Tuesday, September 13, 2016

Artelac SDU preservative free hypromellose 0.32%





1. Name Of The Medicinal Product



Artelac 0.32% w/v Eye Drops Single Dose Unit


2. Qualitative And Quantitative Composition



Hypromellose, 0.32% w/v.



For excipients, see 6.1.



3. Pharmaceutical Form



Eye drops, solution.



Sterile clear solution.



4. Clinical Particulars



4.1 Therapeutic Indications



Acts as a lubricant and artificial tear in the symptomatic treatment of dehydration of the cornea and conjunctiva due to impaired lacrimal secretion and functional disorders as a result of topical or systemic diseases, or caused by deficient or incomplete eyelid closure.



4.2 Posology And Method Of Administration



4.2.1 Dosage



Suitable for use in adults and children.



Unless otherwise directed, instill 1 drop into the conjunctival sac (corner of the eye, nearest the nose) 3 to 5 times per day or as required, to provide sufficient lubrication.



Therapy of dry eye syndrome requires an individual dosage regimen.



Leave an interval of at least 5 minutes before instilling another ophthalmic medication.



4.2.2 Administration



For ocular use only.



4.3 Contraindications



Hypersensitivity to the active substance (hypromellose) or to any of the excipients.



4.4 Special Warnings And Precautions For Use



Stop treatment and consult a physician if irritation persists or worsens or new eye signs or symptoms develop.



Wearers of soft contact lenses should remove their lenses before Artelac is administered and should wait for at least 15 minutes before they insert them again.



4.5 Interaction With Other Medicinal Products And Other Forms Of Interaction



None.



4.6 Pregnancy And Lactation



Artelac can be used during pregnancy and lactation.



4.7 Effects On Ability To Drive And Use Machines



Artelac on instillation may cause a short term blurring of vision when first used. If affected wait until vision has cleared before driving or operating machinery.



4.8 Undesirable Effects



Brief blurred vision or a slight stinging sensation on instilling Artelac.



4.9 Overdose



No case of overdose has been reported.



5. Pharmacological Properties



5.1 Pharmacodynamic Properties



Pharmacotherapeutic group:



Ophthalmologicals: other ophthalmologicals



ATC code: S01X A20



Hypromellose prolongs adhesion, enhances moistening of the cornea and conjunctiva and allows for a smoother movement of the conjunctiva over the cornea.



5.2 Pharmacokinetic Properties



Hypromellose does not permeate the cornea or reach the systemic circulation via the ophthalmic vessels.



5.3 Preclinical Safety Data



There is no preclinical data of relevance to the prescriber.



6. Pharmaceutical Particulars



6.1 List Of Excipients



Disodium phosphate dodecahydrate



Sodium dihydrogen phosphate dihydrate



Sorbitol



Purified water



6.2 Incompatibilities



Not applicable.



6.3 Shelf Life



2 years.



6.4 Special Precautions For Storage



Do not store above 25°C.



6.5 Nature And Contents Of Container



0.5 ml single dose unit, composed of LDPE.



30, 60 or 120 single dose units.



6.6 Special Precautions For Disposal And Other Handling



Avoid contamination during use. Artelac SDU eye drops are sterile until first opened. For single use only. Each carton contains a patient insert with instructions for use.



7. Marketing Authorisation Holder



Pharma Global Limited



Hudson Road



Sandycove



Co. Dublin



Republic of Ireland



8. Marketing Authorisation Number(S)



PL 11185/0002



9. Date Of First Authorisation/Renewal Of The Authorisation



25th January 2007



10. Date Of Revision Of The Text




Aricept Evess





ARICEPT Evess 5 mg Orodispersible Tablets



ARICEPT Evess 10 mg Orodispersible Tablets



(Donepezil Hydrochloride)




You and your caregiver should read all of this leaflet carefully before you start taking this medicine.



  • Keep this leaflet. You may need to read it again.

  • If you have any further questions, ask your doctor or pharmacist.

  • This medicine has been prescribed for you. Do not pass it on to others. It may harm them, even if their symptoms are the same as yours.

  • If any of the side effects get serious, or if you notice any side effects not listed in this leaflet, please tell your doctor or pharmacist.




In This Leaflet:



1. What ARICEPT Evess is and what it is used for
2. Before you take ARICEPT Evess
3. How to take ARICEPT Evess
4. Possible side effects
5. How to store ARICEPT Evess
6. Further information






What Aricept Evess Is And What It Is Used For



ARICEPT Evess (donepezil hydrochloride) belongs to a group of medicines called acetylcholinesterase inhibitors. Donepezil increases the levels of a substance (acetylcholine) in the brain involved in memory function by slowing down the breakdown of acetylcholine.



It is used to treat the symptoms of dementia in people diagnosed as having mild and moderately severe Alzheimer’s disease. The symptoms include increasing memory loss, confusion and behavioural changes. As a result, sufferers of Alzheimer’s disease find it more and more difficult to carry out their normal daily activities.



ARICEPT Evess is for use in adult patients only.





Before You Take Aricept Evess




Do NOT take ARICEPT EVESS



  • if you are allergic (hypersensitive) to donepezil hydrochloride, or to piperidine derivatives, or any of the other ingredients of ARICEPT Evess listed in section 6.




Take special care with ARICEPT EVESS



Tell your doctor or pharmacist before starting to take ARICEPT Evess if you have or have had:



  • stomach or duodenal ulcers

  • seizures (fits) or convulsions

  • a heart condition (irregular or very slow heart beat)

  • asthma or other long term lung disease

  • liver problems or hepatitis

  • difficulty passing urine or mild kidney disease

Also tell your doctor if you are pregnant or think you might be pregnant.





Taking other medicines



Please tell your doctor or pharmacist if you are taking, or have recently taken, any other medicine. This includes medicines that your doctor has not prescribed for you but which you have bought yourself from a chemist/pharmacist. It also applies to medicines you may take sometime in the future if you continue to take ARICEPT Evess. This is because these medicines may weaken or strengthen the effects of ARICEPT Evess.



Especially tell your doctor if you are taking any of the following types of medicines:



  • other Alzheimer’s disease medicines, e.g. galantamine

  • pain killers or treatment for arthritis e.g. aspirin, non-steroidal anti-inflammatory (NSAID) drugs such as ibuprofen, or diclofenac sodium

  • anticholinergics medicines, e.g. tolterodine

  • antibiotics e.g. erythromycin, rifampicin

  • anti-fungal medicine e.g. ketoconazole

  • anti-depressants e.g. fluoxetine

  • anticonvulsants e.g. phenytoin, carbamazepine

  • medication for a heart condition e.g. quinidine, beta-blockers (propanolol and atenolol)

  • muscle relaxants e.g. diazepam, succinylcholine

  • general anaesthetic

  • medicines obtained without a prescription e.g. herbal remedies

If you are going to have an operation that requires you to have a general anaesthetic, you should tell your doctor and the anaesthetist that you are taking ARICEPT Evess. This is because your medicine may affect the amount of anaesthetic needed.



ARICEPT Evess can be used in patients with kidney disease or mild to moderate liver disease. Tell your doctor first if you have kidney or liver disease. Patients with severe liver disease should not take ARICEPT Evess.



Tell your doctor or pharmacist the name of your caregiver. Your caregiver will help you to take your medicine as it is prescribed.





Taking ARICEPT EVESS with food and drink



Food will not influence the effect of ARICEPT Evess.



ARICEPT Evess should not be taken with alcohol because alcohol may change its effect.





Pregnancy and breast-feeding



ARICEPT Evess should not be used while breastfeeding.



If you are pregnant, or think you might be pregnant, ask your doctor for advice before taking any medicine.





Driving and using machines



Alzheimer’s disease may impair your ability to drive or operate machinery and you must not perform these activities unless your doctor tells you that it is safe to do so.



Also, your medicine can cause tiredness, dizziness and muscle cramp. If you experience any of these effects you must not drive or operate machinery.






How To Take Aricept Evess




How much ARICEPT EVESS should you take?



Usually, you will start by taking 5 mg (one white tablet) every night before you go to bed. After one month, your doctor may tell you to take 10 mg (one yellow tablet) every night before you go to bed.



The tablet should be placed on your tongue and allowed to disintegrate before swallowing, with or without water, according to your preference.



The tablet strength you will take may change depending on the length of time you have been taking the medicine and on what your doctor recommends. The maximum recommended dose is 10 mg each night.



Always follow your doctor’s, or pharmacist’s advice about how and when to take your medicine.



Do not alter the dose yourself without your doctor’s advice.





For how long should you take ARICEPT EVESS?



Your doctor or pharmacist will advise you on how long you should continue to take your tablets. You will need to see your doctor from time to time to review your treatment and assess your symptoms.





If you stop taking ARICEPT EVESS



Do not stop taking the tablets unless told to do so by your doctor. If you stop taking ARICEPT Evess, the benefits of your treatment will gradually fade away.





If you take more ARICEPT EVESS than you should



DO NOT take more than one tablet each day. Call your doctor immediately if you take more than you should. If you cannot contact your doctor, contact the local hospital Accident and Emergency department at once. Always take the tablets and the carton with you to the hospital so that the doctor knows what has been taken.



Symptoms of overdosing include feeling and being sick, drooling, sweating, slow heart rate, low blood pressure (light-headedness or dizziness when standing), breathing problems, losing consciousness and seizures (fits) or convulsions.





If you forget to take ARICEPT EVESS



If you forget to take a tablet, just take one tablet the following day at the usual time. Do not take a double dose to make up for a forgotten tablet.



If you forget to take your medicine for more than one week, call your doctor before taking any more medicine.






Aricept Evess Side Effects



Like all medicines, ARICEPT Evess can cause side effects, although not everybody gets them.



The following side effects have been reported by people taking ARICEPT Evess.



Tell your doctor if you have any of these effects while you are taking ARICEPT Evess.



Serious side effects:



You must tell your doctor immediately if you notice these serious side effects mentioned.



You may need urgent medical treatment.



  • liver damage e.g. hepatitis. The symptoms of hepatitis are feeling or being sick, loss of appetite, feeling generally unwell, fever, itching, yellowing of the skin and eyes, and dark coloured urine (affects 1 to 10 users in 10,000)

  • stomach or duodenal ulcers. The symptoms of ulcers are stomach pain and discomfort (indigestion) felt between the navel and the breast bone (affects 1 to 10 users in 1,000).

  • bleeding in the stomach or intestines. This may cause you to pass black tar like stools or visible blood from the rectum (affects 1 to 10 users in 1,000).

  • seizures (fits) or convulsions (affects 1 to 10 users in 1,000).

Very common side effects (affects more than 1 user in 10):



  • diarrhoea

  • feeling or being sick

  • headaches

Common side effects (affects 1 to 10 users in 100):



  • muscle cramp

  • tiredness

  • difficulty in sleeping (insomnia)

  • the common cold

  • loss of appetite

  • hallucinations (seeing or hearing things that are not really there)

  • agitation

  • aggressive behaviour

  • fainting

  • dizziness

  • stomach feeling uncomfortable

  • rash

  • itching

  • passing urine uncontrollably

  • pain

  • accidents (patients may be more prone to falls and accidental injury)

Uncommon side effects (affects 1 to 10 users in 1,000):



  • slow heart beat

Rare side effects (affects 1 to 10 users in 10,000):



  • stiffness, shaking or uncontrollable movement especially of the face and tongue but also of the limbs

If any of the side effects gets serious, or if you notice any side effects not listed in this leaflet, please tell your doctor or pharmacist.





