Hostname: page-component-cd9895bd7-hc48f Total loading time: 0 Render date: 2024-12-22T23:33:05.127Z Has data issue: false hasContentIssue false

Quality of life as the mental aspect of health in the measurement-based care of neurological patients

Published online by Cambridge University Press:  07 August 2013

P. Bech*
Affiliation:
Psychiatric Research Unit, Psychiatric Centre North Zealand, Dyrehavevej 48 DK-3400 Hillerød, Denmark.
Rights & Permissions [Opens in a new window]

Abstract

Type
Editorial
Copyright
Copyright © Scandinavian College of Neuropsychopharmacology 2013 

The family of concepts normally surnamed ‘health-related quality of life’ or (HRQoL) is measured by the impact of a disease on the patient's ability to function in daily life. In their literature review on HRQoL scales in neurological diseases, Corallo et al. (Reference Corallo, De Luca, Leonardi, De Salvo, Bramanti and Marino1) correctly subdivide these scales into (a) the measurement of general disease-anonymous scales or (b) disease-specific scales. Among the specific neurological HRQoL scales Corallo et al. (Reference Corallo, De Luca, Leonardi, De Salvo, Bramanti and Marino1) have included the Alzheimer's Disease Questionnaire, the Parkinson's Disease Questionnaire (PDQ-39), the Amyotropic Lateral Sclerosis Questionnaire, and the Multiple Sclerosis Questionnaire. Of these scales, the Multiple Sclerosis Questionnaire is the most comprehensive, containing 54 items in total (MRSQoL-54). However, in contrast to the other neurological HRQoL disease-specific scales, the MRSQoL-54 actually includes the 36 items from the Medical Outcome Studies Short Form (MOS SF-36), which is a generic or disease-anonymous HRQoL scale (Reference Ware, Kosinski and Gandek2). In their conclusion, Corallo et al. (Reference Corallo, De Luca, Leonardi, De Salvo, Bramanti and Marino1) correctly say that both types of HRQoL scales should be considered. They also correctly point out in their main conclusion that these multidimensional HRQoL scales are often aggregated into a total score and/or a limited number of composite indices, which may be the major reason why their ability to discriminate between different interventions in randomised clinical trials of neurological diseases is only modest.

Two decades ago, when reviewing HRQoL scales in neurological diseases, Wilson et al. (Reference Wilson, Goetz and Stebbins3) concluded that in the assessment of Parkinson's disease, the HRQoL instruments would most likely be able to document the impact of fewer side effects with the levodopa–cardiodopa combination. As stated by Corallo et al. (Reference Corallo, De Luca, Leonardi, De Salvo, Bramanti and Marino1) the PDQ-39 (Reference Peto, Jenkinson, Fitzpatrick and Greenhall4) has now become the most widely used disease specific HRQoL scale in Parkinson's disease. However, according to item response theory models (e.g. the Rasch analysis), the PDQ-39 is not a unidimensional scale (Reference Hagell and Nilsson5), that is, the total score is not a sufficient statistic, and thus we need subscale profiles for side effects induced by the intervention for disease-specific symptoms and for psychological general well-being (Reference Bech6).

Unfortunately, the items of the short-form PDQ-8 have been selected on psychometric terms as the eight items were identified because of high item-to-total correlations (Reference Franchignoni, Giordano and Ferriero7). The clinical validity of a scale has to be established before the Rasch analysis (Reference Bech6). In the case of PDQ-39, subscales have to be selected on clinical elements taking into account to which dimensions the items must belong, for example, specific disease-related functioning of health, side effects of treatment, and psychological well-being.

When examining the universe of items in widely used generic HRQoL scales by means of an expert panel, Hall et al. (Reference Hall, Krahn, Horner-Johnson and Lamb8) focused on the core element of general well-being by disregarding items reflecting symptoms of diseases and items reflecting common medication-induced side effects. They concluded (Reference Hall, Krahn, Horner-Johnson and Lamb8) that ∼70% of the items in the MOS SF-36 validly covered a generic HRQoL scale, whereas the five items in the WHO-5 (Reference Bech6) had 100% coverage of the dimension for a generic HRQoL scale.

