Macugen 0.3 mg solution for injection
A single dose pre-filled syringe delivers 1.65 mg pegaptanib sodium, corresponding to 0.3 mg of the free acid form of the oligonucleotide, in a nominal volume of 90 microlitres. For a full list excipients, see section 6.1.
Solution for injection (injection). The solution is clear and colourless.
Macugen is indicated for the treatment of neovascular (wet) age-related macular degeneration (AMD) in adults (see section 5.1).
Macugen should only be administered by ophthalmologists experienced in intravitreal injections. Posology The patient's medical history for hypersensitivity reactions should be carefully evaluated prior to performing the intravitreal procedure (see section 4.4). Macugen 0.3 mg should be administered once every six weeks (9 injections per year) by intravitreal injection into the affected eye. Following the injection, transient increases in intraocular pressure were seen in Macugen treated patients. Therefore, the perfusion of the optic nerve head and intraocular pressure should be monitored. Moreover patients should be closely monitored for vitreous haemorrhage and endophthalmitis in the two weeks following the injection. Patients should be instructed to report any symptoms suggestive of these conditions without delay (see section 4.4). After 2 consecutive injections of Macugen, if a patient does not demonstrate a treatment benefit (loss of less than 15 letters of visual acuity) at the 12-week visit, consideration should be given to stopping or withholding Macugen therapy.
Special populations
Elderly
No special considerations are needed.
Hepatic impairment
Macugen has not been studied in patients with hepatic impairment. However, no special considerations are needed in this population (see section 5.2)
Renal impairment
Macugen has not been adequately studied in patients with severe renal impairment, however dose adjustments are not recommended in patients with mild or moderate renal impairment (see section 5.2).
Gender
No special considerations are needed.
Paediatric population
The safety and efficacy of Macugen in children under 18 years has not yet been established. No data are available.
Method of administration
For intravitreal injection use only. Macugen should be inspected visually for particulate matter and discoloration prior to administration (see section 6.6). The injection procedure should be carried out under aseptic conditions, which includes the use of surgical hand disinfection, sterile gloves, a sterile drape and a sterile eyelid speculum (or equivalent) and the availability of sterile paracentesis (if required). Adequate anaesthesia and a broad-spectrum topical microbicide should be administered prior to the injection. CAUTION: the pre-filled syringe is supplied with an excess product volume. See section 6.6 for instructions to expel the excess volume before injection.
Hypersensitivity to the active substance or to any of the excipients. Active or suspected ocular or periocular infection.
As expected with intravitreal injections, transient increases in intraocular pressure may be seen. Therefore, the perfusion of the optic nerve head should be verified and elevation of intraocular pressure should be managed appropriately post injection. A post marketing observational study has also reported on a small risk of slow sustained increase in intraocular pressure (see section 4.8). Immediate (on the day of injection) and delayed intravitreous haemorrhages may occur following pegaptanib injections (see section 4.2). Intravitreal injection procedures are associated with a risk of endophthalmitis; in Macugen clinical trials, the incidence of endophthalmitis was 0.1% per injection (see section 4.2). Cases of anaphylaxis/anaphylactoid reactions, including angioedema, have been observed within several hours after the pegaptanib intravitreal administration procedure in the post-marketing experience. A direct relationship to Macugen or any of the various treatments administered as part of the injection preparation procedure, or to other factors has not been established in these cases. Note: Injection of the entire volume of the pre-filled syringe could result in serious adverse events; therefore, the excess volume must be expelled before injection (see sections 4.8 and 6.6).
Drug interaction studies have not been conducted with Macugen. Pegaptanib is metabolised by nucleases and therefore cytochrome P450 mediated drug interactions are unlikely. Two early clinical studies conducted in patients who received Macugen alone and in combination with PDT (photodynamic therapy) revealed no apparent difference in the plasma pharmacokinetics of pegaptanib.
Pregnancy
Pegaptanib has not been studied in pregnant women. Animal studies are insufficient, but have shown reproductive toxicity at high systemic exposure levels (see section 5.3). The potential risk to humans is unknown. The systemic exposure to pegaptanib is expected to be very low after ocular administration. Nevertheless, Macugen should be used during pregnancy only if the potential benefit to the mother justifies the potential risk to the foetus.