How To Store Aricept Evess



DO NOT use ARICEPT Evess after the expiry date that is printed on the label. The expiry date refers to the last day of that month.



This medicine does not require any special storage conditions. Keep out of the reach and sight of children.



If your doctor tells you to stop taking your medicine, you should return any you have not used to your pharmacist.



Medicines should not be disposed of via wastewater or household waste. Ask your pharmacist how to dispose of medicines no longer required. These measures will help to protect the environment.





Further Information




What do ARICEPT EVESS orodispersible tablets contain ?



  • The active substance is donepezil hydrochloride. The 5 mg orodispersible tablet contains 5 mg of donepezil hydrochloride and the 10 mg orodispersible tablet contains 10 mg of donepezil hydrochloride.

  • The other ingredients are mannitol, colloidal anhydrous silica, k-carrageenan, and polyvinyl alcohol.

  • Additionally, the 10 mg orodispersible tablet contains synthetic yellow iron oxide (E172).




What do ARICEPT EVESS orodispersible tablets look like ?



  • 5 mg white orodispersible tablets marked ‘ARICEPT’ on one side and '5' on the other.

  • 10 mg yellow orodispersible tablets marked ‘ARICEPT’ on one side and '10' on the other.




What is in a pack of ARICEPT EVESS?



The orodispersible tablets are supplied in packs of 7, 14, 28, 30, 50, 56, 60, 98 or 120.



Not all pack sizes may be marketed.





Marketing Authorisation Holder and Manufacturer



The Marketing Authorisation Holder is:




Eisai Ltd.

Mosquito Way

Hatfield

Hertfordshire

AL10 9SN

United Kingdom



ARICEPT Evess is manufactured for Eisai Ltd. by:




Pfizer PGM

29, Route des Industries

37530 Pocé-sur-Cisse

France






This leaflet was last approved in 06/2010.



© Copyright Eisai Limited






ARANESP PFS





1. Name Of The Medicinal Product



Aranesp® 10 micrograms solution for injection in a pre-filled syringe.



Aranesp® 15 micrograms solution for injection in a pre-filled syringe.



Aranesp® 20 micrograms solution for injection in a pre-filled syringe.



Aranesp® 30 micrograms solution for injection in a pre-filled syringe.



Aranesp® 40 micrograms solution for injection in a pre-filled syringe.



Aranesp® 50 micrograms solution for injection in a pre-filled syringe.



Aranesp® 60 micrograms solution for injection in a pre-filled syringe.



Aranesp® 80 micrograms solution for injection in a pre-filled syringe.



Aranesp® 100 micrograms solution for injection in a pre-filled syringe.



Aranesp® 130 micrograms solution for injection in a pre-filled syringe.



Aranesp® 150 micrograms solution for injection in a pre-filled syringe.



Aranesp® 300 micrograms solution for injection in a pre-filled syringe.



Aranesp® 500 micrograms solution for injection in a pre-filled syringe.


2. Qualitative And Quantitative Composition



Each pre-filled syringe contains 10 micrograms of darbepoetin alfa in 0.4 ml (25 µg/ml).



Each pre-filled syringe contains 15 micrograms of darbepoetin alfa in 0.375 ml (40 µg/ml).



Each pre-filled syringe contains 20 micrograms of darbepoetin alfa in 0.5 ml (40 µg/ml).



Each pre-filled syringe contains 30 micrograms of darbepoetin alfa in 0.3 ml (100 µg/ml).



Each pre-filled syringe contains 40 micrograms of darbepoetin alfa in 0.4 ml (100 µg/ml).



Each pre-filled syringe contains 50 micrograms of darbepoetin alfa in 0.5 ml (100 µg/ml).



Each pre-filled syringe contains 60 micrograms of darbepoetin alfa in 0.3 ml (200 µg/ml).



Each pre-filled syringe contains 80 micrograms of darbepoetin alfa in 0.4 ml (200 µg/ml).



Each pre-filled syringe contains 100 micrograms of darbepoetin alfa in 0.5 ml (200 µg/ml).



Each pre-filled syringe contains 130 micrograms of darbepoetin alfa in 0.65 ml (200 µg/ml).



Each pre-filled syringe contains 150 micrograms of darbepoetin alfa in 0.3 ml (500 µg/ml).



Each pre-filled syringe contains 300 micrograms of darbepoetin alfa in 0.6 ml (500 µg/ml).



Each pre-filled syringe contains 500 micrograms of darbepoetin alfa in 1 ml (500 µg/ml).



Darbepoetin alfa is produced by gene-technology in Chinese Hamster Ovary Cells (CHO-K1).



Excipients:



Each pre-filled syringe contains 1.52 mg of sodium in 0.4 ml.



Each pre-filled syringe contains 1.42 mg of sodium in 0.375 ml.



Each pre-filled syringe contains 1.90 mg of sodium in 0.5 ml.



Each pre-filled syringe contains 1.14 mg of sodium in 0.3 ml.



Each pre-filled syringe contains 1.52 mg of sodium in 0.4 ml.



Each pre-filled syringe contains 1.90 mg of sodium in 0.5 ml.



Each pre-filled syringe contains 1.14 mg of sodiumin 0.3 ml.



Each pre-filled syringe contains 1.52 mg of sodium in 0.4 ml.



Each pre-filled syringe contains 1.90 mg of sodium in 0.5 ml.



Each pre-filled syringe contains 2.46 mg of sodium in 0.65 ml.



Each pre-filled syringe contains 1.14 mg of sodium in 0.3 ml.



Each pre-filled syringe contains 2.27 mg of sodium in 0.6 ml.



Each pre-filled syringe contains 3.79 mg of sodium in 1 ml.



For a full list excipients, section see 6.1.



3. Pharmaceutical Form



Solution for injection (injection) in a pre-filled syringe.



Clear, colourless solution.



4. Clinical Particulars



4.1 Therapeutic Indications



Treatment of symptomatic anaemia associated with chronic renal failure (CRF) in adults and paediatric patients.



Treatment of symptomatic anaemia in adult cancer patients with non-myeloid malignancies receiving chemotherapy.



4.2 Posology And Method Of Administration



Aranesp treatment should be initiated by physicians experienced in the above mentioned indications.



Posology



Treatment of symptomatic anaemia in adult and paediatric chronic renal failure patients



Anaemia symptoms and sequelae may vary with age, gender, and overall burden of disease; a physician's evaluation of the individual patient's clinical course and condition is necessary. Aranesp should be administered either subcutaneously or intravenously in order to increase haemoglobin to not greater than 12 g/dl (7.5 mmol/l). Subcutaneous use is preferable in patients who are not receiving haemodialysis to avoid the puncture of peripheral veins.



Due to intra-patient variability, occasional individual haemoglobin values for a patient above and below the desired haemoglobin level may be observed. Haemoglobin variability should be addressed through dose management, with consideration for the haemoglobin target range of 10 g/dl (6.2 mmol/l) to 12 g/dl (7.5 mmol/l). A sustained haemoglobin level of greater than 12 g/dl (7.5 mmol/l) should be avoided; guidance for appropriate dose adjustment for when haemoglobin values exceeding 12 g/dl (7.5 mmol/l) are observed are described below. A rise in haemoglobin of greater than 2 g/dl (1.25 mmol/l) over a four week period should be avoided. If it occurs, appropriate dose adjustment should be made as provided.



Treatment with Aranesp is divided into two stages, correction and maintenance phase. Guidance is given separately for adult and paediatric patients.



Adult patients with chronic renal failure



Correction phase:



The initial dose by subcutaneous or intravenous administration is 0.45 µg/kg body weight, as a single injection once weekly. Alternatively, in patients not on dialysis, an initial dose of 0.75 μg/kg may be administered subcutaneously as a single injection once every two weeks. If the increase in haemoglobin is inadequate (less than 1 g/dl (0.6 mmol/l) in four weeks) increase the dose by approximately 25%. Dose increases must not be made more frequently than once every four weeks.



If the rise in haemoglobin is greater than 2 g/dl (1.25 mmol/l) in four weeks reduce the dose by approximately 25%. If the haemoglobin exceeds 12 g/dl (7.5 mmol/l), a dose reduction should be considered. If the haemoglobin continues to increase, the dose should be reduced by approximately 25%. If after a dose reduction, haemoglobin continues to increase, the dose should be temporarily withheld until the haemoglobin begins to decrease, at which point therapy should be reinitiated at approximately 25% lower than the previous dose.



The haemoglobin should be measured every one or two weeks until it is stable. Thereafter the haemoglobin can be measured at longer intervals.



Maintenance phase:



In the maintenance phase, Aranesp may continue to be administered as a single injection once weekly or once every two weeks. Dialysis patients converting from once weekly to once every other week dosing with Aranesp should initially receive a dose equivalent to twice the previous once weekly dose. In patients not on dialysis, once the target haemoglobin has been achieved with once every two week dosing, Aranesp may be administered subcutaneously once monthly using an initial dose equal to twice the previous once every two week dose.



Dosing should be titrated as necessary to maintain the haemoglobin target.



If a dose adjustment is required to maintain haemoglobin at the desired level, it is recommended that the dose is adjusted by approximately 25%.



If the rise in haemoglobin is greater than 2 g/dl (1.25 mmol/l) in four weeks reduce the dose by approximately 25%, depending on the rate of increase. If the haemoglobin exceeds 12 g/dl (7.5 mmol/l), a dose reduction should be considered. If the haemoglobin continues to increase, the dose should be reduced by approximately 25%. If after a dose reduction, haemoglobin continues to increase, the dose should be temporarily withheld until the haemoglobin begins to decrease, at which point therapy should be reinitiated at approximately 25% lower than the previous dose.



Patients should be monitored closely to ensure that the lowest approved dose of Aranesp is used to provide adequate control of the symptoms of anaemia.



After any dose or schedule adjustment the haemoglobin should be monitored every one or two weeks. Dose changes in the maintenance phase of treatment should not be made more frequently than every two weeks.



When changing the route of administration the same dose must be used and the haemoglobin monitored every one or two weeks so that the appropriate dose adjustments can be made to keep the haemoglobin at the desired level.



Clinical studies have demonstrated that adult patients receiving r-HuEPO one, two or three times weekly may be converted to once weekly or once every other week Aranesp. The initial weekly dose of Aranesp (µg/week) can be determined by dividing the total weekly dose of r-HuEPO (IU/week) by 200. The initial every other week dose of Aranesp (µg/every other week) can be determined by dividing the total cumulative dose of r-HuEPO administered over a two-week period by 200. Because of individual variability, titration to optimal therapeutic doses is expected for individual patients. When substituting Aranesp for r-HuEPO the haemoglobin should be monitored every one or two weeks and the same route of administration should be used.



Paediatric population with chronic renal failure



Treatment of paediatric patients younger than 1 year of age has not been studied.



Correction phase:



For patients



If the rise in haemoglobin is greater than 2 g/dl (1.25 mmol/l) in four weeks reduce the dose by approximately 25%, depending on the rate of increase. If the haemoglobin exceeds 12 g/dl (7.5 mmol/l), a dose reduction should be considered. If the haemoglobin continues to increase, the dose should be reduced by approximately 25%. If after a dose reduction, haemoglobin continues to increase, the dose should be temporarily withheld until the haemoglobin begins to decrease, at which point therapy should be reinitiated at approximately 25% lower than the previous dose.



The haemoglobin should be measured every one or two weeks until it is stable. Thereafter the haemoglobin can be measured at longer intervals.



