Summary of medicine characteristics - DARUNAVIR KRKA D.D. 800 MG FILM-COATED TABLETS
Darunavir Krka d.d. 800 mg film-coated tablets
2 QUALITATIVE AND QUANTITATIVE COMPOSITION
Each film-coated tablet contains 800 mg darunavir.
For the full list of excipients, see section 6.1.
Film-coated tablet (tablet)
Brownish red, oval, biconvex film-coated tablets, engraved with a mark S3 on one side. Tablet dimension: 20 × 10 mm.
4.1 Therapeutic indications
Darunavir Krka d.d., co-administered with low dose ritonavir is indicated in combination with other antiretroviral medicinal products for the treatment of patients with human immunodeficiency virus (HIV-1) infection.
Darunavir Krka d.d., co-administered with cobicistat is indicated in combination with other antiretroviral medicinal products for the treatment of patients with human immunodeficiency virus (HIV-1) infection in adults and adolescents (aged 12 years and older, weighing at least 40 kg) (see section 4.2).
Darunavir Krka d.d. 400 mg and 800 mg tablets may be used to provide suitable dose regimens for the treatment of HIV-1 infection in adult and paediatric patients from the age of 3 years and at least 40 kg body weight who are:
– antiretroviral therapy (ART)-naive (see section 4.2).
– ART-experienced with no darunavir resistance associated mutations (DRV-RAMs) and who have plasma HIV-1 RNA < 100,000 copies/ml and CD4+ cell count > 100 cells x 106/L. In deciding to initiate treatment with darunavir in such ART-experienced patients, genotypic testing should guide the use of darunavir (see sections 4.2, 4.3, 4.4 and 5.1).
4.2 Posology and method of administration
Therapy should be initiated by a healthcare provider experienced in the management of HIV infection. After therapy with darunavir has been initiated, patients should be advised not to alter the dosage, dose form or discontinue therapy without discussing with their healthcare provider.
The interaction profile of darunavir depends on whether ritonavir or cobicistat is used as pharmacokinetic enhancer. Darunavir may therefore have different contraindications and recommendations for concomitant medications depending on whether the compound is boosted with ritonavir or cobicistat (see sections 4.3, 4.4 and 4.5).
Posology
Darunavir must always be given orally with cobicistat or low dose ritonavir as a pharmacokinetic enhancer and in combination with other antiretroviral medicinal products. The Summary of Product Characteristics of cobicistat or ritonavir as appropriate, must therefore be consulted prior to initiation of therapy with darunavir. Cobicistat is not indicated for use in twice daily regimens or for use in the paediatric population less than 12 years of age weighing less than 40 kg.
This product is only available as film coated tablets and is thus not suitable for patients who are unable to swallow intact tablets, for example young children. For use in these patients, more suitable formulations containing darunavir should be checked for their availability.
ART-naive adult patients
The recommended dose regimen is 800 mg once daily taken with cobicistat 150 mg once daily or ritonavir 100 mg once daily taken with food. Darunavir Krka d.d. 400 mg and 800 mg tablets can be used to construct the once daily 800 mg regimen.
ART-experienced adult patients
The recommended dose regimens are as follows:
– In ART-experienced patients with no darunavir resistance associated mutations (DRV-RAMs)* and who have plasma HIV-1 RNA < 100,000 copies/ml and CD4+ cell count > 100 cells x 106/L (see section 4.1) a regimen of 800 mg once daily with cobicistat 150 mg once daily or ritonavir 100 mg once daily taken with food may be used. Darunavir Krka d.d. 400 mg and 800 mg tablets can be used to construct the once daily 800 mg regimen.
– In all other ART-experienced patients or if HIV-1 genotype testing is not available, the recommended dose regimen is 600 mg twice daily taken with ritonavir 100 mg twice daily taken with food. See the Summary of Product Characteristics for Darunavir Krka d.d. 600 mg tablets.
* DRV-RAMs: V11I, V32I, L33F, I47V, I50V, I54M, I54L, T74P, L76V, I84V and L89V
ART-na'ive paediatric patients (3 to 17 years of age and weighing at least 40 kg)
The recommended dose regimen is 800 mg once daily with ritonavir 100 mg once daily taken with food or 800 mg once daily with cobicistat 150 mg once daily taken with food (in adolescent patients 12 years of age or older). Darunavir Krka d.d. 400 mg and 800 mg tablets can be used to construct the once daily 800 mg regimen. The dose of cobicistat to be used with darunavir in children less than 12 years of age has not been established.
