This information is intended for use by health professionals

1. Name of the medicinal product

ILUVIEN 190 micrograms intravitreal implant in applicator.

2. Qualitative and quantitative composition

Each implant contains 190 micrograms of fluocinolone acetonide.

For a full list of excipients, see Section 6.1.

3. Pharmaceutical form

Intravitreal implant in applicator.

Light brown coloured cylinder, approximately 3.5mm x 0.37mm in size.

Implant applicator with 25 gauge needle.

4. Clinical particulars
4.1 Therapeutic indications

ILUVIEN is indicated for the treatment of vision impairment associated with chronic diabetic macular oedema, considered insufficiently responsive to available therapies (see Section 5.1).

4.2 Posology and method of administration


The recommended dose is one ILUVIEN implant in the affected eye. Administration in both eyes concurrently is not recommended (see Section 4.4).

Each ILUVIEN implant releases fluocinolone acetonide for up to 36 months. An additional implant may be administered after 12 months if the patient experiences decreased vision or an increase in retinal thickness secondary to recurrent or worsening diabetic macular oedema (see Section 5.1).

Retreatments should not be administered unless the potential benefits outweigh the risks.

Only patients who have been insufficiently responsive to prior treatment with laser photocoagulation or other available therapies for diabetic macular oedema should be treated with ILUVIEN.

Paediatric population

There is no relevant use of intravitreally administered fluocinolone acetonide in the paediatric population in diabetic macular oedema (DMO).

Special populations

No dosage adjustments are necessary in elderly patients, or those with renal or hepatic impairment.

Method of administration


Treatment with ILUVIEN is for intravitreal use only and should be administered by an ophthalmologist experienced in intravitreal injections. The intravitreal injection procedure should be carried out under controlled aseptic conditions, which include use of sterile gloves, a sterile drape, and a sterile eyelid speculum (or equivalent). Adequate anaesthesia and a broad-spectrum microbicide should be given prior to the injection.

The injection procedure for ILUVIEN is as follows:

1. Preoperative antibiotic drops may be administered at the discretion of the treating ophthalmologist.

2. Just prior to injection, administer topical anaesthesia over the injection site (inferotemporal quadrant recommended) as one drop followed by either a cotton-tipped applicator soaked in anaesthetic or as subconjunctival administration of adequate anaesthesia.

3. Administer 2-3 drops of adequate topical antiseptic into the lower fornix. The lids may be scrubbed with cotton-tipped applicators soaked with an adequate topical antiseptic. Place a sterile lid speculum. Have the subject look up and apply a cotton-tipped applicator soaked with an adequate antiseptic to the injection site. Allow 30-60 seconds for the topical antiseptic to dry prior to injection of ILUVIEN.

4. The exterior of the tray should not be considered sterile. An assistant (non-sterile) should remove the tray from the carton and examine the tray and lid for damage. If damaged, do not use unit.

If acceptable, the assistant should peel the lid from the tray without touching the interior surface.

5. Visually check through the viewing window of the preloaded applicator to ensure that there is a drug implant inside.

6. Remove the applicator from the tray with sterile gloved hands touching only the sterile surface and applicator.

The protective cap on the needle should not be removed until ILUVIEN is ready to be injected.

Prior to injection, the applicator tip must be kept above the horizontal plane to ensure that the implant is properly positioned within the applicator.

7. To reduce the amount of air administered with the implant, the administration procedure requires two steps. Before injecting the needle in the eye, push the button down and slide it to the first stop (at the curved black marks alongside the button track). At the first stop, release the button and it will move to the UP position. If the button does not rise to the UP position, do not proceed with this unit.

8. Optimal placement of the implant is inferior to the optic disc and posterior to the equator of the eye. Measure 4 millimeters inferotemporal from the limbus with the aid of calipers.

9. Carefully remove the protective cap from the needle and inspect the tip to ensure it is not bent.

10. Gently displace the conjunctiva so that after withdrawing the needle, the conjunctival and scleral needle entry sites will not align. Care should be taken to avoid contact between the needle and the lid margin or lashes. Inject the needle in the eye. To release the implant, while the button is in the UP position, advance the button by sliding it forward to the end of the button track and remove the needle. Note: Ensure that the button reaches the end of the track before removing the needle.