No guidance regarding the correction of haemoglobin is available for paediatric patients 1 to 10 years of age.



Maintenance phase:



For paediatric patients



For paediatric patients 1-18 years of age, clinical data in paediatric patients has demonstrated that patients receiving r-HuEPO two or three times weekly may be converted to once weekly Aranesp, and those receiving r-HuEPO once weekly may be converted to once every other week Aranesp. The initial weekly paediatric dose of Aranesp (µg/week) can be determined by dividing the total weekly dose of r-HuEPO (IU/week) by 240. The initial every other week dose of Aranesp (μg/every other week) can be determined by dividing the total cumulative dose of r-HuEPO administered over a two-week period by 240. Because of individual variability, titration to optimal therapeutic doses is expected for individual patients. When substituting Aranesp for r-HuEPO the haemoglobin should be monitored every one or two weeks and the same route of administration should be used.



Dosing should be titrated as necessary to maintain the haemoglobin target.



If a dose adjustment is required to maintain haemoglobin at the desired level, it is recommended that the dose is adjusted by approximately 25%.



If the rise in haemoglobin is greater than 2 g/dl (1.25 mmol/l) in four weeks reduce the dose by approximately 25%, depending on the rate of increase. If the haemoglobin exceeds 12 g/dl (7.5 mmol/l), a dose reduction should be considered. If the haemoglobin continues to increase, the dose should be reduced by approximately 25%. If after a dose reduction, haemoglobin continues to increase, the dose should be temporarily withheld until the haemoglobin begins to decrease, at which point therapy should be reinitiated at approximately 25% lower than the previous dose.



Patients should be monitored closely to ensure that the lowest approved dose of Aranesp is used to provide adequate control of the symptoms of anaemia.



After any dose or schedule adjustment the haemoglobin should be monitored every one or two weeks. Dose changes in the maintenance phase of treatment should not be made more frequently than every two weeks.



When changing the route of administration the same dose must be used and the haemoglobin monitored every one or two weeks so that the appropriate dose adjustments can be made to keep the haemoglobin at the desired level.



Treatment of symptomatic chemotherapy induced anaemia in cancer patients



Aranesp should be administered by the subcutaneous route to patients with anaemia (e.g. haemoglobin concentration



Due to intra-patient variability, occasional individual haemoglobin values for a patient above and below the desired haemoglobin level may be observed. Haemoglobin variability should be addressed through dose management, with consideration for the haemoglobin target range of 10 g/dl (6.2 mmol/l) to 12 g/dl (7.5 mmol/l). A sustained haemoglobin level of greater than 12 g/dl (7.5 mmol/l) should be avoided; guidance for appropriate dose adjustments for when haemoglobin values exceeding 12 g/dl (7.5 mmol/l) are observed are described below.



The recommended initial dose is 500 μg (6.75 μg/kg) given once every three weeks, or once weekly dosing can be given at 2.25 μg/kg body weight. If the clinical response of the patient (fatigue, haemoglobin response) is inadequate after nine weeks, further therapy may not be effective.



Aranesp therapy should be discontinued approximately four weeks after the end of chemotherapy.



Once the therapeutic objective for an individual patient has been achieved, the dose should be reduced by 25 to 50% in order to ensure that the lowest approved dose of Aranesp is used to maintain haemoglobin at a level that controls the symptoms of anaemia. Appropriate dose titration between 500 μg, 300 μg, and 150 μg should be considered.



Patients should be monitored closely, if the haemoglobin exceeds 12 g/dl (7.5 mmol/l), the dose should be reduced by approximately 25 to 50%. Treatment with Aranesp should be temporarily discontinued if haemoglobin levels exceed 13 g/dl (8.1 mmol/l). Therapy should be reinitiated at approximately 25% lower than the previous dose after haemoglobin levels fall to 12 g/dl (7.5 mmol/l) or below.



If the rise in haemoglobin is greater than 2 g/dl (1.25 mmol/l) in 4 weeks, the dose should be reduced by 25 to 50%.



Method of administration



Aranesp is administered either subcutaneously or intravenously as described in the posology. Rotate the injection sites and inject slowly to avoid discomfort at the site of injection.



Aranesp is supplied ready for use in a pre-filled syringe. The instructions for use, handling and disposal are given in section 6.6.



4.3 Contraindications



Hypersensitivity to darbepoetin alfa, r-HuEPO or to any of the excipients.



Poorly controlled hypertension.



4.4 Special Warnings And Precautions For Use



General



In order to improve the traceability of erythropoiesis-stimulating agents (ESAs), the trade name of the administered ESA should be clearly recorded (or stated) in the patient file.



Blood pressure should be monitored in all patients, particularly during initiation of Aranesp therapy. If blood pressure is difficult to control by initiation of appropriate measures, the haemoglobin may be reduced by decreasing or withholding the dose of Aranesp (see section 4.2). Cases of severe hypertension, including hypertensive crisis, hypertensive encephalopathy, and seizures, have been observed in CRF patients treated with Aranesp.



In order to ensure effective erythropoiesis, iron status should be evaluated for all patients prior to and during treatment and supplementary iron therapy may be necessary.



Non-response to therapy with Aranesp should prompt a search for causative factors. Deficiencies of iron, folic acid or vitamin B12 reduce the effectiveness of ESAs and should therefore be corrected. Intercurrent infections, inflammatory or traumatic episodes, occult blood loss, haemolysis, severe aluminium toxicity, underlying haematologic diseases, or bone marrow fibrosis may also compromise the erythropoietic response. A reticulocyte count should be considered as part of the evaluation. If typical causes of non-response are excluded, and the patient has reticulocytopenia, an examination of the bone marrow should be considered. If the bone marrow is consistent with PRCA, testing for anti-erythropoietin antibodies should be performed.



Pure red cell aplasia caused by neutralising anti-erythropoietin antibodies has been reported in association with ESAs, including Aranesp. This has been predominantly reported in patients with CRF treated subcutaneously. These antibodies have been shown to cross-react with all erythropoietic proteins, and patients suspected or confirmed to have neutralising antibodies to erythropoietin should not be switched to Aranesp (see section 4.8).



A paradoxical decrease in haemoglobin and development of severe anaemia associated with low reticulocyte counts should prompt to discontinue treatment with epoetin and perform anti-erythropoietin antibody testing. Cases have been reported in patients with hepatitis C treated with interferon and ribavirin, when epoetins are used concomitantly. Epoetins are not approved in the management of anaemia associated with hepatitis C.



Active liver disease was an exclusion criteria in all studies of Aranesp, therefore no data are available from patients with impaired liver function. Since the liver is thought to be the principal route of elimination of darbepoetin alfa and r-HuEPO, Aranesp should be used with caution in patients with liver disease.



Aranesp should also be used with caution in those patients with sickle cell anaemia.



Misuse of Aranesp by healthy persons may lead to an excessive increase in packed cell volume. This may be associated with life-threatening complications of the cardiovascular system.



The needle cover of the pre-filled syringe contains dry natural rubber (a derivative of latex), which may cause allergic reactions.



In patients with chronic renal failure, maintenance haemoglobin concentration should not exceed the upper limit of the target haemoglobin concentration recommended in section 4.2. In clinical studies, an increased risk of death, serious cardiovascular or cerebrovascular events including stroke, and vascular access thrombosis was observed when ESAs were administered to target a haemoglobin of greater than 12 g/dl (7.5 mmol/l).



Controlled clinical trials have not shown significant benefits attributable to the administration of epoetins when haemoglobin concentration is increased beyond the level necessary to control symptoms of anaemia and to avoid blood transfusion.



Aranesp should be used with caution in patients with epilepsy. Convulsions have been reported in patients receiving Aranesp.



This medicinal product contains less than 1 mmol sodium (23 mg) per dose, i.e. essentially 'sodium-free'.



Chronic renal failure patients



In patients with chronic renal failure, maintenance haemoglobin concentration should not exceed the upper limit of the target haemoglobin concentration recommended in section 4.2. In clinical studies, an increased risk of death, serious cardiovascular or cerebrovascular events including stroke, and vascular access thrombosis was observed when ESAs were administered to target a haemoglobin of greater than 12 g/dl (7.5 mmol/l).



Controlled clinical trials have not shown significant benefits attributable to the administration of epoetins when haemoglobin concentration is increased beyond the level necessary to control symptoms of anaemia and to avoid blood transfusion.



Supplementary iron therapy is recommended for all patients with serum ferritin values below 100 µg/l or whose transferrin saturation is below 20%.



Serum potassium levels should be monitored regularly during Aranesp therapy. Potassium elevation has been reported in a few patients receiving Aranesp, though causality has not been established. If an elevated or rising potassium level is observed then consideration should be given to ceasing Aranesp administration until the level has been corrected.



Cancer patients



Effect on tumour growth



Epoetins are growth factors that primarily stimulate red blood cell production. Erythropoietin receptors may be expressed on the surface of a variety of tumour cells. As with all growth factors, there is a concern that epoetins could stimulate the growth of tumours. In several controlled studies, epoetins have not been shown to improve overall survival or decrease the risk of tumour progression in patients with anaemia associated with cancer.



In controlled clinical studies, use of Aranesp and other ESAs have shown:



• shortened time to tumour progression in patients with advanced head and neck cancer receiving radiation therapy when administered to target a haemoglobin of greater than 14 g/dl (8.7 mmol/l), ESAs are not indicated for use in this patient population



• shortened overall survival and increased deaths attributed to disease progression at 4 months in patients with metastatic breast cancer receiving chemotherapy when administered to target a haemoglobin of 12-14 g/dl (7.5-8.7 mmol/l).



• increased risk of death when administered to target a haemoglobin of 12 g/dl (7.5 mmol/l) in patients with active malignant disease receiving neither chemotherapy nor radiation therapy. ESAs are not indicated for use in this patient population.



In view of the above, in some clinical situations blood transfusion should be the preferred treatment for the management of anaemia in patients with cancer. The decision to administer recombinant erythropoietins should be based on a benefit-risk assessment with the participation of the individual patient, which should take into account the specific clinical context. Factors that should be considered in this assessment should include the type of tumour and its stage; the degree of anaemia; life-expectancy; the environment in which the patient is being treated; and patient preference (see section 5.1).



In patients with solid tumours or lymphoproliferative malignancies, if the haemoglobin value exceeds 12 g/dl (7.5 mmol/l), the dosage adaptation described in section 4.2 should be closely respected, in order to minimise the potential risk of thromboembolic events. Platelet counts and haemoglobin level should also be monitored at regular intervals.



4.5 Interaction With Other Medicinal Products And Other Forms Of Interaction



The clinical results obtained so far do not indicate any interaction of darbepoetin alfa with other substances. However, there is potential for an interaction with substances that are highly bound to red blood cells e.g. cyclosporin, tacrolimus. If Aranesp is given concomitantly with any of these treatments, blood levels of these substances should be monitored and the dosage adjusted as the haemoglobin rises.



4.6 Pregnancy And Lactation



For Aranesp no clinical data on exposed pregnancies are available.



Animal studies do not indicate direct harmful effects with respect to pregnancy, embryonal/foetal development, parturition or postnatal development.



Caution should be exercised when prescribing to pregnant women.



As there is no clinical experience with lactating women, Aranesp should not be administered to women who are breast-feeding. When Aranesp therapy is absolutely indicated women must stop breast-feeding.



4.7 Effects On Ability To Drive And Use Machines



Aranesp has no or negligible influence on the ability to drive and use machines.