As a generic HRQoL scale Schneider et al. (Reference Schneider, Pilhatsch and Rifati9) recommended the WHO-5 as the first screening test before the use of the PDQ-39 in Parkinson's disease. The WHO-5 has recently been evaluated by a Rasch analysis in an elderly population when used as the first screening test for depression or apathy (Reference Lucas-Carrasco, Allerup and Bech10) and its unidimensionality was confirmed. The WHO-5 was also found valid in an adolescent psychiatric population as the first screening test for depression (Reference Blom, Bech, Hogberg, Larsson and Serlachius11).

Apathy, or depression, is probably the mental syndrome captured by generic HRQoL scales in neurological disorders (Reference Lucas-Carrasco, Allerup and Bech10). The specific neurological HRQoL scales described so clearly by Corallo et al. (Reference Corallo, De Luca, Leonardi, De Salvo, Bramanti and Marino1) are all very important in capturing the functionally related problems for the individual disorders. The time has come with its electronic data collection to also implement these scales in clinical practice. Quality of life is the mental aspect of health in the measurement-based care of neurological patients.

References

1.Corallo, F, De Luca, R, Leonardi, R, De Salvo, S, Bramanti, P, Marino, S. The clinical use of quality of life scales in neurological disorders. Acta Neuropsychiatrica 2013;25:113.CrossRefGoogle Scholar
2.Ware, JE Jr, Kosinski, M, Gandek, Bet al. The factor structure of the SF-36 Health Survey in 10 countries: results from the IQOLA Project. International Quality of Life Assessment. J Clin Epidemiol 1998;51:11591165.CrossRefGoogle ScholarPubMed
3.Wilson, RS, Goetz, CG, Stebbins, GT. Neurological illness. In: Spiker B, editor. Quality of life and pharmacoeconomics in clinical trials. Philadelphia: Lippicott-Raven Publishers, 1996:903908.Google Scholar
4.Peto, V, Jenkinson, C, Fitzpatrick, R, Greenhall, R. The development and validation of a short measure of functioning and well being for individuals with Parkinson's disease. Qual Life Res 1995;4:241248.CrossRefGoogle Scholar
5.Hagell, P, Nilsson, MH. The 39-Item Parkinson's Disease Questionnaire (PDQ-39): is it a unidimensional construct? Ther Adv Neurol Disord 2009;2:205214.CrossRefGoogle ScholarPubMed
6.Bech, P. Clinical psychometrics. Oxford: Wiley Blackwell, 2012.CrossRefGoogle Scholar
7.Franchignoni, F, Giordano, A, Ferriero, G. Rasch analysis of the short form 8-item Parkinson's Disease Questionnaire (PDQ-8). Qual Life Res 2008;17:541548.CrossRefGoogle ScholarPubMed
8.Hall, T, Krahn, GL, Horner-Johnson, W, Lamb, G. Examining functional content in widely used health-related quality of life scales. Rehabil Psychol 2011;56:9499.CrossRefGoogle ScholarPubMed
9.Schneider, CB, Pilhatsch, M, Rifati, Met al. Utility of the WHO-five well-being index as a screening tool for depression in Parkinson's Disease. Movement Dis 2010;25:777783.CrossRefGoogle ScholarPubMed
10.Lucas-Carrasco, R, Allerup, P, Bech, P. The validity of the WHO-5 as an early screening for apathy in an elderly population. Curr Gerontol Geriatr Res 2012;2012:171857.CrossRefGoogle Scholar
11.Blom, EH, Bech, P, Hogberg, G, Larsson, JO, Serlachius, E. Screening for depressed mood in an adolescent psychiatric context by brief self-assessment scales – testing psychometric validity of WHO-5 and BDI-6 indices by latent trait analyses. Health Qual Life Outcomes 2012;10:149.CrossRefGoogle Scholar