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Correspondence

Published online by Cambridge University Press:  20 July 2007

KARIN M. HENRIKSSON*
Affiliation:
Unit of Psychiatric Epidemiology, University Hospital in Lund, 221 85 Lund, Sweden
BRENDAN D. KELLY
Affiliation:
Department of Adult Psychiatry, University College Dublin, Mater Misericordiae University Hospital, DublinIreland
ABBIE LANE
Affiliation:
Department of Adult Psychiatry, University College Dublin, Dublin, Ireland
INGRID AGARTZ
Affiliation:
Institute of Psychiatry, University of Oslo, Norway Department of Neuroscience, Karolinska Institutet, Stockholm, Sweden
RAGNAR NESVÅG
Affiliation:
Department of Psychiatric Research, Diakonhjemmet Hospital, Oslo, Norway
ELIZABETH CANTOR-GRAAE
Affiliation:
Department of Social Medicine and Global Health, University Hospital, Malmö, Sweden
EADBHARD O'CALLAGHAN
Affiliation:
Department of Adult Psychiatry, University College Dublin, Dublin, Ireland
THOMAS F. McNEIL
Affiliation:
Unit of Psychiatric Epidemiology, University Hospital in Lund, 221 85 Lund, Sweden
*
Address correspondence to: Karin Henriksson, M.D., Ph.D., Unit of Psychiatric Epidemiology, University Hospital in Lund, 221 85 Lund, Sweden (Email: [email protected])
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Abstract

Type
Research Letter
Copyright
Copyright © Cambridge University Press 2007

Research Letter

Age does not explain high rates of minor physical anomalies in schizophrenia patients

In a study of healthy individuals Lloyd et al. (Reference Lloyd, Doody, Brewin, Park and Jones2003) reported higher rates of minor physical anomalies (MPA) among older (>60 years) than younger subjects. Based on these results they questioned the strong association between schizophrenia and MPA and argued that age might confound this relationship. Since Lloyd et al.'s conclusions challenge the relevance of MPA for schizophrenia, we retested the question of whether or not age is significantly related to MPA rates in subjects with or without schizophrenia in data from four independent samples in three countries. The total samples include 298 psychosis patients and 103 controls, with good representation throughout the adult age span of both sexes. The studies of Ismail et al. (Reference Ismail, Cantor-Graae and McNeil1998), Kelly et al. (Reference Kelly, Lane, Henriksson, Agartz and McNeil2005), and Lane et al. (Reference Lane, Kinsella, Murphy, Byrne, Keenan, Colgan, Cassidy, Lloyd, Doody, Brewin, Park and Jones1997) have previously shown strong associations between MPA and schizophrenia, while the Nesvåg et al. study (unpublished observations) constitutes preliminary results from ongoing research. If Lloyd et al.'s conclusions are correct and generalizable, one would predict increasing MPA rates with increasing age among both patients and controls and no difference in frequencies in MPA rates in schizophrenia versus control subjects of the same age.

Three of the four studies comprised 271 subjects who met DSM-III-R criteria for schizophrenia. The Nesvåg et al. study also included 27 patients with DSM-IV other psychoses. Exclusion criteria comprised no major neurological or somatic disorder or history of head trauma. All controls were free of mental illness. More information can be obtained from the corresponding references (Lane et al. Reference Lane, Kinsella, Murphy, Byrne, Keenan, Colgan, Cassidy, Lloyd, Doody, Brewin, Park and Jones1997; Ismail et al. Reference Ismail, Cantor-Graae and McNeil1998; Kelly et al. Reference Kelly, Lane, Henriksson, Agartz and McNeil2005) and the first author of the Nesvåg et al. study.

The Ismail et al. study included 60 patients from Malmö, Sweden and measured MPA with items from the Waldrop et al. study (Reference Waldrop, Pedersen and Bell1968), as well as additional sources. The Kelly et al. study included 55 subjects (28 schizophrenia patients and 27 controls from Stockholm, Sweden), all subjects being examined using the Lane Scale (Lane et al. Reference Lane, Kinsella, Murphy, Byrne, Keenan, Colgan, Cassidy, Lloyd, Doody, Brewin, Park and Jones1997). The Lane et al. study comprised 165 patients and 76 control subjects recruited from Dublin, Ireland, MPA measured with the Lane scale. Subjects in the Nesvåg et al. study were part of an ongoing study in Oslo, Norway. Thus far, 45 patients (18 with schizophrenia, and the remaining with other psychoses) have been selected, and MPA were assessed using a 10-item scale.

The notable variation in the composition of the psychosis samples and the MPA scales across the studies prohibited combining the data into one common dataset. For simplification of comparison, rates of total MPA rather than specific MPA were studied. The relationship between total MPA score and age was examined using Spearman's r s for each sample in total, for patients and controls separately, and for men and women separately. There was no evidence that the association between MPA and age was influenced by gender, so no further stratification by gender was employed. The mean and standard deviation for total MPA were calculated per each age quartile. The Kruskal–Wallis test was used to analyse differences for total MPA by age quartiles, and linear trends were analysed using the Jonckheere–Tepstra test. Comparison of MPA means was done by Student's t test.