4.8 Undesirable Effects



General



There have been reports of serious allergic reactions including anaphylactic reaction, angioedema, allergic bronchospasm, skin rash and urticaria associated with darbepoetin alfa.



Clinical trial experience



Chronic renal failure patients



Data presented from controlled studies included 1357 patients, 766 who received Aranesp and 591 patients who received r-HuEPO. In the Aranesp group, 83% were receiving dialysis and 17% were not receiving dialysis.



Injection site pain was reported as attributable to treatment in studies where Aranesp was administered via subcutaneous injection. This was seen more frequently than with r-HuEPO. The injection site discomfort was generally mild and transient in nature and occurred predominantly after the first injection.



Incidence of adverse reactions from controlled clinical studies are:






















MedDRA system organ class




Subject incidence




Adverse drug reaction




Cardiac disorders




Very common (




Hypertension




Skin and subcutaneous tissue disorders




Common (




Rash/erythema




Vascular disorders




Uncommon (




Thromboembolic events




Nervous system disorders




Common (




Stroke




General disorders and administration site conditions




Common (




Injection site pain



Cancer patients



Adverse reactions were determined based on pooled data from seven randomised, double-blind placebo-controlled studies of Aranesp with a total of 2112 patients (Aranesp 1200, placebo 912). Patients with solid tumours (e.g., lung, breast, colon, ovarian cancers) and lymphoid malignancies (e.g., lymphoma, multiple myeloma) were enrolled in the clinical studies.



Incidence of adverse reactions from controlled clinical studies are:



















MedDRA system organ class




Subject incidence




Adverse drug reaction




Skin and subcutaneous tissue disorders




Common (




Rash/erythema




Vascular disorders




Common (




Thromboembolic events including pulmonary embolism




General disorders and administration site conditions




Very Common (




Oedema




Common (




Injection site pain


 


Postmarketing experience



The following adverse reactions have been identified during postmarketing use of Aranesp:



• Pure Red Cell Aplasia. In isolated cases, neutralising anti-erythropoietin antibody mediated pure red cell aplasia (PRCA) associated with Aranesp therapy have been reported predominantly in patients with CRF treated subcutaneously. In case PRCA is diagnosed, therapy with Aranesp must be discontinued and patients should not be switched to another recombinant erythropoietic protein (see section 4.4).



• Allergic reactions, including anaphylactic reaction, angioedema, skin rash and urticaria. Frequency is not known (cannot be estimated from the available data).



• Convulsions. Frequency is not known (cannot be estimated from the available data).



• Hypertension. Frequency is not known (cannot be estimated from the available data).



4.9 Overdose



The therapeutic margin of darbepoetin alfa is very wide. Even at very high serum levels, no symptoms of overdose have been observed.



In the event of polycythaemia, Aranesp should be temporarily withheld (see section 4.2). If clinically indicated, phlebotomy may be performed.



5. Pharmacological Properties



5.1 Pharmacodynamic Properties



Pharmacotherapeutic group: Anti-anemic preparations, other Antianemic preparations. ATC Code: B03XA02.



Human erythropoietin is an endogenous glycoprotein hormone that is the primary regulator of erythropoiesis through specific interaction with the erythropoietin receptor on the erythroid progenitor cells in the bone marrow. The production of erythropoietin primarily occurs in and is regulated by the kidney in response to changes in tissue oxygenation. Production of endogenous erythropoietin is impaired in patients with chronic renal failure and the primary cause of their anaemia is due to erythropoietin deficiency. In patients with cancer receiving chemotherapy the etiology of anaemia is multifactorial. In these patients, erythropoietin deficiency and a reduced response of erythroid progenitor cells to endogenous erythropoietin both contribute significantly towards their anaemia.



Darbepoetin alfa stimulates erythropoiesis by the same mechanism as the endogenous hormone. Darbepoetin alfa has five N-linked carbohydrate chains whereas the endogenous hormone and recombinant human erythropoietins (r-HuEPO) have three. The additional sugar residues are molecularly indistinct from those on the endogenous hormone. Due to its increased carbohydrate content darbepoetin alfa has a longer terminal half-life than r-HuEPO and consequently a greater in vivo activity. Despite these molecular changes, darbepoetin alfa retains a very narrow specificity for the erythropoietin receptor.



Chronic renal failure patients



Patients with CRF experienced greater risks for death and serious cardiovascular events when administered ESAs to target higher versus lower haemoglobin levels (13.5 g/dl (8.4 mmol/l) versus 11.3 g/dl (7.1 mmol/l); 14 g/dl (8.7 mmol/l) versus 10 g/dl (6.2 mmol/l) in two clinical studies.



In a randomised, double-blind, placebo-controlled study (TREAT) of 4,038 CRF patients not on dialysis with type 2 diabetes and haemoglobin levels



Cancer patients receiving chemotherapy



In a prospective, randomised double-blind, placebo-controlled study conducted in 314 lung cancer patients receiving platinum containing chemotherapy there was a significant reduction in transfusion requirements (p < 0.001).



Clinical studies have demonstrated that darbepoetin alfa had similar effectiveness when administered as a single injection either once every three weeks, once every two weeks, or weekly without any increase in total dose requirements.



The safety and effectiveness of once every three weeks dosing of Aranesp therapy in reducing the requirement for red blood cell transfusions in patients undergoing chemotherapy was assessed in a randomised, double-blind, multinational study. This study was conducted in 705 anaemic patients with non-myeloid malignancies receiving multi-cycle chemotherapy. Patients were randomised to receive Aranesp at 500 μg once every three weeks or 2.25 μg/kg once weekly. In both groups, the dose was reduced by 40% of the previous dose (e.g., for first dose reduction, to 300 μg in the once every three weeks group and 1.35 μg/kg in the once weekly group) if haemoglobin increased by more than 1 g/dl in a 14-day period. In the once every three weeks group, 72% of patients required dose reductions. In the once weekly group, 75% of patients required dose reductions. This study supports 500 μg once every three weeks being comparable to once weekly administration with respect to the incidence of subjects receiving at least one red blood cell transfusion from week 5 to the end of treatment phase.



In a prospective, randomised double-blind, placebo-controlled study conducted in 344 anaemic patients with lymphoproliferative malignancies receiving chemotherapy there was a significant reduction in transfusion requirements and an improvement in haemoglobin response (p < 0.001). Improvement in fatigue, as measured by the Functional Assessment of Cancer Therapy-fatigue (FACT-fatigue) scale, was also observed.



Erythropoietin is a growth factor that primarily stimulates red blood cell production. Erythropoietin receptors may be expressed on the surface of a variety of tumour cells.



Survival and tumour progression have been examined in five large controlled studies involving a total of 2833 patients, of which four were double-blind placebo-controlled studies and one was an open-label study. Two of the studies recruited patients who were being treated with chemotherapy. The target haemoglobin concentration in two studies was > 13 g/dl; in the remaining three studies it was 12-14 g/dl. In the open-label study there was no difference in overall survival between patients treated with recombinant human erythropoietin and controls. In the four placebo-controlled studies the hazard ratios for overall survival ranged between 1.25 and 2.47 in favour of controls. These studies have shown a consistent unexplained statistically significant excess mortality in patients who have anaemia associated with various common cancers who received recombinant human erythropoietin compared to controls. Overall survival outcome in the trials could not be satisfactorily explained by differences in the incidence of thrombosis and related complications between those given recombinant human erythropoietin and those in the control group.



A systematic review has also been performed involving more than 9000 cancer patients participating in 57 clinical trials. Meta-analysis of overall survival data produced a hazard ratio point estimate of 1.08 in favour of controls (95% CI: 0.99, 1.18; 42 trials and 8167 patients).



An increased relative risk of thromboembolic events (RR 1.67, 95% CI: 1.35, 2.06, 35 trials and 6769 patients) was observed in patients treated with recombinant human erythropoietin. There is therefore consistent evidence to suggest that there may be significant harm to patients with cancer who are treated with recombinant human erythropoietin. The extent to which these outcomes might apply to the administration of recombinant human erythropoietin to patients with cancer, treated with chemotherapy to achieve haemoglobin concentrations less than 13 g/dl, is unclear because few patients with these characteristics were included in the data reviewed.



A patient-level data analysis has also been performed on more than 13,900 cancer patients (chemo-, radio-, chemoradio-, or no therapy) participating in 53 controlled clinical trials involving several epoetins. Meta-analysis of overall survival data produced a hazard ratio point estimate of 1.06 in favour of controls (95% CI: 1.00, 1.12; 53 trials and 13933 patients) and for the cancer patients receiving chemotherapy, the overall survival hazard ratio was 1.04 (95% CI: 0.97, 1.11; 38 trials and 10,441 patients). Meta-analyses also indicate consistently a significantly increased relative risk of thromboembolic events in cancer patients receiving recombinant human erythropoietin (see section 4.4).



5.2 Pharmacokinetic Properties



Due to its increased carbohydrate content the level of darbepoetin alfa in the circulation remains above the minimum stimulatory concentration for erythropoiesis for longer than the equivalent molar dose of r-HuEPO, allowing darbepoetin alfa to be administered less frequently to achieve the same biological response.



Chronic renal failure patients



The pharmacokinetics of darbepoetin alfa has been studied clinically in Chronic Renal Failure patients following intravenous and subcutaneous administration. The terminal half-life of darbepoetin alfa is 21 hours (SD 7.5) when administered intravenously. Clearance of darbepoetin alfa is 1.9 ml/hr/kg (SD 0.56) and the volume of distribution (Vss) is approximately equal to plasma volume (50 ml/kg). Bioavailability is 37% with subcutaneous administration. Following monthly administration of darbepoetin alfa, at subcutaneous doses ranging from 0.6 to 2.1 µg/kg, the terminal half-life was 73 hours (SD 24). The longer terminal half-life of darbepoetin alfa administered subcutaneously compared to intravenously is due to subcutaneous absorption kinetics. In clinical studies, minimal accumulation was observed with either route of administration. In preclinical studies it has been shown that renal clearance is minimal (up to 2% of total clearance), and does not affect the serum half-life.



Data from 809 patients receiving Aranesp in European clinical studies were analysed to assess the dose required to maintain haemoglobin; no difference was observed between the average weekly dose administered via the intravenous or subcutaneous routes of injection.



Assessment of the pharmacokinetics of darbepoetin alfa in paediatric patients (3 to 16 years) with CRF who were either receiving or not receiving dialysis determined pharmacokinetic profiles for sampling periods up to 1 week (168 hours) after a single subcutaneous or intravenous dose. Compared with pharmacokinetic data from adults with CRF where the same sampling duration was used, the comparison showed that the pharmacokinetics of darbepoetin alfa were similar for paediatric and adult patients with CRF. Following intravenous administration, an approximate 25% difference between paediatric and adult patients in the area under the curve from time 0 to infinity (AUC [0-



Cancer patients receiving chemotherapy



Following subcutaneous administration of 2.25 µg/kg to adult cancer patients, a mean peak concentration of 10.6 ng/ml (SD 5.9) of darbepoetin alfa was reached at a mean time of 91 hours (SD 19.7). These parameters were consistent with dose linear pharmacokinetics over a wide dose range (0.5 to 8 µg/kg weekly and 3 to 9 µg/kg every two weeks). Pharmacokinetic parameters did not change on multiple dosing over 12 weeks (dosing every week or every two weeks). There was an expected moderate (< 2 fold) increase in serum concentration as steady state was approached, but no unexpected accumulation upon repeated administration. A pharmacokinetic study in patients with chemotherapy-induced anaemia treated with 6.75 µg/kg darbepoetin alfa administered SC every 3 weeks in combination with chemotherapy was conducted which allowed for full characterisation of the terminal half-life. In this study, mean (SD) terminal half-life was 74 (SD 27) hours.