Breast-feeding
It is not known whether Macugen is excreted in human milk. Macugen is not recommended during breast-feeding.
Patients may experience temporary visual blurring after receiving Macugen by intravitreal injection. These after effects of the intravitreal injection may have a minor influence on the ability to drive and use machines. They should not drive or use machines until this has resolved
Macugen was administered to 892 patients in controlled studies for one year (total number of injections = 7545, mean number of injections/patient = 8.5) at doses of 0.3, 1.0 and 3.0 mg. All three doses shared a similar safety profile. In the 295 patients who were treated with the recommended dose of 0.3 mg for one year (total number of injections = 2478, mean number of injections/patient = 8.4), 84% of the patients experienced an adverse event attributed by the investigators as being related to the injection procedure, 3% of the patients experienced a Serious Adverse Event potentially related to the injection procedure, and 1% experienced an adverse event potentially related to the injection procedure that led to study treatment discontinuation. Twenty seven percent (27%) of the patients experienced an adverse reaction. Two patients (0.7%) experienced serious adverse reactions; one of these patients had an aortic aneurysm; the other had a retinal detachment and retinal haemorrhage, which led to discontinuation of treatment. Three hundred seventy four (374) patients received continuous treatment with Macugen for up to years (128 at 0.3 mg, 126 at 1 mg, and 120 at 3 mg). The overall safety data were consistent with the Year 1 safety data, and no new safety signals emerged. In the 128 patients who were treated with the recommended dose of 0.3 mg for up to 2 years (total number of injections in second year = 913, mean number of injections in the second year = 6.9), there was no evidence of increased in frequency of adverse reactions compared to those seen during the first year. Serious ocular adverse reactions reported in Macugen treated patients included endophthalmitis (12 cases, 1%), retinal haemorrhage (3 cases, < 1%), vitreous haemorrhage (2 cases, < 1%) and retinal detachment (4 cases, < 1%). The safety data described below summarise all procedure and adverse reactions in the 295 patients in the 0.3 mg treatment group. The adverse reactions are listed by system organ class and frequency (very common (>=1/10), common (>=1/100 and <1/10), and uncommon (>=1/1,000 and <1/100), not known (cannot be estimated from the available data)). Reports from post-marketing experience are included in italics.
MedDRA system organ class Adverse reaction Immune system disorders
Not known anaphylactic reaction *
Psychiatric disorders
Uncommon nightmare, depression
Nervous system disorders
Common headache
Eye disorders
Very common anterior chamber inflammation, eye pain, increased intraocular pressure, punctate keratitis, vitreous floaters and vitreous opacities Common abnormal sensation in eye, cataract, conjunctival haemorrhage, conjunctival hyperaemia, conjunctival oedema, conjunctivitis, corneal dystrophy, corneal epithelium defect, corneal epithelium disorder, corneal oedema, dry eye, endophthalmitis, eye discharge, eye inflammation, eye irritation, eye pruritus, eye redness, eye swelling, eyelid oedema, lacrimation increased, macular degeneration, mydriasis, ocular discomfort, ocular hypertension, periorbital haematoma, photophobia, photopsia, retinal haemorrhage, vision blurred, visual acuity reduced, visual disturbance, vitreous detachment, and vitreous disorder Uncommon asthenopia, blepharitis, conjunctivitis allergic, corneal deposits, eye haemorrhage, eyelids pruritus, keratitis, vitreous haemorrhage, pupillary reflex impaired, corneal abrasion, retinal exudates, eyelid ptosis, retinal scar, chalazion, corneal erosion, decreased intraocular pressure, injection site reaction, injection site vesicles, retinal detachment, corneal disorder, retinal artery occlusion, retinal tear, ectropion, eye movement disorder, eyelid irritation, hyphaema, pupillary disorder, iris disorder, ocular icterus, anterior uveitis, deposit eye, iritis, optic nerve cupping, pupillary deformity, retinal vein occlusion, and vitreous prolapse
Ear and labyrinth disorders
Uncommon deafness, Meniere's disease aggravated, vertigo
