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Section 4.1
In adults, EMLA is indicated for local anaesthesia
- on intact skin prior to minor dermatological procedures (e.g. needle insertion and surgical treatment of localised lesions) and prior to dermal procedures on larger areas e.g. split skin grafting.
- on genital mucosa prior to surgical treatment of localised lesions.
In adult men, EMLA is indicated for local anaesthesia on genital skin prior to injection of local anaesthetics.
In term newborn infants and children under the age of 18 years, EMLA is indicated for local anaesthesia on intact skin prior to minor dermatological procedures. Studies have failed to demonstrate efficacy of EMLA for heel lancing in newborn infants.
Local anaesthetic for topical use to produce surface anaesthesia of the skin.
For topical use on the genital mucosa to facilitate the removal of warts in adults.
Section 4.2
Paediatric population
Adolecents ³ 12 years:
As for adults (approximately 2 g EMLA applied under an occlusive dressing for a minimum of 60 minutes, maximum 5 hours).
Term newborn infants, infants and children £ 11 years:
For dose, application area, application time and dose interval by age and weight see Table 2 below.
Table 2: Dose, application time and dose interval by age and weight
Section 4.4
Until further clinical data are available, EMLA should not be used in the following cases:
(a) in pre-term neonates i.e. gestational age less than 37 weeks.
(b) in infants/neonates between 0 and 12 months of age receiving treatment with
methaemoglobin-inducing agents due to the possible additive effects.
In infants/neonates younger than 123 months a transient, clinically insignificant increase in methaemoglobin level is commonly observed up to 12 hours after an application of EMLA.
Patients with glucose-6-phosphate dehydrogenase deficiency or congenital or idiopathic methaemoglobinaemia are more susceptible to drug induced methaemoglobinaemia.
Clinical studies have been unable to demonstrate the efficacy of EMLA during the heel lancing of neonates.
In term newborn infants, infants and children, EMLA should only be used on intact skin and should not be applied to genital mucosa.
EMLA Cream should not be applied to genital mucosa in children.
Until further clinical experience is available, EMLA Cream should not be applied to wounds or in areas of atopic dermatitis.In term neonates and infants < 3 months, only one single dose should be applied in any 24 hour period. If, based on clinical need, a decision is nevertheless taken to use two applications in children under the age of 3 months, the child should be clinically monitored for systemic adverse reactions (see sections 4.8 and 4.9).
Consideration should be given to the fact that pulse oximeter values may overestimate the actual oxygen saturation in case of increased methaemoglobin fraction; therefore, in cases of suspected methaemoglobinaemia, it may be more helpful to monitorcheck oxygen saturation by co-oximetry.
Care must be taken to limit the dose and area of application and to prevent accidental ingestion.
Until further clinical experience is available, EMLA Cream should not be applied to wounds or in areas of atopic dermatitis.
Section 4.5
Methaemoglobinaemia may be accentuated in patients already taking drugs known to induce the condition, e.g. sulphonamides., acetanilid, aniline dyes, benzocaine, chloroquine, dapsone, metoclopramide, naphthalene, nitrates and nitrites, nitrofurantoin, nitroglycerin, nitroprusside, pamaquine, para-aminosalicylic acid, phenacetin, phenobarbital, phenytoin, primaquine, quinine.
Section 4.8
Paediatric population
In clinical trials 298 neonates and infants aged up to 12 months were treated with EMLA (Table 3). A large number of infants and children aged 1 year and older have been treated with EMLA in clinical trials and in clinical practice since 1984.
Table 3. Number of paediatric patients, up to 12 months old, included in clinical studies with EMLA, by age group
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Pre-term neonates
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21
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Age 0–1 months
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148
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Age 1–3 months
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55
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Age 3–12 months
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74
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Total number
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298
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Frequency, type and severity of adverse reactions are similar in the paediatric and adult age groups, except for methaemoglobinaemia, which is more frequently observed, often in connection with overdose, in neonates and infants aged 0 to 12 months.
Rare cases of clinically significant methaemoglobinaemia in children have been reported in literature. Prilocaine, one of the components of EMLA, may in high doses cause an increase in the methaemoglobin level, particularly in susceptible individuals (Section 4.4) and in conjunction with other methaemoglobin-inducing agents. Clinically significant methaemoglobinaemia should be treated with a slow intravenous injection of methylthioninium chloride (Section 4.9).
Section 5.1
Paediatric populationChildren
Clinical safety studies
Methaemoglobin formation after the use of EMLA in term infants was studied with the aim to establish the safety of 1 g EMLA cream 5%. Forty-seven neonates and infants, aged 0-3 months, with a post conceptual age of ≥37 weeks were included in a double blind, randomized, placebo-controlled study. Methaemoglobin concentrations before treatment with EMLA and placebo were in the range 0.67-1.57% and 0.50-1.53%, respectively. After treatment with 1 g EMLA/placebo for 60-70 min methaemoglobin concentrations were 0.50-2.53% for EMLA and 0.50-1.53% for placebo. From 3.5 to 13 h after application the concentrations were significantly higher with EMLA than with placebo, but were clinically insignificant. One sample, in the EMLA group (2.53%), had a methaemoglobin concentration above the reference value of 2%.