5.3 Preclinical Safety Data



In all studies in rats and dogs darbepoetin alfa produced marked increases in haemoglobin, haematocrits, red blood cell counts and reticulocytes, which correspond to the expected pharmacological effects. Adverse events at very high doses were all considered to be related to an exaggerated pharmacological effect (decreased tissue perfusion due to increased blood viscosity). These included myelofibrosis and splenic hypertrophy as well as broadening of the ECG-QRS complex in dogs but no dysrhythmia and no effect on the QT interval were observed.



Darbepoetin alfa did not reveal any genotoxic potential nor did it have any effect on the proliferation of non-haematological cells in vitro or in vivo. In the chronic toxicity studies no tumourigenic or unexpected mitogenic responses were observed in any tissue type. The carcinogenic potential of darbepoetin alfa has not been evaluated in long-term animal studies.



In studies performed in rats and rabbits no clinically relevant evidence of harmful effects with respect to pregnancy, embryonal/ foetal development, parturition or postnatal development was observed. Placental transfer was minimal. No alteration of fertility was detected.



6. Pharmaceutical Particulars



6.1 List Of Excipients



Sodium phosphate monobasic



Sodium phosphate dibasic



Sodium chloride



Polysorbate 80



Water for injections



6.2 Incompatibilities



In the absence of incompatibility studies, Aranesp should not be mixed or administered as an infusion with other medicinal products.



6.3 Shelf Life



2 years.



6.4 Special Precautions For Storage



Store in a refrigerator (2°C - 8°C).



Do not freeze.



Keep the pre-filled syringe container in the outer carton, in order to protect from light.



For the purpose of ambulatory use, Aranesp may be removed from storage once for a maximum single period of seven days at room temperature (up to 25°C). Once a syringe has been removed from the refrigerator and has reached room temperature (up to 25°C) it must either be used within 7 days or disposed of.



6.5 Nature And Contents Of Container



0.4 ml solution for injection (25 µg/ml darbepoetin alfa) in a type 1 glass pre-filled syringe with stainless steel 27 gauge needle. Pack size of 1 or 4 pre-filled syringes.



0.375 ml solution for injection (40 µg/ml darbepoetin alfa) in a type 1 glass pre-filled syringe with stainless steel 27 gauge needle. Pack size of 1 or 4 pre-filled syringes.



0.5 ml solution for injection (40 µg/ml darbepoetin alfa) in a type 1 glass pre-filled syringe with stainless steel 27 gauge needle. Pack size of 1 or 4 pre-filled syringes.



0.3 ml solution for injection (100 µg/ml darbepoetin alfa) in a type 1 glass pre-filled syringe with stainless steel 27 gauge needle. Pack size of 1 or 4 pre-filled syringes.



0.4 ml solution for injection (100 µg/ml darbepoetin alfa) in a type 1 glass pre-filled syringe with stainless steel 27 gauge needle. Pack size of 1 or 4 pre-filled syringes.



0.5 ml solution for injection (100 µg/ml darbepoetin alfa) in a type 1 glass pre-filled syringe with stainless steel 27 gauge needle. Pack size of 1 or 4 pre-filled syringes.



0.3 ml solution for injection (200 µg/ml darbepoetin alfa) in a type 1 glass pre-filled syringe with stainless steel 27 gauge needle. Pack size of 1 or 4 pre-filled syringes.



0.4 ml solution for injection (200 µg/ml darbepoetin alfa) in a type 1 glass pre-filled syringe with stainless steel 27 gauge needle. Pack size of 1 or 4 pre-filled syringes.



0.5 ml solution for injection (200 µg/ml darbepoetin alfa) in a type 1 glass pre-filled syringe with stainless steel 27 gauge needle. Pack size of 1 or 4 pre-filled syringes.



0.65 ml solution for injection (200 µg/ml darbepoetin alfa) in a type 1 glass pre-filled syringe with stainless steel 27 gauge needle. Pack size of 1 or 4 pre-filled syringes.



0.3 ml solution for injection (500 µg/ml darbepoetin alfa) in a type 1 glass pre-filled syringe with stainless steel 27 gauge needle. Pack size of 1 or 4 pre-filled syringes.



0.6 ml solution for injection (500 µg/ml darbepoetin alfa) in a type 1 glass pre-filled syringe with stainless steel 27 gauge needle. Pack size of 1 or 4 pre-filled syringes.



1 ml solution for injection (500 µg/ml darbepoetin alfa) in a type 1 glass pre-filled syringe with stainless steel 27 gauge needle. Pack size of 1 or 4 pre-filled syringes.



The syringes may be presented in either blistered (1- & 4-pack), with or without an automatic needle guard or non-blistered packaging (1-pack only).



The needle cover of the pre-filled syringe contains dry natural rubber (a derivative of latex). See section 4.4.



Not all pack sizes may be marketed.



6.6 Special Precautions For Disposal And Other Handling



Aranesp is a sterile but unpreserved product. Do not administer more than one dose per syringe. Any medicinal product remaining in the pre-filled syringe should be disposed of.



Before administration the Aranesp solution should be inspected for visible particles. Only solutions which are colourless, clear or slightly opalescent, should be injected. Do not shake. Allow the pre-filled syringe to reach room temperature before injecting.



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



7. Marketing Authorisation Holder



Amgen Europe B.V.



Minervum 7

Atarax Tablets






Atarax Film-coated tablets


hydroxyzine hydrochloride



Read all of this leaflet carefully before you start taking this medicine


  • Keep this leaflet. You may need to read it again.

  • If you have any further questions, ask your doctor or pharmacist.

  • This medicine has been prescribed for you. Do not pass it on to others. It may harm them, even if their symptoms are the same as yours.

  • If any of the side effects gets serious, or if you notice any side effects not listed in this leaflet please tell your doctor or pharmacist.


The information in this leaflet has been divided into the following sections:



  • 1. What Atarax is and what it is taken for


  • 2. Check before you take Atarax


  • 3. How to take Atarax


  • 4. Possible side effects


  • 5. How to store Atarax


  • 6. Further information



What Atarax is and what it is used for


Atarax belongs to a group of medicines called antihistamines (used to treat allergic reactions). It is used in adults and children to reduce itching caused by urticaria (nettle rash) and dermatitis (eczema).


Atarax is also used to treat anxiety in adults.




Check before you take Atarax



Do not take Atarax


  • if you are allergic (hypersensitive) to hydroxyzine hydrochloride or any of the ingredients of Atarax (see Section 6 Further information)

  • if you are trying to become pregnant or are in the early stages of pregnancy.

If any of the above applies to you, or if you are not sure, speak to your doctor or pharmacist before you take Atarax.




Take special care with Atarax


Before you take Atarax tell your doctor if:


  • you have kidney disease or are on dialysis

  • you have difficulty passing water e.g. due to an enlarged prostate.

Your doctor will reduce your dose by about half if you have kidney disease.


If the above applies to you, or if you are not sure, speak to your doctor or pharmacist before you take Atarax.




Taking other medicines


Tell your doctor or pharmacist if you are taking or have recently taken any of the following medicines as they may interfere with Atarax or Atarax may increase the effects of these medicines:


  • barbiturates such as sodium amytal or phenobarbitol, used to treat sleeping disorders and epilepsy

  • other CNS depressants, these include: sedatives, tranquillisers, anti-anxiety medicines (such as diazepam and temazepam) and medicines that help you sleep (such as zolpidem, chlormethiazone and buspirone).

Please tell your doctor or pharmacist if you are taking or have recently taken/used any other medicines, including medicines obtained without a prescription.




Taking with food and drink


You should not take alcohol with Atarax because the sedative effects of the alcohol may be increased.




Pregnancy and breast-feeding


Do not take Atarax if you are pregnant, trying to become pregnant or breast-feeding. If you become pregnant whilst taking Atarax tell your doctor immediately.


Ask your doctor or pharmacist for advice before taking any medicine.




Driving and using machines


Atarax may make you drowsy and make you feel less alert than usual for the first few days after you start taking it. If you are affected do not drive or operate machinery until this effect has worn off.




Important information about some of the ingredients of Atarax


Atarax contains lactose, if you have been told by your doctor that you have an intolerance to some sugars, contact your doctor before taking this medicinal product.





How to take Atarax


Always take Atarax exactly as your doctor has told you to. You should check with your doctor or pharmacist if you are not sure.


The usual dose for each condition is given below:



For treating itching in adults and elderly


The starting dose is 25mg at night, your doctor may increase the dose up to 25mg three or four times daily.



For treating itching in children


The dose of Atarax depends on the age of the child:


Children aged 6 months to 6 years:


5mg to 15mg daily which your doctor may increase up to 50mg daily, taken throughout the day.


Children over 6 years:


15mg to 25mg daily which your doctor may increase up to 50mg -100mg daily, taken throughout the day.



For treating anxiety in adults


The dose is 50mg to 100mg four times a day.



For treating anxiety in children


Atarax is not suitable for treating anxiety in children.



For patients with kidney disease


Your doctor will reduce your dose by about half if you have kidney disease.



What to do if you take more Atarax than you should


You probably need not worry if you have taken an extra dose of Atarax by mistake, but if you, or someone else have taken a large overdose you should tell your doctor or contact the nearest accident and emergency department immediately. Show any leftover medicines or the empty packet to the doctor.


Atarax can cause considerable sedation that requires treatment. If any other medicines or substances have been taken at the same time as Atarax tell the medical staff carrying out the treatment of the overdose.




If you forget to take Atarax


If you forget to take a dose, take it as soon as possible, unless it is almost time to take the next dose. Do not take a double dose. Then go on as before.



If you have any further questions on the use of this product, ask your doctor or pharmacist.




Atarax Tablets Side Effects


Do not worry. Like all medicines, Atarax can cause side effects, although not everyone gets them. Atarax can cause the following side effects in some people:


  • drowsiness during the first few days of treatment, this usually disappears as treatment continues

  • feeling giddy

  • weakness

  • headache

  • confusion

  • dryness of the mouth.

Rarely, you may suffer more serious side effects, tell your doctor immediately if you get any of the following:


  • tremor (shakiness)

  • convulsions (fits)

  • you have difficulty passing water.

If any of the side effects gets worse, or if you notice any side effects not listed in this leaflet, please tell your doctor or pharmacist.




How to store Atarax


Keep out of the reach and sight of children.


Do not take Atarax after the expiry date which is stated on the carton after EXP. The expiry date refers to the last day of that month.


Do not store above 25°C.


Medicines should not be disposed of via wastewater or household waste. Ask your pharmacist on how to dispose of medicines no longer required. These measures will help protect the environment.




Further information



What is in Atarax?


The active ingredient in this medicine is hydroxyzine hydrochloride.


The other ingredients are:


Calcium phosphate, lactose, magnesium stearate, maize starch, silicon dioxide and sodium lauryl sulphate.


The 10mg film-coated tablet coating contains Opadry II Orange 85G23730. This is a mixture of Poly(vinyl alcohol), Talc, Macrogol 3350, Sunset yellow (E110), Titanium dioxide (E171), Iron oxide yellow (E172), Quinoline yellow (E102), lecithin (E322).