Cardiac disorders
Uncommon palpitations
Vascular disorders
Uncommon hypertension, aortic aneurysm
Respiratory, thoracic and mediastinal disorders
Common rhinorrhea Uncommon nasopharyngitis
Gastrointestinal disorders
Uncommon vomiting, dyspepsia
Skin and subcutaneous tissue disorders
Uncommon contact dermatitis, eczema, hair colour changes, rash, pruritus, night sweats Not known Angiodema *
Musculoskeletal and connective tissue disorders
Uncommon Back pain
General disorders and administration site conditions
Uncommon fatigue, rigors, tenderness, chest pain, influenza like illness
Investigations
Uncommon increased gamma-glutamyltransferase activity
Injury, poisoning and procedural complications
Uncommon abrasion
* Post-marketing experience:
Cases of anaphylaxis/anaphylactoid reactions, including angioedema, have been reported in patients within several hours after administration of pegaptanib along with various medicinal products administered as part of the injection preparation procedure (see sections 4.2 and 4.4). Cases of serious increase in intraocular pressure have been reported when the excess volume in the pre-filled syringe was not expelled before injection. Sustained small increases in intraocular pressure (IOP) have also been reported after repeated intravitreal dosing in a post marketing observational study. The odds of increased IOP was increased by a factor of 1.128 for each additional injection (p= 0.0003). No statistical difference was found in the incidence of increased IOP between patients with a history of increased IOP or glaucoma versus patients without.
Overdose with Macugen has not been reported in clinical trials and is considered unlikely as it would require multiple injections. There is therefore no data on acute symptoms, signs or sequalae associated with overdose.
Pharmacotherapeutic group: Ophthalmologicals, Ocular vascular disorder agents, ATC Code S01LA03.
Mechanism of action
Pegaptanib is a pegylated modified oligonucleotide that binds with high specificity and affinity to extracellular Vascular Endothelial Growth Factor (VEGF165) inhibiting its activity. VEGF is a secreted protein that induces angiogenesis, vascular permeability and inflammation, all of which are thought to contribute to the progression of the neovascular (wet) form of AMD.
Pharmacodynamic effects
VEGF165 is the VEGF isoform preferentially involved in pathological ocular neovascularisation. The selective inhibition in animals with pegaptanib proved as effective at suppressing pathological neovascularisation as pan-VEGF inhibition, however pegaptanib spared the normal vasculature whereas pan-VEGF inhibition did not. Reductions in the growth of mean total lesion size, choroidal neovascularisation (CNV size), and fluorescein leak size, have been shown in patients with AMD treated with Macugen.
Clinical efficacy and safety
Pegaptanib was studied in two controlled, double-masked, and identically designed randomised studies (EOP1003; EOP1004) in patients with neovascular AMD. A total of 1190 patients were treated (892 pegaptanib, 298 sham (control)) with a median age of 77 years. Patients received a mean of between 8.4-8.6 treatments out of possible 9 total across all treatment arms in the first year. Patients were randomised to receive sham or 0.3 mg, 1 mg or 3 mg pegaptanib administered as intravitreal injections every 6 weeks for 48 weeks. Verteporfin photodynamic therapy (PDT) was permitted in patients with predominantly classic lesions at the discretion of the investigators. The two trials enrolled patients, including all neovascular AMD lesion subtypes (25% predominantly classic, 39% occult with no classic and 36% minimally classic), lesion sizes up to 12 disc areas, of which up to 50% could be comprised of subretinal haemorrhage and/or up to 25% fibrotic scar or atrophic damage. Patients had up to one prior PDT and baseline visual acuity in the study eye between 20/40 and 20/320. At one year, pegaptanib 0.3 mg exhibited a statistically significant treatment benefit for the primary efficacy endpoint; proportion of patients losing less than 15 letters of visual acuity (prespecified pooled analysis, pegaptanib 0.3 mg 70% versus Sham 55%, p = 0.0001; EOP1003 pegaptanib 0.3 mg 73% versus Sham 59%, p = 0.0105; EOP1004 pegaptanib 0.3 mg 67% versus Sham 52%, p = 0.0031).
