Diabetic Retinopathy Clinical Trial
Official title:
The Safety and Tolerability of Intravitreal Adalimumab in Patients With Refractory Diabetic Macular Retinopathy or Choroidal Neovascularization or Uveitis: A Pilot Study
Direct intravitreal administration of medication is the preferred method of treatment for uveitis and retinal vascular disorders. The eye is a self contained organ relatively isolated from the systemic circulation by the tight blood retinal barrier. Effective intraocular drug levels can be achieved with a much smaller amount of medication if injected intravitreally and this also results in minimal systemic exposure to the patient. Preliminary studies have shown that adalimumab may have a positive role in the management of uveitis in humans and can be an effective treatment intravitreally in animal models. No data has been published yet on intravitreal use of adalimumab in human subjects.
Abstract Purpose: Our aim is study to determine the efficacy and safety of intravitreal
adalimumab in patients with active vision threatening uveitis, diabetic macular edema (DME)
and choroidal neovascularization (CNV) despite standard treatment and to ensure its safety
in intravitreal use in humans and its rapid onset of action.
Design: Pilot study, Non-Randomized, Open Label, Single Group Assignment, Safety Study.
Participants: 15 eyes with refractory CNV, DME, or uveitis will be injected with
intravitreal adalimumab on a 3 week interval. Patients will satisfy the inclusion and
exclusion criteria listed at the end.
Methods: Initial treatment will consist of intravitreal adalimumab injection (1.5 mg/ 0.03
mL) in the eyes of patients with refractory CNV, DME, or uveitis and with visual acuity less
than or equal to 20/70. Patients will be followed up every 3 weeks for a total of 6 weeks.
Patients will have a baseline best-corrected visual acuity (BCVA), slit lamp examination,
dilated fundus examination, ocular coherence tomography (OCT), fluorescein angiography
(F.A), and standard electroretinogram (ERG) and then these studies will be repeated every
visit. If there is stabilization or improvement in visual acuity, decrease in edema on OCT
and leakage on F.A after the first injection, then further injections will be given. The
injection will be delayed if a patient develops an acute systemic infection and will be
given when it subsides. If there is worsening of visual acuity after the first injection,
patients will be shifted to the traditional treatment with intravitreal Avastin or
intravitreal steroids. The paired sample Student t- test, Chi-square test, Pearson
correlation and ANOVA will be used to analyze the mean visual acuity and central retinal
thickness before and after treatment.
Main outcome measures: to study the response to intravitreal adalimumab injection of
patients with different visual acuity at baseline measured in terms of improvement in visual
acuity, shrinkage in central retinal thickness, reduction in fluid leakage, and decrease in
the active inflammatory uveitis.
Conclusion: Our goal is to study the efficacy and intraocular safety of intravitreal
adalimumab in the treatment of refractory CNV, DME, or uveitis.
Background and Significance Inflammatory mediators are involved in the pathogenesis of
diabetic retinopathy, choroidal neovascularization and uveitis. Owing to the propensity for
visual loss, immunosuppressive treatment in the form of systemic and/or local therapy is
often required for the management of cystoids macular edema from posterior uveitis, diabetes
or age-related macular degeneration. There have been changes in the management of these
conditions over the last few years, with immunomodulatory agents and new intraocular
delivery systems. After the new trend of intravitreal corticosteroid and anti-VEGF, the new
wave of so-called biologic response modifiers, predominantly monoclonal antibodies directed
against inflammatory mediators or their receptors, but also some cytokines, represent a very
promising generation of immunomodulating agents. There is rising evidence that these
biologic drugs might be superior regarding their anti-inflammatory potential to conventional
immunosuppressive therapies. Unfortunately, these new drugs are also very expensive so far.
The yearly cost for a regular weight patient is around 20,000 dollars for Adalimumab or
Infliximab. Therefore, they may not be universally available in countries with poorly funded
health systems and for individuals with low economic status.
Intravitreal injections of anti-VEGF and corticosteroids are currently the standard therapy
in a multitude of retinal diseases such as choroidal neovascularization, diabetic
maculopathy, proliferative diabetic retinopathy, and uveitis. However many patients respond
only partially or develop complications like corticosteroid induced glaucoma or cataract. As
such, we are looking for safe new therapies for various chorioretinal disorders aiming at
visual improvement.
Adalimumab (Humira) is a genetically engineered antibody against a proinflammatory cytokine,
namely, tumor necrosis factor alpha (TNF-α). Adalimumab is the first member of a new class
of TNF antibody compounds developed to contain exclusively human sequences. Adalimumab (ADA)
is a subcutaneously (SC) self-administered fully human Ig G1 monoclonal antibody directed
against tumor necrosis factor alpha (TNFα) which will be used intravitreally.