The 25mg film-coated tablet coating contains Opadry II Green 85G21674. This is a mixture of Poly(vinyl alcohol), Talc, Macrogol 3350, Quinoline yellow (E104), Titanium dioxide (E171), Brilliant blue (E133), Indigo carmine (E132), lecithin (E322).




What Atarax looks like and contents of the pack


Atarax 10mg film-coated tablets are coloured orange imprinted with 'AX' on one side.


Atarax 25mg film-coated tablets are coloured green imprinted with 'AX' on one side.


Atarax film-coated tablets are supplied in blister packs contained in a carton. The Atarax 10mg film-coated tablet pack contains either 84 or 280 film-coated tablets and the Atarax 25mg film-coated tablet pack contains 28 film-coated tablets.


Not all pack sizes may be marketed.




Marketing Authorisation Holder and Manufacturer


The product licence holder is:



Alliance Pharmaceuticals Ltd

Avonbridge House

Chippenham

Wiltshire

SN15 2BB

UK


Atarax is manufactured by:



Recipharm Limited

Vale of Bardsley

Ashton-under-Lyne

Lancashire

OL7 9RR

UK




The information in this leaflet applies only to Atarax. If you have any questions or you are not sure about anything, ask your doctor or a pharmacist.



This leaflet was that was last approved in: April 2010.


Atarax is a registered trademark of Alliance Pharmaceuticals Limited.


Alliance and associated devices are registered trademarks of Alliance Pharmaceuticals Limited.


© Alliance Pharmaceuticals Ltd 2010.


UK 004





Aptivus 250 mg soft capsules





1. Name Of The Medicinal Product



APTIVUS 250 mg soft capsules


2. Qualitative And Quantitative Composition



Each soft capsule contains 250 mg tipranavir.



Excipients (per capsule): 100.0 mg ethanol, 455.0 mg macrogolglycerol ricinoleate and 12.6 mg sorbitol (constituent in « Sorbitol Special-Glycerin Blend »)



For a full list of excipients, see section 6.1.



3. Pharmaceutical Form



Soft capsule.



Each capsule is pink and is imprinted with “TPV 250”.



4. Clinical Particulars



4.1 Therapeutic Indications



APTIVUS, co-administered with low dose ritonavir, is indicated for combination antiretroviral treatment of HIV-1 infection in highly pre-treated adults and adolescents 12 years of age or older with virus resistant to multiple protease inhibitors. APTIVUS should only be used as part of an active combination antiretroviral regimen in patients with no other therapeutic options.



This indication is based on the results of two phase III studies, performed in highly pre-treated adult patients (median number of 12 prior antiretroviral agents) with virus resistant to protease inhibitors and of one phase II study investigating pharmacokinetics, safety and efficacy of APTIVUS in mostly treatment-experienced adolescent patients aged 12 to 18 years (see section 5.1).



In deciding to initiate treatment with APTIVUS, co-administered with low dose ritonavir, careful consideration should be given to the treatment history of the individual patient and the patterns of mutations associated with different agents. Genotypic or phenotypic testing (when available) and treatment history should guide the use of APTIVUS. Initiation of treatment should take into account the combinations of mutations which may negatively impact the virological response to APTIVUS, co-administered with low dose ritonavir (see section 5.1).



4.2 Posology And Method Of Administration




APTIVUS must always be given with low dose ritonavir as a pharmacokinetic enhancer, and in combination with other antiretroviral medicinal products. The Summary of Product Characteristics of ritonavir must therefore be consulted prior to initiation of therapy with APTIVUS (especially as regards the contraindications, warnings and undesirable effects sections).


APTIVUS should be prescribed by physicians who are experienced in the treatment of HIV-1 infection.



APTIVUS with ritonavir should not be used in treatment-naïve patients.



Posology



Patients should be advised of the need to take APTIVUS and ritonavir every day as prescribed. If a dose is missed by more than 5 hours, the patient should be instructed to wait and then to take the next dose of APTIVUS and ritonavir at the regularly scheduled time. If a dose is missed by less than 5 hours, the patient should be instructed to take the missed dose immediately, and then to take the next dose of APTIVUS and ritonavir at the regularly scheduled time.



Adults



The recommended dose of APTIVUS is 500 mg, co-administered with 200 mg ritonavir (low dose ritonavir), twice daily.



Doses of ritonavir lower than 200 mg twice daily should not be used as they might alter the efficacy profile of the combination.



Paediatric population



Adolescents from 12 years of age



The recommended dose of APTIVUS is 500 mg, co-administered with 200 mg ritonavir (low dose ritonavir), twice daily (see section 4.4 for precautionary measures in adolescents).



Doses of ritonavir lower than 200 mg twice daily should not be used as they might alter the efficacy profile of the combination.



Since currently only limited efficacy and safety data are available for adolescents (see section 5.1) close monitoring of virologic response and tolerance is particularly warranted in this patient group.



Children under 12 years of age:



The safety and efficacy of APTIVUS capsules in children aged 2 to 12 years has not been established.



Currently available data are described in section 5.1 and 5.2 but no recommendation on a posology can be made.



Also, appropriate dose adjustments for children under 12 years cannot be achieved with APTIVUS capsules. APTIVUS oral solution is available for children between 2 and 12 years of age (please refer to the respective SPC for further details).



The safety and efficacy of APTIVUS in children under 2 years of age has not been established. No data are available.



Elderly



Clinical studies of APTIVUS did not include sufficient numbers of subjects aged 65 and over to determine whether they respond differently from younger subjects (see section 5.2).



In general, caution should be exercised in the administration and monitoring of APTIVUS in elderly patients reflecting the greater frequency of decreased hepatic, renal, or cardiac function, and of concomitant disease or other therapy. (see section 4.4)



Liver impairment



Tipranavir is metabolised by the hepatic system. Liver impairment could therefore result in an increase of tipranavir exposure and a worsening of its safety profile. Therefore, APTIVUS should be used with caution, and with increased monitoring frequency, in patients with mild hepatic impairment (Child-Pugh Class A). APTIVUS is contraindicated in patients with moderate or severe (Child-Pugh Class B or C) hepatic impairment (see sections 4.3, 4.4 and 5.2).



Renal impairment



No dosage adjustment is required in patients with renal impairment (see sections 4.4 and 5.2).



Method of administration



APTIVUS soft capsules co-administered with low dose ritonavir should be taken with food (see section 5.2).



4.3 Contraindications



Hypersensitivity to the active substance or to any of the excipients.



Patients with moderate or severe (Child-Pugh B or C) hepatic impairment.



Combination of rifampicin with APTIVUS with concomitant low dose ritonavir is contraindicated (see section 4.5).



Herbal preparations containing St John's wort (Hypericum perforatum) must not be used while taking APTIVUS due to the risk of decreased plasma concentrations and reduced clinical effects of tipranavir (see section 4.5).



Co-administration of APTIVUS with low dose ritonavir, with active substances that are highly dependent on CYP3A for clearance, and for which elevated plasma concentrations are associated with serious and/or life-threatening events, is contraindicated. These active substances include antiarrhythmics (amiodarone, bepridil, quinidine), antihistamines (astemizole, terfenadine), ergot derivatives (dihydroergotamine, ergonovine, ergotamine, methylergonovine), gastrointestinal motility agents (cisapride), neuroleptics (pimozide, sertindole), sedatives/hypnotics (orally administered midazolam and triazolam. For caution on parenterally administered midazolam see section 4.5) and HMG-CoA reductase inhibitors (simvastatin and lovastatin). Also contraindicated is the use of the alpha-1 adrenoceptor antagonist alfuzosin, and sildenafil when used for the treatment of pulmonary arterial hypertension. In addition, co-administration of APTIVUS with low dose ritonavir, and medicinal products that are highly dependent on CYP2D6 for clearance, such as the antiarrhythmics flecainide, propafenone and metoprolol given in heart failure, is contraindicated (see section 4.5).



4.4 Special Warnings And Precautions For Use



APTIVUS must be administered with low dose ritonavir to ensure its therapeutic effect (see section 4.2). Failure to correctly co-administer tipranavir with ritonavir will result in reduced plasma levels of tipranavir that may be insufficient to achieve the desired antiviral effect. Patients should be instructed accordingly.



APTIVUS is not a cure for HIV-1 infection or AIDS. Patients receiving APTIVUS or any other antiretroviral therapy may continue to develop opportunistic infections and other complications of HIV-1 infection.



Patients should be advised that there is still a risk of passing HIV to others through blood or sexual contact when taking APTIVUS. Appropriate precautions should continue to be employed.



Switching from APTIVUS capsules to the oral solution: APTIVUS capsules are not interchangeable with the oral solution. Compared to the capsules, tipranavir exposure is higher when administering the same dose as oral solution. Also, the composition of the oral solution is different from that of the capsules, with the high vitamin E content being especially noteworthy. Both of these factors may contribute to an increased risk of adverse reactions (type, frequency and/or severity). Therefore patients should not be switched from APTIVUS capsules to APTIVUS oral solution (see sections 5.1 and 5.2).



Switching from APTIVUS oral solution to the capsules: APTIVUS oral solution is not interchangeable with the capsules. Compared to the oral solution, tipranavir exposure is lower when administering the same dose as capsules. However, children previously treated with APTIVUS oral solution and becoming 12 years of age should be switched to capsules, particularly because of the more favourable safety profile of the capsules. It has to be noted that the switch from the oral solution to the capsule formulation of APTIVUS could be associated with decreased exposure. Therefore, it is recommended that patients switching from APTIVUS oral solution to capsules at the age of 12 years are closely monitored for the virologic response of their antiretroviral regimen (see sections 5.1 and 5.2).



Elderly: Clinical studies of APTIVUS did not include sufficient numbers of subjects aged 65 and over to determine whether they respond differently from younger subjects (see section 5.2).



In general, caution should be exercised in the administration and monitoring of APTIVUS in elderly patients reflecting the greater frequency of decreased hepatic, renal, or cardiac function, and of concomitant disease or other therapy (see section 4.2).



Liver disease: APTIVUS is contraindicated in patients with moderate or severe (Child-Pugh Class B or C) hepatic insufficiency. Limited data are currently available for the use of APTIVUS, co-administered with low dose ritonavir, in patients co-infected with hepatitis B or C. Patients with chronic hepatitis B or C and treated with combination antiretroviral therapy are at an increased risk for severe and potentially fatal hepatic adverse reaction. APTIVUS should be used in this patient population only if the potential benefit outweighs the potential risk, and with increased clinical and laboratory monitoring. In the case of concomitant antiviral therapy for hepatitis B or C, please refer also to the relevant Summary of Product Characteristics for these medicinal products.



Patients with mild hepatic impairment (Child-Pugh Class A) should be closely monitored.



Patients with pre-existing liver dysfunction including chronic active hepatitis have an increased frequency of liver function abnormalities during combination therapy and should be monitored according to standard practice. APTIVUS with ritonavir should be discontinued once signs of worsening liver function occur in patients with pre-existing liver disease.



APTIVUS co-administered with low dose ritonavir, has been associated with reports of clinical hepatitis and hepatic decompensation, including some fatalities. These have generally occurred in patients with advanced HIV disease taking multiple concomitant medicinal products. Caution should be exercised when administering APTIVUS to patients with liver enzyme abnormalities or with a history of hepatitis. Increased ALAT/ASAT monitoring should be considered in these patients.



APTIVUS therapy should not be initiated in patients with pre-treatment ASAT or ALAT greater than 5 times the Upper Limit Normal (ULN) until baseline ASAT/ALAT is stabilised at less than 5X ULN, unless the potential benefit justifies the potential risk.



