Glaucoma Clinical Trial
Official title:
Clinical Effectiveness of Low Vision Rehabilitation in Glaucoma Patients With Moderate or Severe Vision Loss
Our team is interested in what can be done to improve the functioning of patients who suffer
from glaucoma, a chronic and irreversible eye disease. Patients with vision loss as a result
of this disease may feel like they have been 'given up on', or lost to our medical system
when no further interventions can be offered to treat their eye disease. It is our intent to
investigate what alternatives we can provide our patients, instead of simply saying,
'nothing more can be done'. We have learned from studies done on other chronic eye diseases,
like age related macular degeneration, that low vision rehabilitation can improve visual
function.
What exactly is low vision? It can involve a loss of visual acuity, making activities such
as reading or writing a challenge; it can involve loss of contrast sensitivity, making
shapes and edges hard to discern, like those of a stair edge, or person's face. It could
also involve a loss of peripheral, or side vision which is a symptom common to most glaucoma
patients. Whatever the cause of low vision, doing day-to-day activities can become
increasingly difficult, and many suffer from a loss of their independence and may even
become depressed. Low vision rehabilitation involves helping patients to use their remaining
vision in optimal, and sometimes even new, ways. This involves an assessment of a person's
baseline vision, and an idea of what their needs are. Patients are then given low vision
aids (such as magnifiers, telescopes, video screens which magnify images, and other tools)
as well as instructions and support for adapting to living and functioning with altered
vision.
Although there currently exists no cure for glaucoma, and we are certainly not promising a
reversal of the damage done to the eyes from this chronic disease, we do believe that these
types of rehabilitation services may offer some hope and potential visual benefit to
patients living with vision loss. Our hypothesis is that the use of state-of-the-art low
vision aids in patients with advanced glaucomatous visual loss will provide an improvement
in visual tasks and thereby an improvement in quality of life.
Visual impairment, including both low vision and blindness, ranks among the ten most
prevalent causes of disability in North America (1). Leading causes of low vision are
diseases also associated with an aging population, including age related macular
degeneration (ARMD), glaucoma, diabetic retinopathy and optic neuropathies (1). Of these,
irreversible vision loss is most commonly caused by ARMD and glaucoma, diseases for which
there exists no cure (2). Quality of life and functional ability are negatively impacted by
vision loss and blindness (2). Loss of visual ability impairs both mental and physical
functioning, limiting activities of daily living (ADL) (eating, dressing, reading, writing,
mobilizing, interpersonal communication etc.) (3). Impedance on basic functioning secondary
to visual impairment can lead to loss of independence, low self-esteem or depression (3).
When pharmacological or surgical interventions prove futile in advanced vision loss, low
vision rehabilitation may be the only option for regaining lost function in patients. The
goal of low vision rehabilitation is to not restore lost vision but rather utilize the
remaining vision to its fullest potential thus enabling patients to reclaim their ADL and
thereby their independence.
Our study is based on the Veterans Affairs Low Vision Intervention Trial (LOVIT), a
randomized controlled trial conducted by Stelmack et al (4-6). Their goal was to evaluate
the efficacy of an outpatient low vision rehabilitation program for patients with moderate
to severe vision loss secondary to age related macular degeneration (ARMD). Their
intervention was effective in improving all aspects of visual function when compared with
the control group. There is very little evidence to support the use of low vision
rehabilitation in patients with chronic, irreversible visual loss secondary to glaucoma, and
currently no randomized trials have been done. Because the pattern of visual loss is
different in ARMD and glaucoma, it is not possible to extrapolate the ARMD data beyond the
ARMD cohort. Yet, the ARMD experience has established a proof of principal that can be used
in the glaucoma protocol design In patients with advanced glaucomatous optic neuropathy,
functional loss often begins with mobility and difficulty ambulating (7). In one study,
patients with visual field loss secondary to their glaucoma showed a diminished traffic gap
judgement when crossing the street, which lead to an increased risk of harm. As a whole, the
group made 23% more errors in identifying a gap as crossable when it was too short to be
made safely (7). Another researcher found that 25% of patients with visual field loss in
both eyes reported a moderate to severe restriction in their mobility activities overall. In
another study, field loss secondary to glaucoma lead to a lower vision-related quality of
life score. When examined collectively, these reports and others suggest that those with
reduced visual fields and glaucoma experience more falls, more motor vehicle accidents,
greater overall difficulty with mobility activities and an overall decreased quality of
living (7). Visual acuity can vary over a wide range among patients with moderate to severe
glaucoma, but overall, central vision reduction occurs late in the disease. Some studies do
show mild central and diffuse reduction in fields in the early stages of glaucoma. As the
visual fields and visual acuity decline, patients often note difficulty with glare
sensitivity, leaving response times to light and dark adaptations hindered. In summary, the
problems most often experienced by patients with advanced glaucoma are related to
ambulation, reading, distance spotting and glare. Low vision rehabilitation aims to maximize
independence in patients' daily lives by addressing these difficulties.
