Diabetic Macular Edema Clinical Trial
Official title:
A Randomized Trial Comparing Intravitreal Triamcinolone Acetonide and Laser Photocoagulation for Diabetic Macular Edema
The study involves the enrollment of patients over 18 years of age with diabetic macular
edema(DME). Patients with one study eye will be randomly assigned (stratified by visual
acuity and prior laser) with equal probability to one of the three treatment groups:
1. Laser photocoagulation
2. 1mg intravitreal triamcinolone acetonide injection
3. 4mg intravitreal triamcinolone acetonide injection
For patients with two study eyes (both eyes eligible at the time of randomization), the
right eye (stratified by visual acuity and prior laser) will be randomly assigned with equal
probabilities to one of the three treatment groups listed above. The left eye will be
assigned to the alternative treatment (laser or triamcinolone). If the left eye is assigned
to triamcinolone, then the dose (1mg or 4 mg) will be randomly assigned to the left eye with
equal probability (stratified by visual acuity and prior laser).
The study drug, triamcinolone acetonide, has been manufactured as a sterile intravitreal
injectable by Allergan. Study eyes assigned to an intravitreal triamcinolone injection will
receive a dose of either 1mg or 4mg. There is no indication of which treatment regimen will
be better.
Patients enrolled into the study will be followed for three years and will have study visits
every 4 months after receiving their assigned study treatment. In addition, standard of care
post-treatment visits will be performed at 4 weeks after each intravitreal injection.
Diabetic retinopathy is a major cause of visual impairment in the United States. Diabetic
macular edema (DME) is a manifestation of diabetic retinopathy that produces loss of central
vision. Data from the Wisconsin Epidemiologic Study of Diabetic Retinopathy (WESDR) estimate
that after 15 years of known diabetes, the prevalence of diabetic macular edema is
approximately 20% in patients with type 1 diabetes mellitus (DM), 25% in patients with type
2 DM who are taking insulin, and 14% in patients with type 2 DM who do not take insulin.
In a review of three early studies concerning the natural history of diabetic macular edema,
Ferris and Patz found that 53% of 135 eyes with diabetic macular edema, presumably all
involving the center of the macula, lost two or more lines of visual acuity over a two year
period. In the Early Treatment Diabetic Retinopathy Study (ETDRS), 33% of 221 untreated eyes
available for follow-up at the 3-year visit, all with edema involving the center of the
macula at baseline, had experienced a 15 or more letter decrease in visual acuity score
(equivalent to a doubling of the visual angle, e.g., 20/25 to 20/50, and termed "moderate
visual acuity loss").
In the ETDRS, focal/grid photocoagulation of eyes with clinically significant macular edema
(CSME) reduced the risk of moderate visual loss by approximately 50% (from 24% to 12%, three
years after initiation of treatment). Therefore, 12% of treated eyes developed moderate
visual loss in spite of treatment. Furthermore, approximately 40% of treated eyes that had
retinal thickening involving the center of the macula at baseline still had thickening
involving the center at 12 months, as did 25% of treated eyes at 36 months.
Although several treatment modalities are currently under investigation, the only
demonstrated means to reduce the risk of vision loss from diabetic macular edema are laser
photocoagulation, as demonstrated by the ETDRS, and intensive glycemic control, as
demonstrated by the Diabetes Control and Complications Trial (DCCT) and the United Kingdom
Prospective Diabetes Study (UKPDS). In the DCCT, intensive glucose control reduced the risk
of onset of diabetic macular edema by 23% compared with conventional treatment. Long-term
follow-up of patients in the DCCT show a sustained effect of intensive glucose control, with
a 58% risk reduction in the development of diabetic macular edema for the DCCT patients
followed in the Epidemiology of Diabetes Interventions and Complications Study.
The frequency of an unsatisfactory outcome following laser photocoagulation in some eyes
with diabetic macular edema has prompted interest in other treatment modalities. One such
treatment is pars plana vitrectomy. These studies suggest that vitreomacular traction, or
the vitreous itself, may play a role in increased retinal vascular permeability. Removal of
the vitreous or relief of mechanical traction with vitrectomy and membrane stripping may be
followed by substantial resolution of macular edema and corresponding improvement in visual
acuity. However, this treatment may be applicable only to a specific subset of eyes with
diabetic macular edema. It also requires a complex surgical intervention with its inherent
risks, recovery time, and expense. Other treatment modalities such as pharmacologic therapy
with oral protein kinase C inhibitors and antibodies targeted at vascular endothelial growth
factor (VEGF) are under investigation. The use of intravitreal corticosteroids is another
treatment modality that has generated recent interest.
The optimal dose of corticosteroid to maximize efficacy with minimum side effects is not
known. A 4mg dose of Kenalog is principally being used in clinical practice. However, this
dose has been used based on feasibility rather than scientific principles.
There is also experience using Kenalog doses of 1mg and 2mg. These doses anecdotally have
been reported to reduce the macular edema. There is a rationale for using a dose lower than
4mg. Glucocorticoids bind to glucocorticoid receptors in the cell cytoplasm, and the
steroid-receptor complex moves to the nucleus where it regulates gene expression. The
steroid-receptor binding occurs with high affinity (low dissociation constant (Kd) which is
on the order of 5 to 9 nanomolar). Complete saturation of all the receptors occurs about
20-fold higher levels, i.e., about 100-200 nanomolar. A 4mg dose of triamcinolone yields a
final concentration of 7.5 millimolar, or nearly 10,000-fold more than the saturation dose.
Thus, the effect of a 1mg dose may be equivalent to that of a 4mg dose, because compared to
the 10,000-fold saturation, a 4-fold difference in dose is inconsequential. It is also
possible that higher doses of corticosteroid could be less effective than lower doses due to
down-regulation of the receptor. The steroid implant studies provide additional
justification for evaluating a lower dose, a 0.5mg device which delivers only 0.5 micrograms
per day has been observed to have a rapid effect in reducing macular edema.
There has been limited experience using doses greater than 4mg. Jonas' case series reported
results using a 25mg dose. However, others have not been able to replicate this dose using
the preparation procedure described by Jonas.
In the trial, 4mg and 1mg doses will be evaluated. The former will be used because it is the
dose that is currently most commonly used in clinical practice and the latter because there
is reasonable evidence for efficacy and the potential for lower risk. Although there is good
reason to believe that a 1mg dose will reduce the macular edema, it is possible that the
retreatment rate will be higher with this dose compared with 4mg since the latter will
remain active in the eye for a longer duration than the former. Insufficient data are
available to warrant evaluating a dose higher than 4mg at this time.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Investigator), Primary Purpose: Treatment
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