APTIVUS therapy should be discontinued in patients experiencing ASAT or ALAT elevations greater than 10X ULN, or developing signs or symptoms of clinical hepatitis during therapy. If another cause is identified (eg acute hepatitis A, B or C virus, gallbladder disease, other medicinal products), then rechallenge with APTIVUS may be considered when ASAT/ALAT have returned to the patient's baseline levels.



Liver monitoring



Monitoring of hepatic tests should be done prior to initiation of therapy, after two, four and then every four weeks until 24 weeks, and then every eight to twelve weeks thereafter. Increased monitoring (i.e. prior to initiation of therapy, every two weeks during the first three months of treatment, then monthly until 48 weeks, and then every eight to twelve weeks thereafter) is warranted when APTIVUS and low dose ritonavir are administered to patients with elevated ASAT and ALAT levels, mild hepatic impairment, chronic hepatitis B or C, or other underlying liver disease.



Treatment-naïve patients



In a study performed in antiretroviral naïve adult patients, tipranavir 500 mg with ritonavir 200 mg twice daily, as compared to lopinavir/ritonavir, was associated with an excess in the occurrence of significant (grade 3 and 4) transaminase elevations without any advantage in terms of efficacy (trend towards a lower efficacy). The study was prematurely stopped after 60 weeks.



Therefore, tipranavir with ritonavir should not be used in treatment-naïve patients. (see section 4.2)



Renal impairment



Since the renal clearance of tipranavir is negligible, increased plasma concentrations are not expected in patients with renal impairment.



Haemophilia



There have been reports of increased bleeding, including spontaneous skin haematomas and haemarthrosis in patients with haemophilia type A and B treated with protease inhibitors. In some patients additional Factor VIII was given. In more than half of the reported cases, treatment with protease inhibitors was continued or reintroduced if treatment had been discontinued. A causal relationship has been evoked, although the mechanism of action had not been elucidated. Haemophiliac patients should therefore be made aware of the possibility of increased bleeding.



Bleeding



RESIST participants receiving APTIVUS with ritonavir tended to have an increased risk of bleeding; at 24 weeks the relative risk was 1.98 (95% CI=1.03, 3.80). At 48-weeks the relative risk decreased to 1.27 (95% CI=0.76, 2.12). There was no pattern for the bleeding events and no difference between treatment groups in coagulation parameters. The significance of this finding is being further studied.



Fatal and non-fatal intracranial haemorrhages (ICH) have been reported in patients receiving APTIVUS, many of whom had other medical conditions or were receiving concomitant medicinal products that may have caused or contributed to these events. However, in some cases the role of APTIVUS cannot be excluded. No pattern of abnormal haematological or coagulation parameters has been observed in patients in general, or preceding the development of ICH. Therefore, routine measurement of coagulation parameters is not currently indicated in the management of patients on APTIVUS.



An increased risk of ICH has previously been observed in patients with advanced HIV disease/AIDS such as those treated in the APTIVUS clinical trials.



In in vitro experiments, tipranavir was observed to inhibit human platelet aggregation at levels consistent with exposures observed in patients receiving APTIVUS with ritonavir.



In rats, co-administration with vitamin E increased the bleeding effects of tipranavir (see section 5.3 Preclinical safety data).



APTIVUS, co-administered with low dose ritonavir, should be used with caution in patients who may be at risk of increased bleeding from trauma, surgery or other medical conditions, or who are receiving medicinal products known to increase the risk of bleeding such as antiplatelet agents and anticoagulants or who are taking supplemental vitamin E. Based on the limits of exposure available from observation in clinical trials, it is recommended not to co-administer to patients more than 1,200 IU vitamin E per day.



Diabetes mellitus/hyperglycaemia



New onset of diabetes mellitus, hyperglycaemia or exacerbations of existing diabetes mellitus has been reported in patients receiving antiretroviral therapy, including protease inhibitors. In some of these the hyperglycaemia was severe and in some cases also associated with ketoacidosis. Many of the patients had confounding medical conditions, some of which required therapy with agents that have been associated with the development of diabetes mellitus or hyperglycaemia.



Lipid elevations



Treatment with APTIVUS co-administered with low dose ritonavir and other antiretroviral agents has resulted in increased plasma total triglycerides and cholesterol. Triglyceride and cholesterol testing should be performed prior to initiating tipranavir therapy and during therapy. Treatment-related lipid elevations should be managed as clinically appropriate.



Fat redistribution



Combination antiretroviral therapy has been associated with the redistribution of body fat (lipodystrophy) in HIV infected patients. The long-term consequences of these events are currently unknown. Knowledge about the mechanism is incomplete. A connection between visceral lipomatosis and protease inhibitors, and lipoatrophy and nucleoside reverse transcriptase inhibitors, has been hypothesised. A higher risk of lipodystrophy has been associated with individual factors such as older age, and with factors related to the active substance such as longer duration of antiretroviral treatment and associated metabolic disturbances. Clinical examination should include evaluation for physical signs of fat redistribution. Consideration should be given to the measurement of fasting serum lipids and blood glucose. Lipid disorders should be managed as clinically appropriate (see section 4.8).



Immune reactivation syndrome



In HIV-infected patients with severe immune deficiency at the time of institution of combination antiretroviral therapy (CART), an inflammatory reaction to asymptomatic or residual opportunistic pathogens may arise and cause serious clinical conditions, or aggravation of symptoms. Typically, such reactions have been observed within the first few weeks or months of initiation of CART. Relevant examples are cytomegalovirus retinitis, generalised and/or focal mycobacterial infections and Pneumocystis pneumonia. Any inflammatory symptoms should be evaluated and treatment instituted when necessary. In addition, reactivation of herpes simplex and herpes zoster has been observed in clinical studies with APTIVUS, co-administered with low dose ritonavir.



Rash



Mild to moderate rashes including urticarial rash, maculopapular rash, and photosensitivity have been reported in subjects receiving APTIVUS, co-administered with low dose ritonavir. At 48-weeks in Phase III trials, rash of various types was observed in 15.5% males and 20.5% females receiving APTIVUS co-administered with low dose ritonavir. Additionally, in one interaction trial, in healthy female volunteers administered a single dose of ethinyl oestradiol followed by APTIVUS co-administered with low dose ritonavir, 33% of subjects developed a rash. Rash accompanied by joint pain or stiffness, throat tightness, or generalized pruritus has been reported in both men and women receiving APTIVUS co-administered with low dose ritonavir. In the paediatric clinical trial, the frequency of rash (all grades, all causality) through 48 weeks of treatment was higher than in adult patients.



Osteonecrosis



Although the aetiology is considered to be multifactorial (including corticosteroid use, alcohol consumption, severe immunosuppression, higher body mass index), cases of osteonecrosis have been reported particularly in patients with advanced HIV-disease and/or long-term exposure to combination antiretroviral therapy (CART). Patients should be advised to seek medical advice if they experience joint aches and pain, joint stiffness or difficulty in movement.



Interactions



The interaction profile of tipranavir, co-administered with low dose ritonavir, is complex. For a description of the mechanisms and potential mechanisms contributing to the interaction profile of tipranavir, see section 4.5.



Abacavir and zidovudine: The concomitant use of APTIVUS, co-administered with low dose ritonavir, with zidovudine or abacavir, results in a significant decrease in plasma concentration of these nucleoside reverse transcriptase inhibitors (NRTIs). Therefore, the concomitant use of zidovudine or abacavir with APTIVUS, co-administered with low dose ritonavir, is not-recommended unless there are no other available NRTIs suitable for patient management (see section 4.5).



Protease inhibitors: Concomitant use of APTIVUS, co-administered with low dose ritonavir, with the protease inhibitors amprenavir, lopinavir or saquinavir (each co-administered with low dose ritonavir) in a dual-boosted regimen, results in significant decreases in plasma concentrations of these protease inhibitors. A significant decrease in plasma concentrations of atazanavir and a marked increase of tipranavir and ritonavir concentrations was observed when APTIVUS, associated with low dose ritonavir, was co-administered with atazanavir (see section 4.5). No data are currently available on interactions of tipranavir, co-administered with low dose ritonavir, with protease inhibitors other than those listed above. Therefore, the co-administration of tipranavir, co-administered with low dose ritonavir, with protease inhibitors is not recommended.



Oral contraceptives and oestrogens: Since levels of ethinyl oestradiol are decreased, the co-administration of APTIVUS co-administered with low dose ritonavir is not recommended. Alternative or additional contraceptive measures are to be used when oestrogen based oral contraceptives are co-administered with APTIVUS co-administered with low dose ritonavir (see section 4.5). Patients using oestrogens as hormone replacement therapy should be clinically monitored for signs of oestrogen deficiency. Women using oestrogens may have an increased risk of non serious rash.



Anticonvulsants: Caution should be used when prescribing carbamazepine, phenobarbital, and phenytoin. APTIVUS may be less effective due to decreased tipranavir plasma concentrations in patients taking these agents concomitantly.



Halofantrine, lumefantrine: Due to their metabolic profile and inherent risk of inducing torsades de pointes, administration of halofantrine and lumefantrine with APTIVUS co-administered with low dose ritonavir, is not recommended.



Disulfiram/metronidazole: APTIVUS soft capsules contain alcohol (7% ethanol, ie 100 mg per capsule or up to 200 mg per dose) which can produce disulfiram-like reactions when co-administered with disulfiram or other medicinal products which produce this reaction (eg metronidazole).



Fluticasone: Concomitant use of tipranavir, co-administered with low dose ritonavir, and fluticasone or other glucocorticoids that are metabolised by CYP3A4 is not recommended unless the potential benefit of treatment outweighs the risk of systemic corticosteroid effects, including Cushing's syndrome and adrenal suppression (see section 4.5).



Atorvastatin: tipranavir, co-administered with low dose ritonavir, increases the plasma concentrations of atorvastatin (see section 4.5). The combination is not recommended. Other HMG-CoA reductase inhibitors should be considered such as pravastatin, fluvastatin or rosuvastatin (see section 4.5). However, if atorvastatin is specifically required for patient management, it should be started with the lowest dose and careful monitoring is necessary.



Omeprazole and other proton pump inhibitors: The combined use of APTIVUS with ritonavir with either omeprazole, esomeprazole or with other proton pump inhibitors is not recommended (see section 4.5).



Colchicine:



The administration of colchicine and APTIVUS, co-administered with low dose ritonavir, is not recommended. (see section 4.5).



Salmeterol:



Concomitant use of salmeterol and APTIVUS, co-administered with low dose ritonavir, is not recommended (see section 4.5).



Bosentan: Due to the marked hepatotoxicity of bosentan and the potential for increasing the liver toxicity associated with APTIVUS,co-administered with low dose ritonavir, this combination is not recommended.



Warnings related to certain excipients:



Due to APTIVUS containing small amounts of sorbitol, patients with rare hereditary problems of fructose intolerance should not take this medicine.



APTIVUS contains macrogolglycerol ricinoleate which may cause stomach upset and diarrhoea.



This medicinal product contains 7 vol % ethanol (alcohol), i.e. up to 400 mg per daily dose, equivalent to 8 ml of beer, or less than 4 ml of wine.



Harmful for those suffering from alcoholism.



To be taken into account in pregnant or breast-feeding women, children and high-risk groups such as patients with liver disease, or epilepsy.



