Diabetic Retinopathy Clinical Trial
Official title:
A Multicentre, Double-Blind, Randomised, Placebo Controlled Study of the Activity of Sulodexide in Diabetic Patients With Mild to Moderate Non-Proliferative Retinopathy
The aim of this phase 2 controlled placebo study is to assess the effectiveness of
Sulodexide in the treatment of non proliferative (background) retinopathy in patients with
Type 1 and Type 2 Diabetes Mellitus.
This is a multicentre, double-blind, randomised study involving patients affected by non
proliferative (background) diabetic mild to moderate retinopathy.
This study will involve 130 patients (65 for each group). At baseline visit (T0), the
Investigator will grade the ocular lesions due to diabetic retinopathy according to color
fundus photographs and the fluorescein angiography examination. He will subsequently send
the negatives of photographs and the images -or negatives when available- of fluorescein
angiography to an off-site Assessor -unaware of the Investigator assessment- nominated to
confirm the quality of the images and the grade of the lesions. After positive assessment of
the Investigator, at T0 the eligible patient will be blindly allocated to one of the 2
treatment groups according to a computer-generated randomisation list provided by the
Sponsor.
The following treatments will be administered for 360 days:
A (SULODEXIDE GROUP): 50 mg a day by oral route;
B (PLACEBO GROUP): Sulodexide placebo at the same schedule and for the same lengths of time
as group A.
Before breaking the randomisation code at the end of the study, an independent off site
assessor will evaluate the photographs according to the Airlie House Classification and
following modification by Early treatment Diabetic Retinopathy Study (ETDRS) and fluorescein
angiography according to ETDRS.
Diabetic retinopathy is the leading cause of blindness in adults (20 to 74 years old) in the
industrialised countries, affecting from 2 to 5% of entire population. All the complications
of diabetes such as diabetic retinopathy, are caused by the chronic hyperglycaemia. Although
a good metabolic control with therapy lowers the blood glucose levels enough to preserve
life, this does not permit complete euglycemia nor prevent the long-term complications of
chronic supernormal levels of blood glucose. The excess glucose causes flux through the
polyol pathway, which results in structural tissue modifications.
Diabetic retinopathy is mainly a vascular disease, primarily affecting the capillaries. The
first ultrastructural and microscopic changes reported are retinal capillary basement
membrane thickening and pericyte degeneration, both of which compromise the integrity of the
capillary wall, followed by pericyte loss.
The glycosaminoglycans (GAGs) of the basal membrane are progressively substituted by
collagen, leading to a modification in vascular permeability due to the altered anionic
charge. These changes lead to the clinical appearance of vascular leakage from retinal
capillaries followed by microaneurysms. The lack of integrity of the vessel wall leads to
haemorrhages, and to microthrombosis, which are responsible for the first ischemic lesions.
If the vascular leakage lasts for a long time, the lipidic fraction of leaked plasma
deposits in the retina forming hard exudates.
The substitution of GAGs by collagen leads to a basal membrane thickening also in the
kidney. As in the retina, the modification of permeability occurs in the renal glomeruli and
induces the selective loss of proteins (albuminuria).
Recent papers show a specific modification in GAGs metabolism occurring in diabetic patients
that could be the common pathogenetic mechanism of vascular diabetic failure. Therefore,
diabetic retinopathy and diabetic nephropathy may be regarded as the result of the
alteration of a common underlying molecular mechanism whose expression is the depletion of
GAGs from the basement membrane in both retinal and glomerular capillaries. In agreement
with the previous statement, the Wisconsin Epidemiologic Study of Diabetic Retinopathy
concluded that microalbuminuria is associated cross-sectionally with the presence of
retinopathy in diabetic patients.
The progress of the clinical symptoms of the disease despite glycaemic therapy points to
address the research towards new drugs able to slow or reverse the vessel
micro-abnormalities responsible for the microangiopathy typical of diabetic retinopathy.
Furthermore, the similarities of the vessel lesions between diabetic retinopathy and
diabetic nephropathy suggest that new molecules effective in one of the two conditions
should be effective in the other pathology as well.
Sulodexide (fast moving heparin fraction 80% and dermatan sulfate 20%) is a GAG with a high
trophism for vessel wall. Clinical studies showed its efficacy in decreasing both
microalbuminuria and macroalbuminuria in diabetic patients, suggesting that it could be able
to slowdown the nephropathy progression, actually by partially restoring the glomerular GAGs
content.
Preliminary observations regarding the use of Sulodexide in patients suffering from diabetic
retinopathy show significant reduction in hard exudates, thus indirectly pointing out a
benefit of this GAG at the retinal capillary level.
Based on the above mentioned physiopathological considerations and experimental findings,
the investigators deem appropriate to evaluate the effects of Sulodexide on the diabetic
retinopathy by the present multicentre, double-blind, placebo-controlled clinical trial.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Treatment
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