affiliation:
Symfora Group, Utrechtseweg, Amersfoort, The Netherlands University of Groningen, Groningen, The Netherlands
D. E. TENBACK M.D., Ph.D.
Affiliation:
Symfora Group, Utrechtseweg, Amersfoort, The Netherlands University of Utrecht, Utrecht, The Netherlands
*
Author for correspondence: P. N. van Harten, M.D., Ph.D Symfora Group, Utrechtseweg 266, 3818 EW Amersfoort, The Netherlands (Email: [email protected])
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Abstract

Type
Correspondence
Copyright
Copyright © Cambridge University Press 2009

Movement disorders are common in schizophrenia. The relationship between psychosis and spontaneous movement disorders was established more than a century ago. Bleuler and Kraeplin in particular made meticulous descriptions of dyskinesia, dystonia, and parkinsonism in patients with psychosis (Bleuler, Reference Bleuler1916).

After the introduction of antipsychotics, there was a revival of interest in movement disorders, first in acute syndromes such as parkinsonism, and later in the tardive syndromes as well, particularly in tardive dyskinesia. Since most psychiatric publications about movement disorders focused on movement disorders related to antipsychotics, the DSM-IV-TR classified tardive dyskinesia and parkinsonism under medication-induced movement disorders, thereby dismissing the link between movement disorders and schizophrenia identified by the ‘founders’ of the psychiatric disease classification before the advent of antipsychotics.

Recently Papa & Dazzan (Reference Pappa and Dazzan2009), in their excellent meta-analysis, have rekindled the notion that antipsychotic-naive patients with first-episode schizophrenia display dyskinesia and parkinsonian symptoms. Their study strongly suggests that movement disorders are pathogenetically related to psychosis and schizophrenia. Our group published another meta-analysis on movement disorders in antipsychotic-naive patients, their non-ill first-degree family members, and a healthy control group. Consistent with Pappa & Dazzan's analysis, we found that dyskinesia was closely associated with schizophrenia and parkinsonism compared to healthy controls. Moreover, first-degree family members displayed more dyskinesia and parkinsonian signs than the healthy control group, a finding which corroborates that these symptoms are genetically related to schizophrenia (Koning et al. Reference Koning, Tenback, van Os, Aleman, Kahn and van Harten2008).

The relationship between schizophrenia and movement disorder is consistent. This suggests that deliberation about whether to make movement disorders a criterion in the classification of schizophrenia and consequently about whether to add them in the next edition of DSM is in order.

Criteria for psychiatric illnesses are usually selected on the basis of an adequate prevalence base rate and of inter-rater reliability. Although there is no specific DSM agreed-upon minimum base rate for inclusion as a criterion, a minimum prevalence rate of around 10% is suggested; more than 30–40% is ideal (Widiger, Reference Widiger1994). In schizophrenia, high prevalence rates are found for A criteria such as delusions and hallucinations, but not for A criteria such as formal thought disorder, catatonic behaviour, and abnormalities in affect are far less common and their prevalence may be in the same range as those reported for movement disorders in both meta-analyses (John et al. Reference John, Khanna, Thennarasu and Reddy2003; Koning et al. Reference Koning, Tenback, van Os, Aleman, Kahn and van Harten2008; Pappa & Dazzan, Reference Pappa and Dazzan2009). Furthermore, several studies, in which movement disorders were measured instrumentally, have found a higher prevalence than studies using clinical rating scales. These instrumental measurements in antipsychotic-naive patients with schizophrenia report prevalence rates of 13–20% for dyskinesia and 18–28% for parkinsonian signs, respectively, rates which approach the ideal base rate for an A criterion (Cortese et al. Reference Cortese, Caligiuri, Malla, Manchanda, Takhar and Haricharan2005)

Other than an adequate base rate, aspects such as (i) predictive value, (ii) a biological basis, or (iii) the specificity of the symptom add to the value of a criterion.

With regard to the predictive value, only in schizophrenia and possibly schizotypical personality disorder do antipsychotic-naive patients exhibit movement disorders. To our knowledge, there are no reports of movement disorders in patients with other psychiatric diseases who were naive for agents with D2 antagonistic properties. (Neurological disorders such as Huntington's, Morbus Parkinson's, and Wilson's diseases, in which dyskinetic and parkinsonian symptoms are present, must be ruled out.) Dyskinetic symptoms may also be present in older people in the general population but this should not negatively impact on their predictive value because the diagnosis of schizophrenia typically takes place in early adulthood.