Mean Change in Visual Acuity Over Time; Year 1; ITT (LOCF)
Mean Change in VA from Week 0 (Letters)
0.3 m g N = 26 5 Sha m N = 27 2
-5
-1 0
-1 5
-2 0
0 6 1 2 18 24 30 36 42 48 5 4
Weeks N: number of patients enrolled Pegaptanib 0.3mg showed treatment benefit regardless of baseline lesion subtype, lesion size and visual acuity as well as age, gender, iris pigmentation and prior and/or baseline PDT usage. At the end of the first year (week 54), 1053 patients were re-randomized to either continue or discontinue treatment through week 102. On average, the treatment benefit was maintained at 102 weeks with continuing preservation of visual acuity for patients re-randomized to continue pegaptanib. Patients who were re-randomized to discontinue pegaptanib after one year, lost visual acuity during the second year.
| EOP 1003 | EOP 1004 | |||||
| 0.3-0.3 | 0.3- discontinued | Sham- discontinued | 0.3-0.3 | 0.3- discontinued | Sham- discontinued | |
| N | 67 | 66 | 54 | 66 | 66 | 53 |
| Mean change | -1.9 | -0.0 | -4.4 | -1.9 | -2.0 | -3.4 |
| in VA Week | ||||||
| 6 | ||||||
| Mean change | ||||||
| in VA Week | -4.3 | -2.0 | -4.8 | -2.8 | -2.2 | -4.7 |
| 12 | ||||||
| Mean change | ||||||
| in VA Week | -9.6 | -4.3 | -11.7 | -8.0 | -7.6 | -15.6 |
| 54 | ||||||
| Mean change | ||||||
| in VA Week | -10.8 | -9.7 | -13.1 | -8.0 | -12.7 | -21.1 |
| 102 | ||||||
Data over a two-year period indicate that Macugen treatment should be initiated as early as possible. In advanced disease the initiation and continuation of Macugen therapy should consider the potential for useful vision in the eye. Macugen therapy administered to both eyes concurrently has not been studied. The safety and efficacy of Macugen beyond two years has not been demonstrated. The European Medicines Agency has waived the obligation to submit the results of studies with Macugen in all subsets of the paediatric population in age-related macular degeneration. See section 4.2 for information on paediatric use.
Absorption:
In animals, pegaptanib is slowly absorbed into the systemic circulation from the eye after intravitreal administration. The rate of absorption from the eye is the rate-limiting step in the disposition of pegaptanib in animals and is likely to be in humans. In humans, the average +- standard deviation apparent plasma half-life of pegaptanib after a 3 mg (10-times the recommended dose) monocular dose is 10 +- 4 days. A mean maximum plasma concentration of about 80 ng/ml occurs within 1 to 4 days after a 3 mg monocular dose in humans. The mean area under the plasma concentration-time curve (AUC) is about 25 mg *hr/ml at this dose. Pegaptanib does not accumulate in the plasma when administered intravitreally every 6 weeks. At doses below 0.5 mg/eye, pegaptanib plasma concentrations do not likely exceed 10 ng/ml. The absolute bioavailability of pegaptanib after intravitreal administration has not been assessed in humans, but is approximately 70-100% in rabbits, dogs and monkeys. In animals that received doses of pegaptanib up to 0.5 mg/eye to both eyes, plasma concentrations were 0.03% to 0.15% of those in the vitreous humour.
Distribution/Biotransformation/Excretion:
In mice, rats, rabbits, dogs and monkeys, pegaptanib distributes primarily into plasma volume and is not extensively distributed to peripheral tissues after intravenous administration. Twenty-four hours after intravitreous administration of a radiolabeled dose of pegaptanib to both eyes of rabbits, radioactivity was mainly distributed in vitreous humour, retina and aqueous humour. After intravitreal and intravenous administrations of radiolabeled pegaptanib to rabbits, the highest concentrations of radioactivity (excluding the eye for the intravitreal dose) were obtained in the kidney. In rabbits, the component nucleotide, 2'-fluorouridine is found in plasma and urine after single radiolabeled pegaptanib intravenous and intravitreal doses. Pegaptanib is metabolised by endo- and exonucleases. In rabbits, pegaptanib is eliminated as parent drug and metabolites primarily in the urine.
