Effectiveness of Intravitreal Injection of Aflibercept 8 mg in Resistant Diabetic Macular Edema, Retinal Vein Occlusion and Myopic Choroidal Neovascularisation Patients

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

NOT_YET_RECRUITING

Clinical Phase

EARLY_PHASE1

Total Enrollment

60 participants

Study Classification

INTERVENTIONAL

Study Start Date

2025-10-19

Study Completion Date

2025-12-19

Brief Summary

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Generally, DM is caused by insufficient insulin secretion in the body; however, the other biological mechanisms remain unclear. Long-term illness in patients with DM damages various organs in the body, such as the eyes, kidneys, and heart, seriously affecting organ function. Nowadays, the quality of life of people has improved significantly, eating habits have changed, sugar intake is increasing, and the number of patients with DM is increasing. Statistics show that in 2017, the number of patients with DM worldwide reached 425 million (aged 20-79 years), which will exceed 600 million in 30 years; moreover, patients in low- and middle-income countries, such as China and India, account for 80 percent of the total DM population (1). According to the WHO, patients with DM worldwide increased to 366 million in 2011, which is expected to increase to 500 million in 2025, with more than 150 million patients experiencing ocular complications, such as diabetic retinopathy (DR) (2, 3). DR is a form of ocular microangiopathy and the most serious DM-related complication; it seriously endangers the health of patients with DM (4). DR pathogenesis includes increased endothelial cells in the eye capillaries, increased intimal thickness, damaged pericytes, microangioma, and damaged blood-retina barrier due to increased permeability of the blood vessels, microvascular obstruction, and neovascularization (NV) (5, 6). Currently, the prevalence of DR is 34.6% worldwide; however, it is higher in some developed countries, reaching 40.3% (7). The proportion of patients with type 1 and 2 DM suffering from blindness due to DR is 3.6% and 1.6%, respectively (8). DR is associated with significantly reduced living standards, huge medical costs, and increased social burden (9, 10).

Many anti-vascular endothelial growth factor (VEGF) drugs exist; however, the use of therapeutic drugs is strictly controlled. The main drugs recommended for treating DM-related visual complications are ranibizumab and aflibercept.

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Detailed Description

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Study design: This prospective interventional case study will be conducted on 60 eyes of 60 patients with resistant centrally involved diabetic macular edema following at least 3 doses of anti\_VEGF therapy including cases receive previous injection of ranibzumab and aflibercept 2 mg.

All procedures were carried out under the tenets of the Helsinki Declaration. Written consent was provided by all participants after discussing the procedure, alternative treatment plans, follow-up schedules, and possible benefits and risks.

Participants: This study included resistant centrally involved diabetic macular edema (DME) cases Patients with a history of intraocular surgery, coincident retinal pathology such as retinal vascular occlusion, CNV due to age-related macular degeneration, angioid streaks, trauma, and choroiditis were excluded from the study. In addition, patients who received other lines of treatment for DME, such as laser photocoagulation, intravitreal injecrion of steroids and patients known to be glaucomatous or have an IOP ≥20 mmHg were also excluded.

Furthermore, patients with other retinal pathologies, such as prior ocular inflammation, retinal degeneration, and dense media opacity, including nuclear sclerosis, and those who did not complete 1 year of follow-up were not enrolled in the present study.

A thorough ophthalmic evaluation, including a BCVA test using a Snellen chart that was converted to LogMAR for statistical analysis, IOP measurements using applanation tonometry, an anterior segment examination using a slit lamp, a posterior segment examination by slit lamp bimicroscopy using a +78 D lens, and indirect ophthalmoscopy, was performed for all patients. Spectral-domain OCT (Topcon 3D Optical Coherence Tomography) was performed for all patients at baseline and at the postoperative first-month visit and then monthly for 1 year.

Surgical procedure:

Preoperative preparation: Patients were prepared by applying topical fluoroquinolone eye drops (moxifloxacin hydrochloride 0.5% Vigamox, Alcon, USA) 4 times daily for three days before injection.

Procedure: The intravitreal injection was carried out in the operating room under complete aseptic techniques with an operating microscope. After the topical application of anaesthetic drops (benoxinate hydrochloride 0.4%, Benox, Epico, Egypt) to the ocular surface followed by the topical application of 10% povidone-iodine (Betadine) to the periocular area, lids and eye lashes, 5% povidone iodine was administered inside the conjunctival sac for three minutes before the intravitreal injection. 0.07 ml of aflibercept (8 mg) was injected into the vitreous cavity in the inferotemporal quadrant of the globe using a 30-gauge needle 4 mm from the limbus.