We do not know if adalimumab injections into the eye are effective and safe in most people.
We are performing this pilot study to determine its efficacy and safety in patients with
active vision threatening uveitis despite standard immunosuppressive therapy.
Unlike infliximab, adalimumab contains no nonhuman sequences, making it indistinguishable in
structure and function from naturally occurring human IgG1. Unlike infliximab, allergic
reactions to adalimumab appear to be rare.
Subcutaneous Adalimumab is currently used for the treatment of systemic inflammatory
conditions and inflammatory disease of the eye with a relatively favorable safety profile.
However, systemic administration carries the risk of systemic side effects, which in the
case of adalimumab can be severe, such as increased risk of infection, reactivation of
tuberculosis or increased risk for lymphoma.
Intravitreal injection of Adalimumab The eye to be treated will be prepared with 5%
povidone-iodine solution after which 1% lidocaine will be administered as a subconjunctival
injection about 3 to 4 mm from the limbus to form a small bleb where the intravitreal
injection will be given. Following that, 0.03ml of adalimumab will be injected
intravitreally using a 30 gauge needle through the pars plana 3.5 mm from the limbus. Twenty
minutes after the injection, a paracentesis will be performed in case the intraocular
pressure was greater than 25 mmHg or if the optic nerve head was not adequately perfused. By
the end of the procedure, the eyes will be covered by a patch for one day after which
topical antibiotics (Ciloxan) will be applied 3 times per day for 3 days.
Potential risks Intravitreal adalimumab have never been tried but as any intravitreal
intervention, the risks of anti-VEGF therapy consist of local complications including
endophthalmitis (0.16% per injection), retinal detachment (0.08% per injection), cataract
(0.07% per injection), subconjuntival hemorrhage mainly related to the size of the needle
used, and uveitis (0.09% per injection). Systemic administration carries the risk of
systemic side effects, which in the case of adalimumab can be severe, such as increased risk
of infection, reactivation of tuberculosis or increased risk for lymphoma. However, because
the eye is a self contained organ relatively isolated from the systemic circulation by the
tight blood retinal barrier, it is unknown how much the amount of the drug injected
intravitreally gets reabsorbed systemically.
Post-injection follow-up Patients will be examined every 3 weeks to measure the BCVA along
with slit-lamp examination of the anterior segment, dilated fundus examination, OCT, F.A,
and ERG. If any of the patients develops a decrease in visual acuity at least five letters
of vision post first injection, he/she will be shifted to the traditional treatment with
intravitreal avastin or intravitreal steroids. Else, if the vision is stable, patients will
continue treatment
The total follow-up period of every patient will be 6 weeks.
Main outcome Our goal is to study the efficacy and intraocular safety of intravitreal
adalimumab in the treatment of refractory CNV, DME, or uveitis and to ensure its rapid onset
of action. The main outcome measure will be the proportion of patients who lose fewer than
15 letters (3 lines) in BCVA score at 6 weeks compared with baseline. Secondary visual
acuity endpoints at 6 weeks include 1) mean change from baseline in BCVA score; 2) the
proportion of patients who gain ≥15 letters in BCVA; and 3) the proportion of patients with
a Snellen visual acuity of 20/70 or worse compared with baseline. Other secondary endpoints
include the effect of adalimumab on the central retinal thickness (CRT) as assessed by OCT
and on the lesion size assessed by F.A.
Literature Cited 1-Intravitreal Adalimumab
1A- Manzano et al evaluated the ocular toxicity of escalating doses of intravitreous
adalimumab (Humira) in the rabbit eye. Slit-lamp biomicroscopy and fundoscopy were carried
out at baseline, day 1, 7 and 14 following intravitreous injection. Escalating doses of
intravitreous adalimumab in rabbit eyes caused no detectable functional or structural ocular
toxicity up to a dose of 0.50 mg. Administration of 1.0 mg in 0.1 ml was associated with an
inflammatory reaction. (Manzano RP et al Ocular toxicity of intravitreous adalimumab
(Humira) in the rabbit. Graefes Arch Clin Exp Ophthalmol. 2008 Jun;246(6):907-11).
1B- Use of intravitreal etanercept, another TNF antagonist in humans, with improvement in
vision in diabetic macular edema (Tsilimbaris MK,et al. The use of intravitreal etanercept
in diabetic macular oedema Semin Ophthalmol 2007 Apr-Jun;22(2):75-9).
1C-Intravitreal Administration of the Anti-Tumor Necrosis Factor Agent Infliximab for
Neovascular Age-related Macular Degeneration.Theodossiadis PG, Liarakos VS, Sfikakis PP,
Vergados IA, Theodossiadis GP.Am J Ophthalmol. 2009 Feb 9. [Epub ahead of print]
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Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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