Diabetic Retinopathy Clinical Trial
Official title:
A Comparison of Islet Cell Transplantation With Medical Therapy on the Risk of Progression of Diabetic Retinopathy and Diabetic Macular Edema
Diabetic eye disease remains a major cause of visual loss for individuals with type 1 diabetes, despite currently available treatments. Preliminary studies indicate that islet cell transplantation, a new treatment for type 1 diabetes, may be beneficial for some people. This study is designed to test the hypothesis that islet cell transplantation is more effective than current medical therapy in preventing the progression of diabetic eye disease.
Study Purpose
The purpose of the study is to determine if islet cell transplantation (ICT) is more
effective than intensive medical therapy at reducing the progression of diabetic
retinopathy.
Hypothesis
ICT will result in less progression of diabetic retinopathy than intensive medical therapy.
The null hypothesis states that there is no difference between ICT and intensive medical
therapy in the chance of progression of diabetic retinopathy.
Study design: prospective, single-centre, randomized clinical trial
Outcome Assessment
Main Efficacy Outcome The primary outcome measure is a composite consisting of progression
of DR, development of significant ME, or moderate visual loss in patients who have
significant ME at randomization. The definition of each term is described below. The unit of
analysis is an individual eye and an eye can only be counted as progressing once.
Rationale for Primary outcome Progression of either DR or DME is clinically meaningful since
each can threaten vision. Since the chance of progression in one of these manifestations of
diabetic eye disease is independent of the chance of progression in the other, the combined
endpoint of progression in either is designated as the primary outcome. Progression of each
condition is assessed differently and will be done using generally accepted criteria. The
primary eligibility criteria is the level of DR since this is where the benefit found in our
initial study was identified. We are attempting to determine the benefit of our intervention
(ICT) at levels of DR before PRP is indicated and therefore before vision is threatened. For
this reason, two of the three definitions of progression use a surrogate outcome, and one
uses the clinical outcome of visual acuity. Surrogate outcomes can be used if they predict
the clinical outcome of interest and this has been established for the levels of DR. The
appropriate outcome measure for ME depends on its severity. For patients without CSME, the
surrogate outcome is the proportion progressing to CSME. For those with CSME, the
appropriate outcome is the clinical measure of the incidence of moderate visual loss.
(PKC-DRS2 2006, Hauser 2008)
Progression of Diabetic Retinopathy is defined as either:
1. An increase of 2 grades in an individual eye
2. Development of PDR (grade ≥ 61)
The progression must be present on 2 consecutive visits separated by at least 4 months.
Progression of Macular Edema is defined as either:
1. In eyes with central subfield mean thickness (CSMT) measured by OCT < 300 μm at
baseline, the development of CSMT > 300 μm AND and increase of > 50 μm.
2. In eyes with CSMT measured by OCT > 300 μm at baseline, a vision loss of ≥ 15 letters.
VA is measured using the ETDRS protocol. (ETDRS 1991c). The outcome is the development of
moderate visual loss, a decrease in the ability to read 15 letters on this 90 letter scale.
This corresponds to a loss of 3 lines of visual acuity or the doubling of the visual angle
(eg from 20/20 to 20/40).
The progression must be present on 2 consecutive visits separated by at least 4 months.
Sample Size Calculation Metabolic control, baseline retinopathy and diabetes duration are
the only independent predictors of progression to PDR (Porta 2001, Skrivarhaug 2006). A
recent study examining the effect of protein kinase C inhibition on the progression of DR
enrolled subjects a similar spectrum of DR severity as is planned for our study (PKC-DRS
2005). The progression rate over 3 years in the study was 50%, lower than their estimated
64% (ETDRS 1991c). We will use the more conservative estimate of 50% for our sample size
calculation.
We anticipate that 30% of our subjects will have significant ME at the time of randomization
and that 25% of this group will experience moderate visual loss over 3 years. (Klein 1998,
PKC-DRS2 2006, PKC-DRS 2005) Of the anticipated 70% without significant ME at randomization,
25% can be expected to develop ME over 3 years (ETDRS 1985). Since the risk of progression
is 25% whether or not ME is present at entry, our sample size calculation will not be
influenced if the proportions of the recruited population is different than the projected
30:70
This literature analysis suggests that the composite endpoint can be expected to occur in
75% of the control group over 3 years. For conservative purposes, a rate of 65% will be used
for the calculation. We wish to be able to detect a 50% reduction to a rate of 32.5%. For α
= .05 and a power of 80%, 36 eyes (18 subjects) are needed in each group. We plan to recruit
20 subjects for each group (total 40) to allow a dropout of 10%.