11. Remove the lid speculum and perform indirect ophthalmoscopy to verify placement of the implant, adequate central retinal artery perfusion and absence of any other complications. Scleral depression may enhance visualisation of the implant. Examination should include a check for perfusion of the optic nerve head immediately after the injection. Immediate IOP measurement may be performed at the discretion of the ophthalmologist.

Following the procedure, patients should be monitored for potential complications such as endophthalmitis, increased intraocular pressure, retinal detachments, and vitreous haemorrhages or detachments. Biomicroscopy with tonometry should be performed between two and seven days after the implant injection.

Thereafter it is recommended that patients are monitored at least quarterly for potential complications, due to the extended duration of release of fluocinolone acetonide, of approximately 36 months (see Section 4.4).

4.3 Contraindications

An intravitreal implant with ILUVIEN is contraindicated in the presence of pre-existing glaucoma or active or suspected ocular or periocular infection including most viral diseases of the cornea and conjunctiva, including active epithelial herpes simplex keratitis (dendritic keratitis), vaccinia, varicella, mycobacterial infections, and fungal diseases.

ILUVIEN is contraindicated in patients with hypersensitivity to the active substance or to any of the excipients listed in Section 6.1.

4.4 Special warnings and precautions for use

Intravitreal injections have been associated with endophthalmitis, elevation in intraocular pressure, retinal detachments and vitreous haemorrhages or detachments. Patients should be instructed to report without delay any symptoms suggestive of endophthalmitis. Patient monitoring within two to seven days following the injection may permit early identification and treatment of ocular infection, increase in intraocular pressure or other complication. It is recommended that intra-ocular pressure be monitored at least quarterly thereafter.

Use of intravitreal corticosteroids may cause cataracts, increased intraocular pressure, glaucoma and may increase the risk of secondary infections.

The safety and efficacy of ILUVIEN administered to both eyes concurrently have not been studied. It is recommended that an implant is not administered to both eyes at the same visit. Concurrent treatment of both eyes is not recommended until the patient's systemic and ocular response to the first implant is known (see Section 4.2).

In the FAME studies, 80% of phakic subjects treated with fluocinolone acetonide underwent cataract surgery (See Section 4.8). Phakic patients should be closely monitored for signs of cataract after treatment.

In the FAME studies, 38% of patients treated with fluocinolone acetonide required treatment with IOP-lowering medication (see Section 4.8). Fluocinolone acetonide should be used with caution in patients with high baseline IOP, and IOP must be monitored closely. In the event of IOP increases that do not respond to IOP-lowering medications or IOP-lowering procedures, the ILUVIEN implant can be removed by vitrectomy.

There is limited experience of the effect of fluocinolone acetonide in eyes following vitrectomy. It is likely that drug clearance would be accelerated after vitrectomy, though steady state concentrations are not expected to be affected. This may shorten the duration of action of the implant.

In the FAME studies there were 24% of subjects in the sham treated group who were treated at any time with either anti-coagulant or anti-platelet medications as compared to 27% in the ILUVIEN treated subjects. Subjects treated with ILUVIEN concomitantly or within 30 days of cessation of treatment with anti-coagulant or anti-platelet medications experienced a slightly higher incidence of conjunctival haemorrhage versus the sham treated subjects (0.5% sham and 2.7% ILUVIEN treated). The only other event reported at a higher incidence rate in the ILUVIEN treated subjects was eye operation complication (0% sham and 0.3% ILUVIEN treated).

There is a potential for implants to migrate into the anterior chamber, especially in patients with posterior capsular abnormalities, such as tears. This should be taken into consideration when examining patients complaining of visual disturbance after treatment.

4.5 Interaction with other medicinal products and other forms of interaction

No interaction studies have been performed.