The biological origin of schizophrenia and movement disorders is likely to reside in a shared dysfunction in the dopamine system. Despite the fact that schizophrenia exhibits a wide clinical variability and heterogeneous genetic architecture, dysfunction in the dopamine system seems to be the final common pathway (Howes & Kapur, Reference Howes and Kapur2009). A twin study reported that the unaffected co-twins of patients had increased caudate D2 density compared to healthy twin-pair controls, a finding that implies that D2 receptor up-regulation is related to the liability for schizophrenia (Hirvonen et al. Reference Hirvonen, van Erp, Huttunen, Aalto, Nagren, Huttunen, Lonnqvist, Kaprio, Hietala and Cannon2005). Similarly, in respective SPECT and PET studies of patients with schizophrenia receiving antipsychotic therapy, evidence indicated that a subgroup of patients with D2 receptor up-regulation may be characterized by pronounced parkinsonism, poor drug response (Schroder et al. Reference Schroder, Silvestri, Bubeck, Karr, Demisch, Scherrer, Geider and Sauer1998), and the development of tardive dyskinesia (Silvestri et al. Reference Silvestri, Seeman, Negrete, Houle, Shammi, Remington, Kapur, Zipursky, Wilson, Christensen and Seeman2000)

Another factor that supports the inclusion of movement disorders in antipsychotic-naive patients with schizophrenia as an A criterion for schizophrenia is that it is highly specific. All other DSM criteria of schizophrenia are non-specific and non-pathognomonic, i.e. many symptoms are also prevalent in affective disorders.

A more practical advantage for including movement disorders as an A criterion is the ease with which dyskinesia and parkinsonian signs are assessed: no interview or extensive testing is required, merely a short physical examination. Furthermore, if instrumental measurement is used, inter-rater reliability is excellent without the necessity of extensive training (Cortese et al. Reference Cortese, Caligiuri, Malla, Manchanda, Takhar and Haricharan2005)

In conclusion, the sufficient base rate and the reliability, especially with instrumental measurements, combined with its predictive value and specificity, all suggest that movement disorders, should be an A criterion for schizophrenia.

Declaration of Interest

None.

The authors reply

Spontaneous abnormal movements are part of a neurodysfunction intrinsic to the pathogenesis of schizophrenia (Pappa & Dazzan, Reference Pappa and Dazzan2009). In their letter, Van Harten and Tenback suggest that spontaneous movement disorders should be included as a criterion (A) for the diagnosis of schizophrenia in the next edition of DSM, on the basis of their adequate prevalence, reliability, predictive value and specificity. Indeed, movement disorders have been extensively documented in schizophrenia, and a proportion of abnormal movements, such as spontaneous dyskinesia and parkinsonism, are evident even before exposure to antipsychotic treatment (Torrey, Reference Torrey2002). Moreover, the prevalence of spontaneous dyskinesia and parkinsonism when measured electromechanically is even higher than that based on qualitative clinical, observer-based evaluations (Caligiuri et al. Reference Caligiuri, Lohr and Jeste1993; Cortese et al. Reference Cortese, Caligiuri, Malla, Manchanda, Takhar and Haricharan2005). Finally, as suggested by Van Harten and Tenback, such motor abnormalities seem to be specific to schizophrenia. This body of evidence would suggest that spontaneous movement disorders may be intrinsic to the pathophysiology of schizophrenia and that antipsychotic medication may be acting by modifying the expression of disease-based motor dysfunctions (Pappa & Dazzan, Reference Pappa and Dazzan2009). On this basis, we would concur with the principles underpinning Van Harten and Tenback's proposal that movement disorders should be considered among criteria A for the diagnosis of schizophrenia. There are, however, factors that could potentially compromise the use of spontaneous movement disorders as a diagnostic criterion for schizophrenia in routine clinical practice. One of the main factors is that, to be of diagnostic utility, the evaluation should occur in antipsychotic-naive patients. However, in practice the majority of patients with psychotic symptoms presenting to health services is exposed to antipsychotic medication even at the very early illness stages, and this would significantly limit the application of movement disorders as a diagnostic criterion. Moreover, this patient group is frequently treated for a mood disorder before a diagnosis of schizophrenia or another psychosis is made. Drugs such as lithium, SSRIs and other antidepressants, can contribute to the development of parkinsonism and dyskinesia, thus confounding the clinical picture (Leo, Reference Leo1996; Jiménez-Jiménez et al. Reference Jiménez-Jiménez, García-Ruiz and Molina1997; Konitsiotis et al. Reference Konitsiotis, Pappa, Mantas and Mavreas2005). Another potential limitation is that rates of spontaneous dyskinesia and parkinsonism are relatively low in patients with first-episode psychosis. Our review suggests a spontaneous dyskinesia median rate of 9% and a spontaneous parkinsonism median rate of 17% in this population (Pappa & Dazzan Reference Pappa and Dazzan2009). As Van Harten and Tenback rightly suggest, studies in which movement disorders are measured instrumentally have found a higher prevalence. However, the application of automated measures in a routine clinical setting in the evaluation of spontaneous movement disorders may prove troublesome. Finally, while the clinical assessment of spontaneous movement disorders is relatively easy, and the inter-rater reliability is satisfactory, there is unfortunately a lack of consensus around definitions of movement disorders, around the most appropriate scales, or around the operational criteria. So far, a variety of instruments have been used to evaluate abnormal movements and different threshold criteria for case definition applied across studies, often making the evaluation and interpretation of findings difficult. More work would need to be done in this area to achieve a consensus, if movement disorders were to be included as a diagnostic criterion.