4.5 Interaction With Other Medicinal Products And Other Forms Of Interaction





The interaction profile of APTIVUS, co-administered with low dose ritonavir, is complex and requires special attention in particular in combination with other antiretroviral agents.



Interaction studies have only been performed in adults.



Metabolic profile of tipranavir:



Tipranavir is a substrate, an inducer and an inhibitor of cytochrome P450 CYP3A. When co-administered with ritonavir at the recommended dosage (see section 4.2) there is a net inhibition of P450 CYP3A. Co-administration of APTIVUS and low dose ritonavir with agents primarily metabolised by CYP3A may result in changed plasma concentrations of tipranavir or the other agents, which could alter their therapeutic and undesirable effects (see list and details of considered agents, below). Agents that are contraindicated specifically due to the expected magnitude of interaction and potential for serious adverse reactions are detailed in this section, and listed in section 4.3.



A cocktail study was conducted in 16 healthy volunteers with twice-daily 500 mg tipranavir with 200 mg ritonavir capsule administration for 10 days to assess the net effect on the activity of hepatic CYP 1A2 (caffeine), 2C9 (warfarin), 2D6 (dextromethorphan), both intestinal/hepatic CYP 3A4 (midazolam) and P-glycoprotein (Pgp) (digoxin). At steady state, there was a significant induction of CYP 1A2 and a slight induction on CYP 2C9. Potent inhibition of CYP 2D6 and both hepatic and intestinal CYP 3A4 activities were observed. Pgp activity is significantly inhibited after the first dose, but there was a slight induction at steady state. Practical recommendations deriving from this study are displayed below.



Studies in human liver microsomes indicated tipranavir is an inhibitor of CYP 1A2, CYP 2C9, CYP 2C19 and CYP 2D6. The potential net effect of tipranavir with ritonavir on CYP 2D6 is inhibition, because ritonavir is also a CYP 2D6 inhibitor. The in vivo net effect of tipranavir with ritonavir on CYP 1A2, CYP 2C9 and CYP 2C19, indicates, through a preliminary study, an inducing potential of tipranavir with ritonavir on CYP1A2 and, to a lesser extent, on CYP2C9 and P-gp after several days of treatment. Data are not available to indicate whether tipranavir inhibits or induces glucuronosyl transferases.



In vitro studies show that tipranavir is a substrate and also an inhibitor of Pgp.



It is difficult to predict the net effect of APTIVUS co-administered with low dose ritonavir on oral bioavailability and plasma concentrations of agents that are dual substrates of CYP3A and Pgp. The net effect will vary depending on the relative affinity of the co-administered substance for CYP3A and Pgp, and the extent of intestinal first-pass metabolism/efflux.



Co-administration of APTIVUS and agents that induce CYP3A and/or Pgp may decrease tipranavir concentrations and reduce its therapeutic effect (see list and details of considered agents, below). Co-administration of APTIVUS and medicinal products that inhibit Pgp may increase tipranavir plasma concentrations.



Known and theoretical interactions with selected antiretrovirals and non-antiretroviral medicinal products are listed in the table below.



Interaction table



Interactions between APTIVUS and co-administered medicinal products are listed in the table below (increase is indicated as “↑”, decrease as “



Unless otherwise stated, studies detailed below have been performed with the recommended dosage of APTIVUS/r (i.e. 500/200 mg BID). However, some PK interaction studies were not performed with this recommended dosage. Nevertheless, the results of many of these interaction studies can be extrapolated to the recommended dosage since the doses used (eg. TPV/r 500/100 mg, TPV/r 750/200 mg) represented extremes of hepatic enzyme induction and inhibition and bracketed the recommended dosage of APTIVUS/r.

































































































Drugs by therapeutic area




Interaction Geometric mean change (%)




Recommendations concerning co-administration




Anti-infectives


  


Antiretrovirals


  


Nucleoside and nucleotide reverse transcriptase inhibitors (NRTIs)


  


Since there is no significant impact of nucleoside and nucleotide analogues on the P450 enzyme system no dosage adjustment of APTIVUS is required when co-administered with these agents.


  


Abacavir 300 mg BID



(TPV/r 750/100 mg BID)




Abacavir Cmax



Abacavir AUC



The clinical relevance of this reduction has not been established, but may decrease the efficacy of abacavir.



Mechanism unknown.




The concomitant use of APTIVUS, co-administered with low dose ritonavir, with abacavir is not recommended unless there are no other available NRTIs suitable for patient management. In such cases no dosage adjustment of abacavir can be recommended (see section 4.4).




Didanosine 200 mg BID,



(TPV/r 250/200 mg BID)



(TPV/r 750/100 mg BID)




Didanosine Cmax



Didanosine AUC



Didanosine Cmax



Didanosine AUC ↔



The clinical relevance of this reduction in didanosine concentrations has not been established.



Mechanism unknown.




Dosing of enteric-coated didanosine and APTIVUS soft capsules, co-administered with low dose ritonavir, should be separated by at least 2 hours to avoid formulation incompatibility.




Lamivudine 150 mg BID



(TPV/r 750/100 mg BID)




No clinically significant interaction is observed.




No dosage adjustment necessary.




Stavudine



40 mg BID > 60 kg



30 mg BID < 60 kg



(TPV/r 750/100 mg BID)




No clinically significant interaction is observed.




No dosage adjustment necessary.




Zidovudine 300 mg BID



(TPV/r 750/100 mg BID)




Zidovudine Cmax



Zidovudine AUC



The clinical relevance of this reduction has not been established, but may decrease the efficacy of zidovudine.



Mechanism unknown.




The concomitant use of APTIVUS, co-administered with low dose ritonavir with zidovudine is not recommended unless there are no other available NRTIs suitable for patient management. In such cases no dosage adjustment of zidovudine can be recommended (see section 4.4).




Tenofovir 300 mg QD



(TPV/r 750/200 mg BID)




No clinically significant interaction is observed.




No dosage adjustment necessary.




Non-nucleoside reverse transcriptase inhibitors (NNRTIs)


  


Efavirenz 600 mg QD




No clinically significant interaction is observed.




No dosage adjustment necessary.




Nevirapine



No interaction study performed




The limited data available from a phase IIa study in HIV-infected patients suggest that no significant interaction is expected between nevirapine and TPV/r. Moreover a study with TPV/r and another NNRTI (efavirenz) did not show any clinically relevant interaction (see above).




No dosage adjustment necessary.




Protease inhibitors (PIs)


  


According to current treatment guidelines, dual therapy with protease inhibitors is generally not recommended


  


Amprenavir/ritonavir 600/100 mg BID




Amprenavir Cmax



Amprenavir AUC



Amprenavir Cmin



The clinical relevance of this reduction in amprenavir concentrations has not been established.



Mechanism unknown.




The concomitant use of APTIVUS, co-administered with low dose ritonavir, with amprenavir/ritonavir is not recommended.



If the combination is nevertheless considered necessary, a monitoring of the plasma levels of amprenavir is strongly encouraged (see section 4.4).




Atazanavir/ritonavir 300/100 mg QD



(TPV/r 500/100 mg BID)




Atazanavir Cmax



Atazanavir AUC



Atazanavir Cmin



Mechanism unknown.



Tipranavir Cmax ↑ 8%



Tipranavir AUC ↑ 20%



Tipranavir Cmin ↑ 75%



Inhibition of CYP 3A4 by atazanavir/ritonavir and induction by tipranavir/r.




The concomitant use of APTIVUS, co-administered with low dose ritonavir, with atazanavir/ritonavir is not recommended.



If the co-administration is nevertheless considered necessary, a close monitoring of the safety of tipranavir and a monitoring of plasma concentrations of atazanavir are strongly encouraged (see section 4.4).




Lopinavir/ritonavir 400/100 mg BID




Lopinavir Cmax



Lopinavir AUC



Lopinavir Cmin



The clinical relevance of this reduction in lopinavir concentrations has not been established.



Mechanism unknown.




The concomitant use of APTIVUS, co-administered with low dose ritonavir, with lopinavir/ritonavir is not recommended.



If the combination is nevertheless considered necessary, a monitoring of the plasma levels of lopinavir is strongly encouraged (see section 4.4).




Saquinavir/ritonavir 600/100 mg QD




Saquinavir Cmax



Saquinavir AUC



Saquinavir Cmin



The clinical relevance of this reduction in saquinavir concentrations has not been established.



Mechanism unknown.




The concomitant use of APTIVUS, co-administered with low dose ritonavir, with saquinavir/ritonavir is not recommended.



If the combination is nevertheless considered necessary, a monitoring of the plasma levels of saquinavir is strongly encouraged (see section 4.4).




Protease inhibitors other than those listed above




No data are currently available on interactions of tipranavir, co-administered with low dose ritonavir, with protease inhibitors other than those listed above.




Combination with APTIVUS, co-administered with low dose ritonavir, is not recommended (see section 4.4)




Fusion inhibitors


  


Enfuvirtide



No interaction study performed




In studies where tipranavir co-administered with low-dose ritonavir was used with or without enfuvirtide, it has been observed that the steady-state plasma tipranavir trough concentration of patients receiving enfuvirtide were 45% higher as compared to patients not receiving enfuvirtide. No information is available for the parameters AUC and Cmax.



A pharmacokinetic interaction is mechanistically unexpected and the interaction has not been confirmed in a controlled interaction study.




The clinical impact of the observed data, especially regarding the tipranavir with ritonavir safety profile, remains unknown. Nevertheless, the clinical data available from the RESIST trials did not suggest any significant alteration of the tipranavir with ritonavir safety profile when combined with enfuvirtide as compared to patients treated with tipranavir with ritonavir without enfuvirtide.




Integrase strand transfer inhibitors


  


Raltegravir 400 mg BID




Raltegravir Cmax ↔



Raltegravir AUC 0-12↔



Raltegravir C12:



Despite an almost half reduction of C12, previous clinical studies with this combination did not evidence an impaired outcome.



The mechanism of action is thought to be induction of glucuronosyltransferase by tipranavir/r.




No particular dose adjustment is recommended.




Antifungals


  


Fluconazole 200 mg QD (Day 1) then 100 mg QD




Fluconazole ↔



Tipranavir Cmax ↑ 32%



Tipranavir AUC ↑ 50%



Tipranavir Cmin ↑ 69%



Mechanism unknown




No dosage adjustments are recommended. Fluconazole doses >200 mg/day are not recommended.




Itraconazole



Ketoconazole



No interaction study performed




Based on theoretical considerations tipranavir, co-administered with low dose ritonavir, is expected to increase itraconazole or ketoconazole concentrations.



Based on theoretical considerations, tipranavir or ritonavir concentrations might increase upon co-administration with itraconazole or ketoconazole.




Itraconazole or ketoconazole should be used with caution (doses >200 mg/day are not recommended).




Voriconazole



No interaction study performed




Due to multiple CYP isoenzyme systems involved in voriconazole metabolism, it is difficult to predict the interaction with tipranavir, co-administered with low-dose ritonavir.




Based on the known interaction of voriconazole with low dose ritonavir (see voriconazole SPC) the co-administration of tipranavir/r and voriconazole should be avoided, unless an assessment of the benefit/risk to the patient justifies the use of voriconazole.




Anti-gouts


  


Colchicine




Based on theoretical considerations, colchicine concentrations may increase upon co-administration with tipranavir and low dose ritonavir.



Colchicine is a substrate of CYP3A4 and P-gp (an intestinal efflux transporter).




The administration of APTIVUS with low dose ritonavir and colchicine is not recommended.




Antibiotics