Altogether, data from eleven clinical studies in neonates and infants showed that peak methaemoglobin concentrations occur about 8 hours after epicutaneous EMLA administration, are clinically insignificant with recommended dosage, and return to normal values after about 12-13 hours. Methaemoglobin formation is related to the cumulative amount of prilocaine percutaneously absorbed, and may therefore increase with prolonged application times of EMLA.
Physiological methaemoglobin concentrations in both paediatric patients and adults are normally maintained below 2%. A major increase (25–30%) in methaemoglobin (to a concentration of 25-30%) will cause signs and symptoms of hypoxaemia. In neonates elevated methaemoglobin levels up to 5–6% are not regarded as clinically significant.
Circumcision:
In two randomized, double-blind, placebo-controlled studies in full-term neonates aged 1 to 4 days EMLA cream (0.5 or 1 g) was applied on the prepuce for one hour before circumcision, covered with an occlusive dressing. In the study using 0.5 g EMLA there was no significant differences with placebo in assessment of pain performed by evaluating facial expressions or heart rate, respiratory rate, oxygen saturation, nor in general skin colour.
EMLA Cream (1 g) significantly reduced the pain during parts of the circumcision procedure, as demonstrated by less facial activity, reduction in duration of cry and lower heart rates. No differences were found for oxygen saturation, respiratory rate and Neonatal Infant Pain Scale (NIPS) – which includes facial expression, cry, breathing pattern and state of arousal.
In the study using a dose of 1 g the average concentrations of methaemoglobin up to 18 hours after administration were 1.31% (range 0-3.1%) in the EMLA group and 1.34% (range 1.0%-1.9%) in the placebo group (not significantly different).
Vaccination:
Two randomized double-blind, placebo-controlled studies in infants and neonates looked at anaesthetic efficacy of EMLA cream in vaccinations and the effect on the immunogenicity of live vaccines.
The first study used EMLA Cream prior to subcutaneous measles-mumps-rubella vaccine, in patients aged 12-15 months, where 1g of cream was applied for 60‑180 minutes. EMLA significantly reduced vaccination pain versus placebo, demonstrated by difference between the pre- and post-vaccination total score on the Modified Behavioural Pain Scale (MBPS - includes measurement of facial expression, cry and body movement). No difference versus placebo was seen with the separate assessment of proportion of patients that cry and duration of cry.
The second used EMLA Cream prior to intramuscular diptheria-pertussis-tetanus-inactivated poliovirus-Haemophilus influenzae b or Hepatitis B vaccines in patients aged 0-6 months, where 1 or 2g of cream was applied to patients aged 0-4 and 6 months respectively, for 60-180 minutes. EMLA significantly reduced vaccination pain versus placebo, demonstrated as above, for the 6 month-old group, however in the 0-4 month old group there was high variation in treatment response. In the 2 and 4 month-old groups, EMLA gave reduced pain versus placebo, however statistical significance was not shown (p=0.120 and 0.225 respectively).
Within both studies, tThe use of EMLA prior to measles-mumps-rubella or intramuscular diptheria-pertussis-tetanus-inactivated poliovirus-Haemophilus influenzae b or Hepatitis B vaccines does did not affect mean antibody titres, rate of seroconversion, or the proportion of patients achieving protective or positive antibody titres post immunization, as compared to placebo treated patients.
Section 5.2
Paediatric populationChildren
Following the application of 1 g EMLA Cream in infants/neonates below 3 months of age, to approx 10 cm2 for one hour, the maximum plasma concentrations of lidocaine and prilocaine were 0.135 micrograms/ml and 0.107 micrograms/ml respectively.
Following the application of 2 g EMLA Cream in infants between 3 and 12 months of age, to approx 16 cm2 for four hours, the maximum plasma concentrations of lidocaine and prilocaine were 0.155 micrograms/ml and 0.131 micrograms/ml respectively.
Following the application of 10 g of EMLA Cream in children between 2 and 3 years of age, to approx 100 cm2 for two hours, the maximum plasma concentrations of lidocaine and prilocaine were 0.315 micrograms/ml and 0.215 micrograms/ml respectively.
Following the application of 10-16 g EMLA Cream in children between 6 and 8 years of age, to approx 100-160 cm2 for two hours, the maximum plasma concentrations of lidocaine and prilocaine were 0.299 micrograms/ml and 0.110 micrograms/ml respectively.
Section 6.5
“Pre-medication pack” containing 5 x 5 g tubes EMLA and 12 occlusive dressings.
Pack containing 10 x 5 g tubes of EMLA and 2 occlusive dressings.
1 x 30 g tube with enclosed spatula
1 x 5 g tube
Section 10
21st June 2007February 15th September 2008.
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