4.6 Fertility, pregnancy and lactation


There are no data from the use of intravitreally administered fluocinolone acetonide in pregnant women. Animal studies are insufficient with respect to the reproductive toxicity of intravitreally administered fluocinolone acetonide (See Section 5.3). Although fluocinolone acetonide is undectable in the systemic circulation after local, intraocular treatment, fluocinolone is nonetheless a potent corticosteroid and even very low levels of systemic exposure may present some risk to the developing foetus. As a precautionary measure it is preferable to avoid the use of ILUVIEN during pregnancy.


Systemically administered fluocinolone acetonide is excreted in breast milk. Although the systemic exposure of the breast-feeding woman to intravitreally administered fluocinolone acetonide is expected to be very low, a decision must be made whether to discontinue breast-feeding or to abstain from ILUVIEN therapy, taking into account the benefit of breast feeding for the child and the benefit of therapy for the woman.


There are no fertility data available. However, effects on either male or female fertility are unlikely since the systemic exposure to fluocinolone acetonide following intravitreal administration is very low.

4.7 Effects on ability to drive and use machines

ILUVIEN has minor influence on the ability to drive and use machines. Patients may experience temporarily reduced vision after administration of ILUVIEN and should refrain from driving or using machines until this has resolved.

4.8 Undesirable effects

Summary of the safety profile

Intravitreally administered fluocinolone acetonide was evaluated in 768 subjects (375 in the 0.2 µg/day/ILUVIEN group; 393 in the 0.5 µg/day group) with diabetic macular oedema across the FAME clinical trials. The most frequently reported adverse drug reactions included cataract operation, cataract and increased intraocular pressure.

In the Phase 3 studies, 38.4% of subjects treated with ILUVIEN required IOP-lowering medication and 4.8% required IOP-lowering surgeries. The use of IOP-lowering medication was similar in subjects who received two or more treatments with ILUVIEN.

Two cases of endophthalmitis were reported in subjects treated with ILUVIEN during the Phase 3 studies. This represents an incidence rate of 0.2% (2 cases divided by 1,022 injections).

While the majority of subjects in the FAME clinical trials received only one implant (see Section 5.1), the long-term safety implications of retention of the non-bioerodable implant inside the eye are not known. In the FAME clinical trials, 3-year data show that events such as cataract, increased intraocular pressure and floaters occurred only slightly more frequently in subjects receiving 2 or more implants. This is considered a function of the increased exposure to the drug rather than an effect of the implant itself. In non-clinical studies, there were no indications of an increase in safety issues other than lens changes in the rabbit eyes with 2-4 implants over 24 months. The implant is made of polyimide and is essentially similar to an intraocular lens haptic; it is therefore expected to remain inert inside the eye.

Tabulated list of adverse events

The following undesirable effects were assessed to be treatment-related and are classified according to the following convention: very common (≥ 1/10); common (≥1/100 to < 1/10); uncommon (≥1/1,000 to < 1/100); rare (≥1/10,000 to < 1/1,000); and very rare (≤ 1/10,000). Within each frequency grouping, undesirable effects are presented in order of decreasing seriousness.

Infections and infestations

Uncommon: endophthalmitis

Nervous system disorders

Uncommon: headache

Eye disorders

Very Common: cataract1, increased intraocular pressure2

Common: glaucoma3, eye pain4, vitreous haemorrhage, conjunctival haemorrhage, blurred vision5, reduced visual acuity, vitreous floaters

Uncommon: retinal vascular occlusion6, optic nerve disorder, maculopathy, optic atrophy, conjunctival ulcer, iris neovascularisation, retinal exudates, vitreous degeneration, vitreous detachment, posterior capsule opacification, iris adhesions, ocular hyperaemia, sclera thinning, eye discharge, eye pruritus

Injury, poisoning and procedural complications

Uncommon: extrusion of implant, implant in line of sight, procedural complication, procedural pain

Surgical and medical procedures

Very Common: cataract operation

Common: trabeculectomy, glaucoma surgery, vitrectomy, trabeculoplasty

Uncommon: removal of extruded implant from sclera

General disorders and administration site conditions

Uncommon: Device dislocation

1 Includes MedDRA terms for cataract (NOS), cataract subcapsular, cataract cortical, cataract nuclear and cataract diabetic.