Postoperative care: After injection, topical antibiotic drops (moxifloxacin hydrochloride 0.5% Vigamox, Alcon, USA) were applied, and the eye was patched for several hours. Patients were instructed to administer antibiotic drops four times daily for 3 days. Patients were examined the following day and the third day after injection to exclude any complications, such as an elevated IOP, endophthalmitis, retinal breaks, retinal detachment and vitreous hemorrhage. All patients were followed up at 4-week intervals after the first injection. At each visit, a thorough ophthalmic examination and SD-OCT were performed. Pro re nata (PRN) regimen was followed in this study, in which an additional intravitreal injection will be given monthly if no improvement in or stabilization of best corrected visual acuity (improvement by more than one line in the Snellen chart) and/or persistent neurosensory detachment was detected on SD-OCT.

Conditions

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Diabetic Macular Edema (DME) Retinal Vein Occlusion (RVO) Myopic Choroidal Neovascularisation

Study Design

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Allocation Method

NA

Intervention Model

SINGLE_GROUP

Primary Study Purpose

TREATMENT

Blinding Strategy

NONE

Study Groups

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60 eyes of resistant diabetic macular edema

This prospective interventional case study will be conducted on 60 eyes of 60 patients with resistant centrally involved diabetic macular edema following at least 3 doses of anti\_VEGF therapy including cases receive previous injection of ranibzumab and aflibercept 2 mg.

All procedures were carried out under the tenets of the Helsinki Declaration. Written consent was provided by all participants after discussing the procedure, alternative treatment plans, follow-up schedules, and possible benefits and risks.

Participants: This study included resistant centrally involved diabetic macular edema (DME) cases

Group Type EXPERIMENTAL

Intravitreal injection of aflibercept 8 mg

Intervention Type DRUG

Preoperative preparation: Patients were prepared by applying topical fluoroquinolone eye drops (moxifloxacin hydrochloride 0.5% Vigamox, Alcon, USA) 4 times daily for three days before injection.

Procedure: The intravitreal injection was carried out in the operating room under complete aseptic techniques with an operating microscope. After the topical application of anaesthetic drops (benoxinate hydrochloride 0.4%, Benox, Epico, Egypt) to the ocular surface followed by the topical application of 10% povidone-iodine (Betadine) to the periocular area, lids and eye lashes, 5% povidone iodine was administered inside the conjunctival sac for three minutes before the intravitreal injection. 0.07 ml of aflibercept (8 mg) was injected into the vitreous cavity in the inferotemporal quadrant of the globe using a 30-gauge needle 4 mm from the limbus.

Postoperative care: After injection, topical antibiotic drops (moxifloxacin hydrochloride 0.5% Vigamox, Alcon, USA) were applied, and the eye was

Interventions

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Intravitreal injection of aflibercept 8 mg

Preoperative preparation: Patients were prepared by applying topical fluoroquinolone eye drops (moxifloxacin hydrochloride 0.5% Vigamox, Alcon, USA) 4 times daily for three days before injection.

Procedure: The intravitreal injection was carried out in the operating room under complete aseptic techniques with an operating microscope. After the topical application of anaesthetic drops (benoxinate hydrochloride 0.4%, Benox, Epico, Egypt) to the ocular surface followed by the topical application of 10% povidone-iodine (Betadine) to the periocular area, lids and eye lashes, 5% povidone iodine was administered inside the conjunctival sac for three minutes before the intravitreal injection. 0.07 ml of aflibercept (8 mg) was injected into the vitreous cavity in the inferotemporal quadrant of the globe using a 30-gauge needle 4 mm from the limbus.

Postoperative care: After injection, topical antibiotic drops (moxifloxacin hydrochloride 0.5% Vigamox, Alcon, USA) were applied, and the eye was

Intervention Type DRUG

Eligibility Criteria

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Inclusion Criteria

This study included resistant centrally involved diabetic macular edema (DME) cases

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Exclusion Criteria

1. Patients with a history of intraocular surgery
2. coincident retinal pathology such as retinal vascular occlusion, CNV due to age-related macular degeneration, angioid streaks, trauma, and choroiditis were excluded from the study.
3. patients who received other lines of treatment for DME, such as laser photocoagulation, intravitreal injection of steroids
4. patients known to be glaucomatous or have an IOP ≥20 mmHg were also excluded.

\-

Minimum Eligible Age

20 Years

Maximum Eligible Age

60 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

Yes