Ability to perform study Our rate of donor pancreases suitable for ICT has averaged 1/month
since we began in March 2003 (Thompson 2008). Although 2 pancreases are usually required to
allow a subject to become insulin independent, we have found that the benefits of ICT on
microvascular complications begin after a single islet infusion, whether or not the subject
is able to stop insulin. Therefore, we should be able to have sufficient donors to allow 20
subjects to receive an islet infusion in 2 years. For conservative purposes, to allow for
unexpected events such as a decrease in the availability of donor pancreases, we will allow
3 years for all subjects to be randomized.
Step 1 - Recruitment
It is anticipated that most subjects will be identified during routine-care examinations
with their endocrinologist or ophthalmologist. The Islet Transplant Program will make
ophthalmologists and endocrinologists in British Columbia aware of this study and we believe
that all recruitments will come from these physicians. They will be asked to provide any
subjects who are potentially eligible and express interest with contact information.
Subjects will be able to contact the program by phone (604-875-5997), fax (604-875-5925) or
email (isletlab@interchange.ubc.ca).
Step 2 - Initial Meeting
When a subject has identified themself as being interested in the study, they will be
contacted by phone by the study coordinator and asked to schedule a preliminary meeting with
the PI and study coordinator who will provide further information about the study. At the
end of the meeting they will be given the informed consent document to read and consider.
There is no time limit given for a subject to determine if they wish to enter the study.
Subjects who remain interested will proceed to the next step.
Step 3 - Further Assessment: the components of step 3 occur simultaneously
3a Suitability for ICT Meeting with transplant team to ensure eligibility and that the
subject understands the risks of the transplant procedure and immunosuppression.
3b Intensive medical therapy Subjects to begin intensive insulin management, as with current
program, to ensure that they will be able to comply with this aspect of the study prior to
randomization and after if they are randomized to the medical arm. This is necessary so that
ICT is compared with the best available current treatment. Failure to maintain regular
contact with the nurse-clinicians, perform regular glucose monitoring and to achieve an A1c
< 8.0 by the end of this assessment will be considered a reason to exclude the subject from
the study.
3c Ocular assessment Complete eye examination including 7-field fundus photos, visual acuity
and OCT to confirm eligibility. The photography will be performed by certified photographers
at the Eye Care Centre. These photos will be read by one of the investigators (ISB) locally.
The time to complete step 3 is estimated to be approximately 2 months.
Step 4 Team meeting of the investigators to make a decision about each subject regarding
enrollment in study. Eligible subjects will be asked to sign an informed consent at this
time.
Step 5 Subjects are now considered to be enrolled in the study and will continue intensive
medical management based on the 2008 CDA guidelines. Failure to comply with the requirements
of intensive therapy will disqualify a patient from the study.
Randomization will be in blocks: 8 subjects per block for blood groups A and O and 4
subjects per block for groups B and AB. Eight subjects are chosen for the common blood
groups to make it highly likely that at least 4 would be cross-match negative with a
particular donor and thus eligible to receive the islet infusion from that donor. The
smaller number is used for the less common groups so that they can participate in the study.
All subjects remain on intensive medical therapy until a block is full.
Steps 6 and 7 A completed block is activated. Prior to activation, the subjects
understanding of the trial, willingness to accept the assigned treatment group and
commitment to the follow-up schedule will be confirmed.
Half of these subjects will randomly be assigned to receive and ICT and the other half will
continue with intensive medical therapy for the duration of the study. If the study
demonstrates that ICT is more effective than medical therapy in preventing progression of
diabetic retinopathy, subjects who have not received an ICT as part of this study will be
offered the chance to have an ICT as part of their ongoing care.
The random number sequence will be generated by computer and the numbers placed in numbered,
opaque, sealed envelopes which will be stored in the locked islet transplantation
laboratory. These will be prepared before any subjects have been enrolled. Each numbered,
sealed envelope will contain two additional sealed but unmarked envelopes - one containing a
randomization number for medical treatment and the other for ICT.
Randomization will occur at the time a donor becomes available. The two best matched
subjects for the donor will be identified. This identification requires the agreement of at
least two of the investigators. In the presence of at least 2 investigators, a numbered
envelope will be obtained from the islet lab and opened. The name of one subject will be
written on one of the sealed, unmarked envelopes and the name of the other subject on the
other envelope. Only then will the envelopes be opened to reveal the code. One of these
subjects will then be randomized to receive the ICT and the other will continue medical
therapy.
No new subjects of this blood group will be activated until half have received an ICT and
the other half have been randomized to medical therapy. At this time, another group of
subjects of this blood group will be activated.
Assessment of study outcomes will begin from the time of randomization of each 2 subjects
(one ICT, one medical). A complete ocular assessment will be performed within 1 week of
randomization.