Results and comment

None of the rank correlation between MPA score and age in each sample (or gender, patient/control status subgroups) was close to statistical significance. Table 1 presents the mean MPA score by age quartiles for patients/controls. There was no significant change in MPA scores by increasing age and no significant trend over age quartiles. In the Lane et al. study, mean MPA were significantly higher in patients aged >60 years (53·7±10·7) than in patients aged ⩽60 years (49·5±8·6) (p=0·040), while no such difference was seen in corresponding control groups (33·6±8·9 v. 33·7±8·2) (p=0·975). The ratio for mean MPA in patients:controls (Table 1) remained stabile (1·49, 1·47, 1·48) across the first three age quartiles but increased (to 1·60) in the oldest quartile.

Table 1. Mean MPA score and standard deviation per age quartile for the participants in the four independent samples included in this study

MPA mean, Mean for the minor physical anomalies score for each sample; s.d., standard deviation.

a Min(imum) and max(imum) refer to lowest and highest scores that occurred in that sample.

Ismail et al. study: 1st age quartile 19–33 yr, 2nd age quartile 34–39 yr, 3rd age quartile 40–45 yr, 4th age quartile 46–55 yr.

Kelly et al. study: 1st age quartile 23–37 yr, 2nd age quartile 38–44 yr, 3rd age quartile 45–47 yr, 4th age quartile 48–50 yr.

Lane et al. study: 1st age quartile 18–30 yr, 2nd age quartile 31–44 yr, 3rd age quartile 45–60 yr, 4th age quartile 61–89 yr.

Nesvåg et al. study: 1st age quartile 18–23 yr, 2nd age quartile 24–27 yr, 3rd age quartile 28–30 yr, 4th age quartile 31–47 yr.

In the literature, we found 11 frequently cited studies providing evidence for the existence of an increase in MPA among schizophrenia patients. Two of these did not, however, present the participants' age. Subject age was <55 years in five studies and <60 years in one further study. Of the remaining studies that included subjects aged >60 years, two actually had higher mean age for the controls than patients, while the third study showed no age differences.

No significant relationship was observed between MPA rate and age across all ages in any study. Patients (but not controls) aged >60 years had significantly but modestly increased MPA scores, paralleling Lloyd et al.'s finding in normal controls of similar age. With greater power this might point towards a possible increase of MPA in all older ages, but it would not explain the consistent differences in rates of MPA in schizophrenia patients, compared to equally aged controls. If it were of interest to investigate the frequencies of MPA in schizophrenia subjects aged >60 years, it would require a study design which includes older subjects with and without schizophrenia.

A literature search was done in order to determine whether the apparent increase of MPA in subjects aged >60 years represents a true confounding in the studies constituting evidence for the association between MPA and schizophrenia. Only three of the nine studies that were identified included subjects aged >60 years, and the mean age of schizophrenia patients was lower than, or the same as, that for controls.

Thus, nothing suggests that high subject age provided a confounding towards increased MPA rates in schizophrenia patients. The current findings give no reason to reconsider earlier consistent and robust findings of increased rates of MPA in schizophrenia versus controls in a number of studies over the years.

Acknowledgement

This study was supported by grants from the Stanley Medical Research Institute USA (grant no. 98-313), the NIMH USA (grant no. MH18857), the Swedish National Research Council (grant nos 3793 and 5845), and the Wallenberg Foundation.

Declaration of Interest

None.

References

Ismail, B., Cantor-Graae, E. & McNeil, T. F. (1998). Minor physical anomalies in schizophrenic patients and their siblings. American Journal of Psychiatry 155, 16951702.Google Scholar
Kelly, B. D., Lane, A., Henriksson, K. M., Agartz, I. & McNeil, T. (2005). Craniofacial dysmorphology in Swedish schizophrenia patients. Acta Psychiatrica Scandinavica 111, 202207.Google Scholar
Lane, A., Kinsella, A., Murphy, P., Byrne, M., Keenan, J., Colgan, K., Cassidy, B., Lloyd, T., Doody, G., Brewin, J., Park, B. & Jones, P. (2003). Minor physical anomalies in schizophrenia: is age a confounding factor? Schizophrenia Research 61, 6773.Google Scholar
Lloyd, T., Doody, G., Brewin, J., Park, B. & Jones, P. (2003). Minor physical anomalies in schizophrenia: is age a confounding factor? Schizophrenia Research 61, 6773.Google Scholar
Waldrop, M. F., Pedersen, F. A. & Bell, R. Q. (1968). Minor physical anomalies and behavior in preschool children. Child Development 39, 391400.Google Scholar
Figure 0

Table 1. Mean MPA score and standard deviation per age quartile for the participants in the four independent samples included in this study