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Letter to the Editor: A rejoinder to Grool et al. (2010)

Published online by Cambridge University Press:  24 August 2010

RIKKE B. DALBY*
Affiliation:
Centre for Psychiatric Research, Aarhus University Hospital, Risskov, Denmark
RABEN ROSENBERG
Affiliation:
Centre for Psychiatric Research, Aarhus University Hospital, Risskov, Denmark
LEIF ØSTERGAARD
Affiliation:
Centre of Functionally Integrative Neuroscience (CFIN), Aarhus University, Aarhus, Denmark
POUL VIDEBECH
Affiliation:
Centre for Psychiatric Research, Aarhus University Hospital, Risskov, Denmark
*
Author for correspondence: Dr R. B. Dalby, Centre for Psychiatric Research, Aarhus University Hospital, Risskov, Skovagervej 2, DK-8240 Risskov, Denmark. (Email: [email protected])
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Abstract

Type
Correspondence
Copyright
Copyright © Cambridge University Press 2011

We read with great interest the response from Grool and colleagues (Grool et al. Reference Grool, Vincken, van der Graaf and Geerlings2010) on our article ‘Localization of white-matter lesions and effect of vascular risk factors in late-onset major depression’ in the Journal (Dalby et al. Reference Dalby, Chakravarty, Ahdidan, Sorensen, Frandsen, Jonsdottir, Tehrani, Rosenberg, Ostergaard and Videbech2010). We agree overall with their methodological considerations about manual labelling and slice thickness in magnetic resonance imaging (MRI). However, we have some important comments to their critique. Limitations to manuscript length may sometimes compromise a thorough discussion of all important aspects in an article and we regret if Grool et al. (Reference Grool, Vincken, van der Graaf and Geerlings2010) found our discussion of the methodological issues incomplete.

First, we used a 3-T MRI scanner in our study. In the SMART-MR study (Geerlings et al. Reference Geerlings, Appelman, Vincken, Algra, Witkamp, Mali and van der2010) that Grool and colleagues refer to in their letter, they used a 1.5-T MRI scanner. The use of 3-T MRI improves the detection of more subtle white-matter changes than 1.5-T MRI due to better spatial resolution and increased signal-to-noise ratio. This has been shown for white-matter changes in both normal adults (Neema et al. Reference Neema, Guss, Stankiewicz, Arora, Healy and Bakshi2009), multiple sclerosis (Di et al. Reference Di, Dwyer, Wack, Cox, Hashmi, Saluste, Hussein, Schirda, Stosic, Durfee, Poloni, Nayyar, Bergamaschi and Zivadinov2009), and epilepsy (Phal et al. Reference Phal, Usmanov, Nesbit, Anderson, Spencer, Wang, Helwig, Roberts and Hamilton2008). Therefore, we expected to detect more lesions and thus a higher lesion volume than most previous studies using 1.5-T MRI.

Second, we appreciate the effort of Grool et al. to calculate medians of our deep white-matter lesion (DWML) volume. However, we would have preferred to provide the original data for this purpose. The true median values of DWML volume in our sample is 0.18 ml for patients and 0.26 ml for controls, and not 0.4 ml and 0.5 ml, respectively, as Grool et al. propose. When excluding the proposed outliers in Fig. 1, the median DWML volume is 0.33 ml for patients and 0.25 for controls. Lesion volume was modelled with a log-Gaussian regression model and showed no statistically significant difference in lesion volume between groups (t=−0.46, p=0.65). Neither did the non-parametric Mann–Whitney rank sum test (z=1.20, p=0.23), even after excluding three possible outliers in the control group in Fig. 1 with high lesion volumes (z=0.47, p=0.64) and additionally three possible outliers in the patient group with small lesion volumes (z=−0.22, p=0.83).

Finally, we recognize Grool et al.'s comment about possible selection bias. Generally, recruitment to most clinical studies introduces the risk of selection bias. Because this study involved depressed patients admitted to a psychiatric hospital or treated in out-patient facilities, our patients may be presumed to be more severely ill and presenting with more comorbidity than patients seen in general practice. Selection towards more severely ill patients may cause an overestimation of the effect measures, which may not be demonstrated in large population-based studies. Our control group was recruited from advertisement in a local paper, and responders were carefully screened by telephone prior to the formal, structured diagnostic interview, partly to exclude controls wanting to participate because of suspected symptoms of depression and dementia. Another type of potential selection bias is the recruitment of ‘super-normals’, i.e. not being representative of ‘average’ controls. In the present study, the distribution of socio-demographic variables and vascular risk factors, except for social class and smoking, was very similar in patients and controls. Adjusting for social class did not alter the result of no significant difference in DWML volume between groups (t=−1.19, p=0.24); these results were not shown in the original article. We have no reason to believe that our control group is not representative of the background population.

Declaration of Interest

None.

References

Dalby, RB, Chakravarty, MM, Ahdidan, J, Sorensen, L, Frandsen, J, Jonsdottir, KY, Tehrani, E, Rosenberg, R, Ostergaard, L, Videbech, P (2010). Localization of white-matter lesions and effect of vascular risk factors in late-onset major depression. Psychological Medicine 40, 13891400.CrossRefGoogle ScholarPubMed
Di, PC, Dwyer, MG, Wack, DS, Cox, JL, Hashmi, K, Saluste, E, Hussein, S, Schirda, C, Stosic, M, Durfee, J, Poloni, GU, Nayyar, N, Bergamaschi, R, Zivadinov, R (2009). Signal abnormalities on 1.5 and 3 Tesla brain MRI in multiple sclerosis patients and healthy controls. A morphological and spatial quantitative comparison study. Neuroimage 47, 13521362.Google Scholar
Geerlings, MI, Appelman, AP, Vincken, KL, Algra, A, Witkamp, TD, Mali, WP, van der, GY (2010). Brain volumes and cerebrovascular lesions on MRI in patients with atherosclerotic disease. The SMART-MR study. Atherosclerosis 210, 130136.CrossRefGoogle ScholarPubMed
Grool, AM, Vincken, KL, van der Graaf, Y, Geerlings, MI (2010). Response to ‘Localization of white-matter lesions and effect of vascular risk factors in late-onset major depression’ [Letter]. Psychological Medicine 40, 12291230.CrossRefGoogle ScholarPubMed
Neema, M, Guss, ZD, Stankiewicz, JM, Arora, A, Healy, BC, Bakshi, R (2009). Normal findings on brain fluid-attenuated inversion recovery MR images at 3T. American Journal of Neuroradiology 30, 911916.CrossRefGoogle ScholarPubMed
Phal, PM, Usmanov, A, Nesbit, GM, Anderson, JC, Spencer, D, Wang, P, Helwig, JA, Roberts, C, Hamilton, BE (2008). Qualitative comparison of 3-T and 1.5-T MRI in the evaluation of epilepsy. American Journal of Roentgenology 191, 890895.CrossRefGoogle ScholarPubMed