It would be difficult to argue that low vision aids and rehabilitation in patients with
visual loss do not have a positive impact on both patients and their families; however there
exists little in the way of randomized controlled clinical trials which evaluate efficacy of
outpatient low vision rehabilitation and interdisciplinary strategies to deliver such
services. Given the existing shortage of inpatient resources and the staff required to
manage such patients, an outpatient program could deemed more cost effective and practical
in our limited health care system. Moreover, most available data on the subject focuses on
rehabilitation in patients with ARMD. There is very little to support the use of low vision
rehabilitation in patients with chronic, irreversible visual loss secondary to glaucoma. As
our population ages, we can expect with certainty an increase in the prevalence of visual
loss secondary to glaucoma, beginning in the next ten years (12). An evaluation of the
efficacy of strategies to address 'untreatable' vision loss, such as those patients with
'end of the line' glaucoma, would be of great significance as we see glaucoma and its
devastating effects on vision and subsequently on quality of life increase greatly in the
near future. Evidence based models of outpatient low vision rehabilitation programs are
needed to support the implementation and delivery of such services for patients suffering
from moderate to severe glaucoma, and its devastating impact on daily functioning.
References
1. US Department of Health and Human Services. Vision research a national plan: 1999-2003;
NIH Publication No. 98-4120. National Eye Institute, Bethesda MD, 1998: 117-30
2. Evans K, Law S, Walt J, Buchholz P, Hansen J. The quality of life impact of peripheral
versus central vision loss with a focus on glaucoma versus age-related macular
degeneration. Clinical Ophthalmology 2009:3 433-445
3. Department of Veterans Affairs. Veterans Health Administration, Blind Rehabilitation
Service. Coordinated Services for Blinded Veterans IB 11-59 (revised) P87250.
Department of Veterans Affairs, Washington DC, 1996.
4. Stelmack JA, Tang XC, Reda DJ, Moran D, Rinne S, Mancil RM, Cummings R, Mancil G,
Stroupe K, Ellis N, Massof RW. The Veterans Affairs Low Vision Intervention Trial
(LOVIT): design and methodology. Clin Trials. 2007;4(6):650-60.
5. Stelmack JA, Tang XC, Reda DJ, Rinne S, Mancil RM, Massof RW. Outcomes of the Veteran
Affairs Low Vision Intervention Trial (LOVIT)
6. Stelmack JA, Moran D, Dean D, Massof RW. Short and long-term effects of an intensive
inpatient vision rehabilitation program. Arch Phys Med Rehabil 2007; 88:691-5.
7. Robinson, S. (2010). Chapter 31: Advanced Glaucoma and Low Vision: Evaluation and
Treatment. In Schacknow, P.N. and Samples, J.R. (Eds.), The Glaucoma Book: A Practical,
Evidence-Based Approach to Patient Care. (pp. 351-353). New York: Springer.
8. Stelmack J, Szlyk J, Stelmack T, et al. Use of Rasch person item map in exploratory
data analysis: a clinical perspective. J Rehabil Res Dev 2004; 41: 233-42.
9. Szlyk JP, Stelmack J, Massof RW, et al. Performance of the Veterans Affairs Low Vision
Visual Functioning Questionnaire. J Vis Impair Blind 2004; 98: 261-75.
10. Stelmack JA, Szlyk JP, Stelmack TR, et al. Psychometric properties of the Veterans
Affairs Low-Vision Visual Functioning Questionnaire. Invest Ophthalmol Vis Sci 2004;
45: 3919-28.
11. Stelmack JA, Szlyk JP, Stelmack TR, et al. Measuring outcomes of low vision
rehabilitation with the Veterans Affairs Low Vision Visual Functioning Questionnaire
(VALV VFQ-48). Invest Ophthalmol Vis Sci 2006; 47: 3253-61.
12. Quigley HA, Broman AT. The number of people with glaucoma worldwide in 2010 and 2020.
Br J Ophthalmol. 2006 Mar;90(3):262-7.
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Endpoint Classification: Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Supportive Care
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