Special populations:
Pegaptanib pharmacokinetics is similar in female and male patients and within the age range 50 to 90 years. Pegaptanib sodium has not been adequately studied in patients with creatinine clearance below 20 ml/min. A decrease in creatinine clearance down to 20 ml/min may be associated with up to a 2.3-fold increase in pegaptanib AUC. No special considerations are needed in patients with creatinine clearance above 20 ml/min who are treated with the recommended dose of pegaptanib sodium 0.3 mg. Pegaptanib pharmacokinetics have not been studied in patients with hepatic impairment. The systemic exposure is expected to be within a well tolerated range in patients with hepatic impairment, as a 10 fold higher dose (3 mg/eye) was well tolerated.
Non-clinical data revealed no special hazard for humans based on conventional studies of safety pharmacology, repeated dose toxicity and genotoxicity. There are no studies on the carcinogenic potential of pegaptanib. Pegaptanib produced no maternal toxicity and no evidence of teratogenicity or foetal mortality in mice at intravenous doses of 1 to 40 mg/kg/day. Reduced body weight (5%) and minimal delayed ossification in forepaw phalanges were observed, only at exposure levels based on AUC of over 300 fold greater than that expected in humans. These finding are therefore considered to be of limited clinical relevance. In the 40 mg/kg/day group, pegaptanib concentrations in the amniotic fluid were 0.05% of the maternal plasma levels. There are no reproductive toxicity studies in rabbits. No data are available to evaluate male or female mating or fertility indices.
Sodium chloride Monobasic sodium phosphate monohydrate Dibasic sodium phosphate heptahydrate Sodium hydroxide (for pH adjustment) Hydrochloric acid (for pH adjustment) Water for injections
In the absence of compatibility studies, this medicinal product must not be mixed with other medicinal products.
years.
Store in a refrigerator (2 oC -8oC). Do not freeze.
Macugen is supplied in a single dose pack. Each pack contains a pouch in a carton containing a 1 ml pre-filled syringe, Type 1 glass, sealed with an elastomeric plunger stopper and a pre-attached plunger rod, held by a plastic clip. The syringe has a pre-attached polycarbonate plastic luer lock adaptor and the tip is sealed with an elastomeric tip cap. The pack is supplied without a needle.
Macugen is for single use only. If the solution appears cloudy, particles are observed or if there is evidence of damage to the syringe, or if the plastic clip is missing or not attached to the syringe, that Macugen dose should not be used. Prior to the administration, the syringe should be removed from the plastic clip and the tip cap removed. A 27 or 30 G x 1/2 inch needle should be attached to the luer lock adaptor, to allow the administration of the medicinal product (See Fig 1, below).
expelling air bubble and excess drug
Dosing line
3rd Rib (top edge)
(Actual air bubble formation may vary)
The syringe should be checked with the needle pointing up for the presence of bubbles. If there are bubbles, the syringe should be gently tapped with a finger until the bubbles rise to the top of the syringe.
depress the plunger to eliminate all the bubbles and to expel the excess drug so that the
expelling air bubble and excess drug
Dosing line and top edge of 3rd rib aligned
Macugen should be stored in a refrigerator at 2oC to 8oC. The solution to be injected should reach room temperature before injecting. Macugen should be discarded if kept at room temperature for more than two weeks. To prevent contamination, the Macugen syringe should not be removed from the pouch until the patient has been prepared for injection. Any unused medicinal product or waste material should be disposed of in accordance with local requirements.
Pfizer Limited Ramsgate Road Sandwich, Kent CT13 9NJ United Kingdom
EU/1/05/325/002
Date of first authorisation: 31/01/2006 Date of latest renewal: 20/12/2010
Detailed information on this medicinal product is available on the website of the European Medicines Agency : http://www.ema.europa.eu/