Follow-up Phase
Blinding The subjects and investigators administering the interventions by necessity will be
aware of the treatment allocation. The outcome assessment will be blinded in the following
manner. The eye photographers and technicians performing the photographs and VA testing will
not be aware if the subject has received a transplant. Once collected this information will
be marked with a unique identifier and shipped to the University of Wisconsin Fundus
Photograph Reading Center for analysis. The assessors at the center will have only the
unique identifier number and therefore will not know which treatment the subject is
receiving.
Outcome Assessment Ocular assessment (for complete eye exam, ETDRS best corrected VA, Fundus
photos, OCT) will be performed every 4 months ± 1 month from the time of randomization.
Islet transplantation Islet isolation and transplantation are performed as described
(Warnock 2005). Subjects will receive ≥ 5,000 IE/kg for their initial infusion and are
considered to have received a completed islet transplant when they have received ≥ 12,000
IE/kg in 1 - 3 infusions.
Post-transplantation Care Subjects are followed in the Solid Organ Transplant Clinic at
Vancouver General Hospital as described (Warnock 2005)
Diabetes Management Diabetes care is provided according to the standards recommended in the
Canadian Diabetes Association 2008 Clinical Practice Guidelines. Subjects are followed
closely as described (Warnock 2005)
Duration of Follow-up: 3 years from time the last patient is randomized
Statistical Analysis The unit of analysis is an individual eye. Analysis will be by
intention-to-treat. At the end of the study, the proportion of eyes in each treatment group
that have reached the primary outcome will be compared by Chi-square analysis.
There will be no interim data analysis. The DCCT found that transient early worsening of DR
can occur in the first two years of intensive therapy and that analysis during this time
would provide inaccurate information as to the long-term benefit of treatment that begins to
appear after three years of follow-up (DCCT 1995b).
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Single Group Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Treatment
Status | Clinical Trial | Phase | |
---|---|---|---|
Completed |
NCT03660345 -
PPV With Internal Limiting Membrane Peeling for Treatment-Naïve DME
|
Phase 3 | |
Completed |
NCT03660371 -
ILM Peeling in PDR Patients Undergoing PPV for VH
|
N/A | |
Completed |
NCT03660384 -
Silicone Oil Versus Gas in PDR Patients Undergoing Vitrectomy
|
N/A | |
Completed |
NCT04905459 -
ARDA Software for the Detection of mtmDR
|
||
Active, not recruiting |
NCT04271709 -
Manhattan Vision Screening and Follow-Up Study (NYC-SIGHT)
|
N/A | |
Recruiting |
NCT03713268 -
Intraoperative OCT Guidance of Intraocular Surgery II
|
||
Completed |
NCT05022615 -
Comparing 3 Imaging Systems
|
||
Completed |
NCT00385333 -
Metabolic Mapping to Measure Retinal Metabolism
|
Phase 2 | |
Recruiting |
NCT04101604 -
Biomarkers of Common Eye Diseases
|
||
Completed |
NCT03702374 -
Combined Antioxidant Therapy on Oxidative Stress, Mitochondrial Dysfunction Markers in Diabetic Retinopathy
|
Phase 3 | |
Completed |
NCT01908816 -
An Open-label Extended Clinical Protocol of Ranibizumab to Evaluate Safety and Efficacy in Rare VEGF Driven Ocular Diseases.
|
Phase 3 | |
Completed |
NCT04009980 -
Long-term Retinal Changes After Topical Citicoline Administration in Patients With Mild Signs of Diabetic Retinopathy in Type 1 Diabetes Mellitus.
|
N/A | |
Completed |
NCT02924311 -
Routine Clinical Practice for Use of Intravitreal Aflibercept Treatment in Patients With Diabetic Macular Edema
|
||
Not yet recruiting |
NCT06257082 -
Video-based Patient Education Intervention for Diabetic Eye Screening in Latinx Communities
|
N/A | |
Not yet recruiting |
NCT05452993 -
Screening for Diabetic Retinopathy in Pharmacies With Artificial Intelligence Enhanced Retinophotography
|
N/A | |
Withdrawn |
NCT02812030 -
Aflibercept for Retinopathy in the Real World
|
N/A | |
Completed |
NCT02391558 -
Clinical Evaluation of Noninvasive OCT Angiography Using a Zeiss OCT Prototype to Compare to Fluorescein Angiography
|
N/A | |
Active, not recruiting |
NCT02330042 -
OCT Biomarkers for Diabetic Retinopathy
|
||
Active, not recruiting |
NCT02353923 -
OcuStem Nutritional Supplement in Diabetic Patients With Mild to Moderate Non-proliferative Retinopathy
|
N/A | |
Completed |
NCT02390245 -
Philadelphia Telemedicine Glaucoma Detection and Follow-Up Study
|
N/A |