The presence of spontaneous and drug-induced movement disorders in patients with schizophrenia constitutes a complex and heterogeneous phenomenon. The inclusion of spontaneous movement disorders as a criterion A in schizophrenia is conceptually valid, but the reasons outlined above suggest it might be impractical in clinical practice and/or pragmatically limited to a minority of patients. Nevertheless, the evaluation and physical examination of spontaneous movement disorders should form an integral part of the clinical assessment of patients with psychosis and schizophrenia as it provides valuable information for the diagnostic formulation, enhances our understanding of the pathogenesis of the illness and its clinical presentation, and may well have significant treatment implications.

Declaration of Interest

None.

References

Bleuler, E (1916). Lehrbuch der Psychiatrie. Julius Springer: Berlin.Google Scholar
Cortese, L, Caligiuri, MP, Malla, AK, Manchanda, R, Takhar, J, Haricharan, R (2005). Relationship of neuromotor disturbances to psychosis symptoms in first-episode neuroleptic-naive schizophrenia patients. Schizophrenia Research 75, 6575.CrossRefGoogle ScholarPubMed
Hirvonen, J, van Erp, TG, Huttunen, J, Aalto, S, Nagren, K, Huttunen, M, Lonnqvist, J, Kaprio, J, Hietala, J, Cannon, TD (2005). Increased caudate dopamine D2 receptor availability as a genetic marker for schizophrenia. Archives of General Psychiatry 62, 371378.CrossRefGoogle ScholarPubMed
Howes, OD, Kapur, S (2009). The dopamine hypothesis of schizophrenia: version III – the final common pathway. Schizophrenia Bulletin 35, 549562.CrossRefGoogle ScholarPubMed
John, JP, Khanna, S, Thennarasu, K, Reddy, S (2003). Exploration of dimensions of psychopathology in neuroleptic-naive patients with recent-onset schizophrenia/schizophreniform disorder. Psychiatry Research 121, 1120.CrossRefGoogle ScholarPubMed
Koning, JP, Tenback, DE, van Os, J, Aleman, A, Kahn, RS, van Harten, PN (2008). Dyskinesia and parkinsonism in antipsychotic-naive patients with schizophrenia, first-degree relatives and healthy controls: a meta-analysis. Schizophrenia Bulletin. Published online: 5 November 2008. doi:10.1093/schbul/sbn146.Google ScholarPubMed
Pappa, S, Dazzan, P (2009). Spontaneous movement disorders in antipsychotic-naive patients with first-episode psychoses: a systematic review. Psychological Medicine 39, 10651076.CrossRefGoogle ScholarPubMed
Schroder, J, Silvestri, S, Bubeck, B, Karr, M, Demisch, S, Scherrer, S, Geider, FJ, Sauer, H (1998). D2 dopamine receptor up-regulation, treatment response, neurological soft signs, and extrapyramidal side effects in schizophrenia: a follow-up study with 123I-iodobenzamide single photon emission computed tomography in the drug-naive state and after neuroleptic treatment. Biological Psychiatry 43, 660665.CrossRefGoogle ScholarPubMed
Silvestri, S, Seeman, MV, Negrete, JC, Houle, S, Shammi, CM, Remington, GJ, Kapur, S, Zipursky, RB, Wilson, AA, Christensen, BK, Seeman, P (2000). Increased dopamine D2 receptor binding after long-term treatment with antipsychotics in humans: a clinical PET study. Psychopharmacology (Berlin) 152, 174180.CrossRefGoogle ScholarPubMed
Widiger, TA (1994). DSM-IV Sourcebook. American Psychiatric Association: Washington, DC.Google Scholar