2 Includes MedDRA terms for intraocular pressure increased and ocular hypertension.

3 Includes MedDRA terms for glaucoma, open angle glaucoma, borderline glaucoma, optic nerve cupping and optic nerve cup/disc ratio increased.

4 Includes MedDRA terms for eye pain, eye irritation and ocular discomfort.

5 Includes MedDRA terms for vision blurred and visual impairment.

6 Includes MedDRA terms for retinal vein occlusion, retinal artery occlusion and retinal vascular occlusion

Description of selected adverse reactions

The long-term use of corticosteroids may cause cataracts and increased intraocular pressure. The frequencies stated below reflect the findings in all patients in the FAME studies. The observed frequencies in patients with chronic DMO were not significantly different to those in the overall population.

The incidence of cataract in phakic subjects was approximately 82% in ILUVIEN treated subjects and 50% in sham treated subjects in the Phase 3 clinical trials. 80% of phakic subjects treated with ILUVIEN required cataract surgery by Year 3 compared to 27% of the sham treated subjects, with most subjects requiring surgery by 21 months. Posterior subcapsular cataract is the most common type of corticosteroid -related cataract. Surgery for this type of cataract is more difficult and may be associated with greater risk of surgical complications.

In the FAME studies subjects with a baseline IOP of > 21 mm Hg were excluded. The incidence of increased intraocular pressure was 37%, and 38% of subjects required IOP-lowering medication, with half of these requiring at least two medications to control the IOP. The use of IOP-lowering medication was similar in subjects who received retreatment with an additional implant during the study. Additionally, 5.6% (21/375) of subjects who received an implant required a surgical or laser procedure to control the IOP (trabeculoplasty 5 (1.3%), trabeculectomy 10 (2.7%), endocycloablation 2 (0.5%), and other surgical procedures 6 (1.6%)).

In the subset of subjects with greater than median IOP at baseline (≥15 mmHg), 47% required IOP-lowering medication and the proportion of surgical or laser procedures increased to 7.1%. In this subset, there were 5 (2.2%) subjects treated with trabeculoplasty, 7 (3.1%) with trabeculectomy, 2 (0.9%) with endocycloablation and 4 (1.8%) with other glaucoma surgical procedures.

Reporting of suspected adverse reactions

Reporting suspected adverse reactions after authorisation of the medicinal product is important. It allows continued monitoring of the benefit/risk balance of the medicinal product. Healthcare professionals are asked to report any suspected adverse reactions via the national reporting system: Yellow Card Scheme, Website:

4.9 Overdose

No case of overdose has been reported.

5. Pharmacological properties
5.1 Pharmacodynamic properties

Pharmacotherapeutic group: ANTIINFLAMMATORY AGENTS, corticosteroids, plain

ATC code: S01BA15

Corticosteroids inhibit the inflammatory response to a variety of inciting agents. They inhibit the oedema, fibrin deposition, capillary dilation, leukocyte migration, capillary proliferation, fibroblast proliferation, deposition of collagen, and scar formation associated with inflammation.

Corticosteroids are thought to act by the induction of phospholipase A inhibitory proteins, collectively called lipocortins. It is postulated that these proteins control the biosynthesis of potent mediators of inflammation such as prostaglandins and leukotrienes by inhibiting the release of the common precursor arachidonic acid. Arachidonic acid is released from membrane phospholipids by phospholipase A2. Corticosteroids have also been shown to reduce levels of vascular endothelial growth factor, a protein which increases vascular permeability and causes oedema.

The efficacy of ILUVIEN was assessed in two randomized, multicenter, double-masked, parallel studies enrolling subjects with diabetic macular oedema who had previously been treated with laser photocoagulation at least once, each involving three years of follow-up. There were 74.4% of subjects treated with 1 implant, 21.6% with 2 implants, 3.5% with 3 implants and 0.5% with 4 implants and 0% > 4 implants). The primary efficacy endpoint in both trials was the proportion of subjects whose vision improved by 15 letters or greater after 24 months. In each of these trials, the primary endpoint was met for ILUVIEN (see Figure 1 for the integrated results of the primary efficacy endpoint).

