Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT03696810 |
| Other study ID # |
CEC/194/18 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
October 30, 2018 |
| Est. completion date |
June 29, 2022 |
Study information
| Verified date |
October 2022 |
| Source |
Association for Innovation and Biomedical Research on Light and Image |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
Characterization of Retinal vascular disease in eyes with mild to moderate NPDR in Diabetes
type 2, using novel non-invasive Imaging methods, in a longitudinal, prospective and
interventional clinical Study with 2 years of duration (CORDIS).
Description:
Diabetic Retinopathy (DR) is a frequent complication of Diabetes Mellitus (DM) and is the
main cause of vision loss in the working population in western countries.
Several studies provided evidence that good diabetic control is important to prevent and
delay disease progression, but while some patients develop sight-threatening DR (STDR)
despite good control, others escape the development of vison loss with poor metabolic
control.
The STDR is defined as DME and PDR. DME is defined as thickening of the macula and is mainly
due to accumulation of fluid in the central macular area resulting mainly from fluid leakage
due to the alterations of the BRB. Identifying the eyes/patients at risk to develop central
involved macular edema (CIME) and consequent vision-loss, as well as to understand its causes
is fundamental for its appropriate treatment and, finally, to avoid vision loss due to DME.
Several studies have shown different prevalence's of DR, ranging from 10.1% to 48.1%.
The prevalence of DM in Portugal has increased and, between patients aged 20 to 79 years, was
11.7% in 2009, reaching 13.3% in 2013.
Chronic diseases often begin with a symptom-free phase being biomarkers fundamental in the
identification of high-risk individuals in a reliably and timely manner, so that they can
either be treated before onset of the disease or as soon as possible.
Our group has identified 3 different phenotypes of progression based on the microaneurysm
(MA) turnover rate (sum of MA formation and disappearance rates) and central retinal
thickness (RT) measurements obtained using non-invasive repeatable procedures: digital color
fundus photography (CFP) and optical coherence tomography (OCT). MA turnover can identify
eyes at risk of progression to Clinically Significant Macular Edema (CSME), as shown by our
research results and an independent group. RT obtained with OCT provides insight into
morphological changes of the retina in DR and DME, allowing the detection of retinal edema.
The current study will address only two of the published phenotypes, B and C, which show more
rapid progression to STDR.
For an improved characterization of the main microvascular alterations that occur in NPDR,
the investigators will use novel noninvasive, direct, objective and quantitative OCT-based
methodologies: Optical coherence tomography angiography (OCTA) and OCT-Leakage (OCT-L).
OCTA allows the construction of three-dimensional blood flow information, and therefore can
serve as a method to evaluate ocular circulation. OCTA is non-invasive and has the potential
to be superior to fluorescein angiography (FA) in the detection and follow-up of DR lesions
and mean vessel density measured in the superficial retinal layer in OCTA revealed to be a
good differentiator between healthy eyes and eyes with DR. Vessel density was also correlated
with best corrected visual acuity (BCVA) and severity of DR, suggesting that capillary
closure may provide relevant information regarding progression of DR in individual patients
with DM and may be a potential indicator for vision loss.
OCT-Leakage (OCT-L) is a new non-invasive imaging technique that performs automated analysis
of the retinal extracellular space using spectral-domain optical coherence tomography
(SD-OCT). Abnormal fluid accumulation is an indicator of breakdown of the blood-retinal
barrier (BRB), which is an early and frequent finding in DR. Our research group showed the
importance of this new method and demonstrated the increased sensitivity of OCT-L to detect
abnormal fluid in the retina when compared with FA. This can be particularly useful to better
characterize and identify features associated to leaky phenotype B.
A major objective of this study is to investigate changes in OCTA and OCT-L that may be
biomarkers in the diagnosis and progression of NPDR and its ability to distinguish different
stages of the disease. The identification with OCT-L of the abnormal fluid and alteration of
the blood-retinal barrier (BRB), its location and quantification, complementing conventional
OCTA, providing, therefore, information on capillary closure, vascular morphology and their
alterations over 2 years, are expected to contribute to our understanding of DR progression.
Validation of biomarkers of DR progression, such as MA turnover and RT are important steps.
However, OCTA and OCT-L offer an opportunity of improved characterization of the different DR
phenotypes.
This study intends to better characterize the main alterations of the different phenotypes of
DR considered to be leaky (OCT-L) or ischemic (OCTA), and to identify patients at risk of
progression to STDR, identified in this study as central-involved ME (CIME), objectively
measured by OCT or development of PDR, using these recent non-invasive techniques: OCTA and
OCT-L.