ART-experienced paediatric patients (3 to 17 years of age and weighting at least 40 kg)
The dose of cobicistat to be used with darunavir in children less than 12 years of age has not been established.
The recommended dose regimens are as follows:
– In ART-experienced patients without DRV-RAMs* and who have plasma HIV-1 RNA < 100,000 copies/ml and CD4+ cell count > 100 cells x 106/L (see section 4.1) a regimen of 800 mg once daily with ritonavir 100 mg once daily taken with food or 800 mg once daily with cobicistat 150 mg once daily taken with food (in adolescent patients 12 years of age or older) may be used. Darunavir Krka d.d. 400 mg and 800 mg tablets can be used to construct the once daily 800 mg regimen. The dose of cobicistat to be used with darunavir in children less than 12 years of age has not been established.
– In all other ART-experienced patients or if HIV-1 genotype testing is not available, the recommended dose regimen is described in the Summary of Product Characteristics for Darunavir Krka d.d. 600 mg tablets.
* DRV-RAMs: V11I, V32I, L33F, I47V, I50V, I54M, I54L, T74P, L76V, I84V and L89V
Advice on missed doses
If a once daily dose of darunavir and/or cobicistat or ritonavir is missed within 12 hours of the time it is usually taken, patients should be instructed to take the prescribed dose of darunavir and cobicistat or ritonavir with food as soon as possible. If this is noticed later than 12 hours after the time it is usually taken, the missed dose should not be taken and the patient should resume the usual dosing schedule.
This guidance is based on the half-life of darunavir in the presence of cobicistat or ritonavir and the recommended dosing interval of approximately 24 hours.
If a patient vomits within 4 hours of taking the medicine, another dose of darunavir with cobicistat or ritonavir should be taken with food as soon as possible. If a patient vomits more than 4 hours after taking the medicine, the patient does not need to take another dose of darunavir with cobicistat or ritonavir until the next regularly scheduled time.
Special populations
Elderly
Limited information is available in this population, and therefore, darunavir should be used with caution in this age group (see sections 4.4 and 5.2).
Hepatic impairment
Darunavir is metabolised by the hepatic system. No dose adjustment is recommended in patients with mild (Child-Pugh Class A) or moderate (Child-Pugh Class B) hepatic impairment, however, darunavir should be used with caution in these patients. No pharmacokinetic data are available in patients with severe hepatic impairment. Severe hepatic impairment could result in an increase of darunavir exposure and a worsening of its safety profile. Therefore, darunavir must not be used in patients with severe hepatic impairment (Child-Pugh Class C) (see sections 4.3, 4.4 and 5.2).
Renal impairment
No dose adjustment is required for darunavir/ritonavir in patients with renal impairment (see sections 4.4 and 5.2). Cobicistat has not been studied in patients receiving dialysis, and, therefore, no recommendation can be made for the use of darunavir/cobicistat in these patients.
Cobicistat inhibits the tubular secretion of creatinine and may cause modest increases in serum creatinine and modest declines in creatinine clearance. Hence, the use of creatinine clearance as an estimate of renal elimination capacity may be misleading. Cobicistat as a pharmacokinetic enhancer of darunavir should, therefore, not be initiated in patients with creatine clearance less than 70 ml/min if any co-administered agent requires dose adjustment based on creatinine clearance: e.g. emtricitabine, lamivudine, tenofovir disoproxil (as fumarate, phosphate or succinate) or adefovir dipovoxil.
For information on cobicistat, consult the cobicistat Summary of Product Characteristics.
Paediatric population
Darunavir Krka d.d. should not be used in children
– below 3 years of age, because of safety concerns (see sections 4.4 and 5.3), or,
– less than 15 kg body weight, as the dose for this population has not been established in a sufficient number of patients (see section 5.1).
Darunavir Krka d.d. taken with cobicistat should not be used in children aged 3 to 11 years of age weighing < 40 kg as the dose of cobicistat to be used in these children has not been established (see sections 4.4 and 5.3).