Figure 1: Percentage of Subjects with ≥ 15 Letter Improvement Over Baseline, Integrated FAME Studies

When efficacy was assessed as a function of duration of disease, those subjects with a duration of DMO greater than the median (≥3 years) had a significant beneficial response to ILUVIEN, whilst those with shorter duration DMO did not show an additional benefit over control treatment with regard to visual improvement (Figures 2 and 3). These subgroup data support the indication in Section 4.1, of use in patients with chronic DMO (ie, duration of at least 3 years).

Figure 2: Comparison of Percent of Subjects with ≥15 letter Improvement from Baseline BCVA and Mean Change from Baseline Excess Center Point Thickness by Duration of DMO Subgroup ≥ 3 years

Figure 3: Comparison of Mean Change from Baseline Excess Center Point Thickness and Percent of Subjects with ≥15 letter Improvement from Baseline BCVA by Duration of DMO Subgroup < 3 years

The European Medicines Agency has waived the obligation to submit results of studies with intravitreally administered fluocinolone acetonide in all subsets of the paediatric population for the treatment of diabetic macular oedema. See Section 4.2 for information on paediatric use.

5.2 Pharmacokinetic properties

In a human pharmacokinetic study (C-01-06-002, the FAMOUS Study) fluocinolone acetonide concentrations in plasma were below the lower limit of quantitation of the assay (100 pg/mL) at all time points from Day 1 through Month 36. The maximal aqueous humor fluocinolone acetonide concentrations were observed on Day 7 for most of the subjects. Aqueous humor fluocinolone acetonide concentrations decreased over the first 3−6 months and remained essentially the same through Month 36 for subjects who were not retreated. Subjects who were retreated experienced a second fluocinolone acetonide peak concentration similar to that following the initial dose. After retreatment, aqueous humor concentrations of fluocinolone acetonide returned to levels approximately similar to those observed at the time of first treatment.

Figure 4: FA Levels in Human Aqueous Humor in Subjects Receiving 1 ILUVIEN Implant (FAMOUS Study)

5.3 Preclinical safety data

Fluocinolone acetonide has been shown to be teratogenic in mice and rabbits following systemic administration. No mutagenicity, carcinogenicity or developmental toxicity data are available for intravitreally administered fluocinolone acetonide. However, intravitreally administered fluocinolone acetonide was not detectable systemically and thus no systemic effects are anticipated.

Local effects (focal degenerative lesions affecting fibers in the posterior polar and posterior cortical regions of the lens) were observed in rabbits at doses of intravitreal fluocinolone acetonide in excess of the clinically used dose. Local effects (focal retinal scarring) were also seen in rabbits treated with both placebo and fluocinolone acetonide containing device. This scarring was not seen clinically in humans and is postulated to be due to anatomical differences between the rabbit and human eye.

6. Pharmaceutical particulars
6.1 List of excipients

Polyvinyl alcohol

Polyimide tube

Silicone adhesive

6.2 Incompatibilities

Not applicable.

6.3 Shelf life

2 years

After first opening the lid, use immediately.

6.4 Special precautions for storage

Store below 30°C. Do not refrigerate or freeze.

Do not open the sealed tray until just before application.

6.5 Nature and contents of container

The implant is supplied in a single use applicator with a 25 gauge needle. Each sterile applicator contains a light brown 3.5 mm long cylindrical implant. The applicator is packaged in a plastic tray sealed with a lid.

6.6 Special precautions for disposal and other handling

Dispose of the applicator safely in a biohazard sharps container.

Any unused product or waste material should be disposed of in accordance with local requirements.

7. Marketing authorisation holder

Alimera Sciences Limited

Royal Pavilion

Wellesley Road



GU11 1PZ

United Kingdom

8. Marketing authorisation number(s)

PL 41472/0001

9. Date of first authorisation/renewal of the authorisation


10. Date of revision of the text