Influence of glaucomatous visual field loss on health-related quality of life.

We examined the influence of glaucomatous visual field defects on vision-targeted and generic health-related quality of life. Vision-targeted and generic health status were assessed across 5 glaucoma treatment categories and a normal reference group from 5 tertiary care ophthalmology practices during regularly scheduled eye care visits. The sample consisted of 147 patients who were members of specific glaucoma treatment categories and 44 reference group patients. For patients with glaucoma, eligibility included a diagnosis of glaucoma at least 1 year prior to enrollment and no evidence of other eye disease. Participants completed 2 vision-targeted surveys, the National Eye Institute Visual Functioning Questionnaire and the VF-14, and a generic health-related quality of life measure, the Medical Outcomes Study 36-Item Short Form. Data from automated perimetry (Humphrey Field Analyzer 24-2, Humphrey Instruments, San Leandro, Calif) were used to generate Advanced Glaucoma Intervention Study scores for all participants. The Medical Outcomes Study 36-Item Short Form scores from glaucoma and reference group participants collected on a random half of the sample were similar. However, comparisons of the vision-targeted surveys demonstrated significant mean differences on 7 of 11 National Eye Institute Visual Functioning Questionnaire scales, and a trend toward significant differences for the VF-14 (P < .07 by linear regression). Greater visual field defects in the better eye were significantly associated with poorer National Eye Institute Visual Functioning Questionnaire scores (P < .05), as well as with worse VF-14 scores. These findings were most dramatic for patients with the most severe field loss in the better eye. Vision-targeted questionnaires were more sensitive than a generic health-related quality of life measure to differences between glaucoma and normal reference participants. Our findings indicate that self-reports of vision-targeted health-related quality of life are sensitive to visual field loss and may be useful in tandem with the clinical examination to fully understand outcomes of treatment for glaucoma.

[1]  J. Larson The MOS 36-Item Short form Health Survey , 1997, Evaluation & the health professions.

[2]  R. Klein,et al.  The NEI VFQ 51-item test version and its relationship with visual acuity across 5 diseases , 1996 .

[3]  L. Goldman,et al.  Prediction of visual function after cataract surgery. A prospectively validated model. , 1995, Archives of ophthalmology.

[4]  E P Steinberg,et al.  Comparison of generic versus disease-specific measures of functional impairment in patients with cataract. , 1995, Medical care.

[5]  Neil T. Choplin,et al.  Visual Field Testing With the Humphrey Field Analyzer , 1995 .

[6]  L Goldman,et al.  Improved visual function and attenuation of declines in health-related quality of life after cataract extraction. , 1994, Archives of ophthalmology.

[7]  M Schulzer,et al.  Errors in the diagnosis of visual field progression in normal-tension glaucoma. , 1994, Ophthalmology.

[8]  J C Javitt,et al.  National study of cataract surgery outcomes. Variation in 4-month postoperative outcomes as reflected in multiple outcome measures. , 1994, Ophthalmology.

[9]  A. Damiano,et al.  The VF-14. An index of functional impairment in patients with cataract. , 1994, Archives of ophthalmology.

[10]  Advanced Glaucoma Intervention Study. 2. Visual field test scoring and reliability. , 1994, Ophthalmology.

[11]  C. Sherbourne,et al.  The RAND 36-Item Health Survey 1.0. , 1993, Health economics.

[12]  J C Javitt,et al.  Vision change and quality of life in the elderly. Response to cataract surgery and treatment of other chronic ocular conditions. , 1993, Archives of ophthalmology.

[13]  J. Javitt,et al.  Outcomes of Cataract Surgery: Improvement in Visual Acuity and Subjective Visual Function After Surgery in the First, Second, and Both Eyes , 1993 .

[14]  C. McHorney,et al.  The MOS 36‐Item Short‐Form Health Survey (SF‐36): II. Psychometric and Clinical Tests of Validity in Measuring Physical and Mental Health Constructs , 1993, Medical care.

[15]  E F Cook,et al.  Development of the Activities of Daily Vision Scale: A Measure of Visual Functional Status , 1992, Medical care.

[16]  C. Sherbourne,et al.  The MOS 36-Item Short-Form Health Survey (SF-36) , 1992 .

[17]  R. Kravitz,et al.  Differences in the mix of patients among medical specialties and systems of care. Results from the medical outcomes study. , 1992, JAMA.

[18]  A. Stewart,et al.  Functional status and well-being of patients with chronic conditions. Results from the Medical Outcomes Study. , 1989, JAMA.

[19]  L T Chylack,et al.  Lens opacities classification system II (LOCS II) , 1989, Archives of ophthalmology.

[20]  R. Deyo,et al.  Generic and Disease-Specific Measures in Assessing Health Status and Quality of Life , 1989, Medical care.

[21]  W. Applegate,et al.  Impact of cataract surgery with lens implantation on vision and physical function in elderly patients. , 1987, JAMA.

[22]  B Esterman,et al.  Functional scoring of the binocular field. , 1982, Ophthalmology.

[23]  F. Ferris,et al.  New visual acuity charts for clinical research. , 1982, American journal of ophthalmology.

[24]  R. Sitgreaves Psychometric theory (2nd ed.). , 1979 .

[25]  S. Folstein,et al.  "Mini-mental state". A practical method for grading the cognitive state of patients for the clinician. , 1975, Journal of psychiatric research.

[26]  L. Cronbach Coefficient alpha and the internal structure of tests , 1951 .