Macular Degeneration, Dry Clinical Trial
Official title:
Visual Rehabilitation Through Acoustic Biofeedback With Retimax Vision Trainer in Patients With Advanced Age-related Macular Degeneration
At present there are no real therapies able to improve visual performance in patients with age-related macular degeneration, atrophic type. The aim of the study is to verify whether with rehabilitation sessions with Retimax Vision Trainer it is possible to teach the maculopathic patient to exploit the extrafoveal areas of the retina, not affected by atrophy, resorting to an eccentric vision that compensates for the foveal one, thus obtaining a improvement of visual outcomes (far and near vision capacity, sensitivity to contrast to reading, reading speed, fixation capacity and overall quality of life of the visually impaired patient suffering from atrophic senile maculopathy (AMD)). To do this, the study design was conceived as a non-randomized prospective comparative and involves the formation of two groups of patients: a group A of 15 patients who will be rehabilitated with Retimax and a group B of 15 patients who will not be rehabilitated, but only re-evaluated at the same distance of time that will elapse for group A. Eligible patients are affected by atrophic AMD with unstable fixation and better vision in the eye between 1/10 and 4/10 in the absence of other serious eye diseases. As there is currently no real therapy capable of improving visual performance, the demonstration of the positive effect of the visual rehabilitation program with Retimax in patients suffering from atrophic macular degeneration may encourage a wider use of this method. The patient could benefit from a non-invasive, repeatable and cost-effective procedure.
Study typology:
prospective, non-randomized, monocentric, comparative study. There is no agreement between
promoter and clinical center. There is no agreement between promoter and financier: the study
has no funding.
Background:
The Retimax Vision Trainer is an innovative method that aims to increase visual function in
patients with eye diseases of various origins and nature, allowing the patient to exploit and
optimize their residual visual potential. It is aimed at patients with visual impairments of
different origins and severity, such as campimetric deficits, low vision of central origin,
degenerative retinal diseases, amblyopia.
It consists of a device for recording bioelectrical responses evoked during the perception of
structured visual stimuli and the control of the same by the patient through a sound
biofeedback mechanism. This results in an increase in visual capacity, exploiting neuronal
plasticity through the activation of alternative neuronal circuits. The device has already
been used in clinical practice at the AOU Modena for about a year precisely with the
indication of rehabilitation in the visually impaired patients: therefore the current
indication includes that of the study in question. Subjects with central low vision, such as
those with advanced AMD, tend to develop independently an eccentric fixation area (PRL or
Preferred Retinal Locus) which is generally found on the horizontal meridian of the fovea,
mainly on the interpapillo-macular beam.
However, this situation represents an obstacle because it does not allow a continuous vision,
for example preventing reading and writing which would require a strip of healthy retinal
tissue long enough to allow the simultaneous viewing of at least 10-12 words.
For this reason patients suffering from central hypovision can benefit from rehabilitative
programs with bio-feedback mechanism that teach to move the eye to translate the PRL from the
central degenerated area to an adjacent healthy area large enough to allow reading / writing
. This leads to the formation of a TRL, Trained Retinal Locus, which is generally found in
the upper parafoveal area (projected in the lower part of the visual field to be more
functional for daily activities such as, for example, reading).
The most widespread rehabilitation method is stimulation with bio feedback. Each
rehabilitation cycle is customized but generally involves twice-a-week sessions in the first
five weeks for the creation of the TRL followed by maintenance sessions on a fortnightly
basis. At the end of the rehabilitation period it is always advisable to send the patient to
the test of the most appropriate aids. Rehabilitation sessions are performed only on the eye
with better visual acuity since binocular fixation is determined by the eye with better
vision than by the dominant eye.
Purpose:
The purpose of the study is to evaluate the effectiveness of rehabilitation through acoustic
biofeedback with Retimax Vision Trainer in patients with low vision suffering from
age-related macular degeneration in the advanced phase, in order to demonstrate the positive
effect that this treatment has on far and near vision, on the contrast sensitivity, on the
reading speed, on the ability to fix and on the overall quality of life of the patient. We
will therefore try to highlight the quantitative variation of these parameters between pre
and post rehabilitation by comparing two groups of patients, one subjected to rehabilitation
and one not and we will try to understand if this variation is significant.
Group A: 15 patients rehabilitated with Retimax Vision Trainer, 10 consecutive sessions of 8
minutes each, performed twice a week in the best eye.
Group B: 15 patients control group without rehabilitation.
Given the need for constancy and collaboration on the part of the patient, these are
allocated to the group of treated or to the controls based on the fact that they declare
themselves more or less available: patients who have transport problems, who live farther
away or who in any case they cannot guarantee their presence twice a week, they are allocated
to the control group.
Materials and methods:
Patients will be enrolled during visits to the maculopathy outpatient clinic that follows
patients at the end of the cycle for intravitreal injections with anti-VEGF. The enrolled
maculopathies are atrophic, therefore in the study there will be both patients with advanced
forms of maculopathy who have exhausted the role of anti-VEGF, but also patients with pure
atrophic forms who have never performed intravitreal. Therefore, enrollment is independent of
the administration of anti-VEGF.
It will be proposed to participate in the study, providing the information sheet and holding
an interview explaining the importance of consistency in rehabilitation sessions and what the
method consists of. Subsequently consent will be collected. At the signing of the consent,
personal data will be collected. The patient will be told that he will be contacted by
telephone in the following days to fix the date of the first pre-treatment visit.
Exams performed before and after treatment:
- BCVA (ETDRS)
- Reading speed (MNREAD)
- Contrast sensitivity (Pelli-Robson)
- Microperimetry and analysis of fixation (OCT-SLO OPTOS)
- QoL (VFQ-25)
After the visit, the patient will be contacted by the orthoptists to fix the 10
rehabilitation sessions with Retimax, twice a week. At the end a final post-treatment visit
will be repeated, repeating all the exams. At this point we will proceed with statistical
analysis, with the help of a biostatisticist, to evaluate the effectiveness of visual
rehabilitation.
Statistic analysis The study data are extrapolated from each patient and divided into pre and
post-treatment.
The pre-treatment value and the post-treatment value of each single parameter for each
individual patient will be compared with each other trying to demonstrate the improvement and
the significance of the variation.
For statistical calculations we will use the software R: A language and environment for
statistical computing, version 3.3.3, R Foundation for Statistical Computing, Vienna, Austria
(http://www.R-project.org/) with the collaboration of a biostatistics expert.
Given the non-normal distribution verified with the Shapiro-Wilk test and the low number, the
pre and post treatment values will be compared with the One-sided Wilcoxon Signed Rank Test
Expected results:
- Improvement of fixation capacity and microperimetry
- Improvement of visual acuity, reading speed and contrast sensitivity
- Improvement of sight quality
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