For dosage recommendations in children, see the Summary of Product Characteristics for Darunavir Krka d.d. 600 mg tablets.
Pregnancy and postpartum
No dose adjustment is required for darunavir/ritonavir during pregnancy and postpartum. Darunavir/ritonavir should be used during pregnancy only if the potential benefit justifies the potential risk (see sections 4.4, 4.6 and 5.2).
Treatment with darunavir/cobicistat 800/150 mg during pregnancy results in low darunavir exposure (see sections 4.4 and 5.2). Therefore, therapy with darunavir/cobicistat should not be initiated during pregnancy, and women who become pregnant during therapy with darunavir/cobicistat should be switched to an alternative regimen (see sections 4.4 and 4.6). Darunavir/ritonavir may be considered as an alternative.
Method of administration
Patients should be instructed to take darunavir with cobicistat or low dose ritonavir within 30 minutes after completion of a meal. The type of food does not affect the exposure to darunavir (see sections 4.4, 4.5 and 5.2).
4.3 Contraindications
Hypersensitivity to the active substance or to any of the excipients listed in section 6.1.
Patients with severe (Child-Pugh Class C) hepatic impairment.
Concomitant treatment with any of the following medicinal products given the expected decrease in plasma concentrations of darunavir, ritonavir and cobicistat and the potential for loss of therapeutic effect (see sections 4.4 and 4.5).
Applicable to darunavir boosted with either ritonavir or cobicistat:
– The combination product lopinavir/ritonavir (see section 4.5).
– The strong CYP3A inducers rifampicin and herbal preparations containing St John’s wort (Hypericum perforatum). Co-administration is expected to reduce plasma concentrations of darunavir, ritonavir and cobicistat, which could lead to loss of therapeutic effect and possible development of resistance (see sections 4.4 and 4.5).
Applicable to darunavir boosted with cobicistat, not when boosted with ritonavir:
– Darunavir boosted with cobicistat is more sensitive for CYP3A induction than darunavir boosted with ritonavir. Concomitant use with strong CYP3A inducers is contraindicated, since these may reduce the exposure to cobicistat and darunavir leading to loss of therapeutic effect.
Strong CYP3A inducers include e.g. carbamazepine, phenobarbital and phenytoin (see sections 4.4 and 4.5).
Darunavir boosted with either ritonavir or cobicistat inhibits the elimination of active substances that are highly dependent on CYP3A for clearance, which results in increased exposure to the co-administered medicinal product. Therefore, concomitant treatment with such medicinal products for which elevated plasma concentrations are associated with serious and/or life-threatening events is contraindicated (applies to darunavir boosted with either ritonavir or cobicistat). These active substances include e.g.: – alfuzosin
– amiodarone, bepridil, dronedarone, ivabradine, quinidine, ranolazine
– astemizole, terfenadine
– colchicine when used in patients with renal and/or hepatic impairment (see section
– 4.5)
– ergot derivatives (e.g. dihydroergotamine, ergometrine, ergotamine, methylergonovine)
– elbasvir/grazoprevir
cisapride
dapoxetine
domperidone
naloxegol
lurasidone, pimozide, quetiapine, sertindole (see section 4.5)
triazolam, midazolam administered orally (for caution on parenterally
administered midazolam, see section 4.5)
sildenafil – when used for the treatment of pulmonary arterial hypertension, avanafil
simvastatin, lovastatin and lomitapide (see section 4.5)
dabigatran, ticagrelor (see section 4.5).
4.4 Special warnings and precautions for use
While effective viral suppression with antiretroviral therapy has been proven to substantially reduce the risk of sexual transmission, a residual risk cannot be excluded. Precautions to prevent transmission should be taken in accordance with national guidelines.
Regular assessment of virological response is advised. In the setting of lack or loss of virological response, resistance testing should be performed.
Darunavir must always be given orally with cobicistat or low dose ritonavir as a pharmacokinetic enhancer and in combination with other antiretroviral medicinal products (see section 5.2). The Summary of Product Characteristics of cobicistat or ritonavir as appropriate, must therefore be consulted prior to initiation of therapy with darunavir.
Increasing the dose of ritonavir from that recommended in section 4.2 did not significantly affect darunavir concentrations. It is not recommended to alter the dose of cobicistat or ritonavir.
Darunavir binds predominantly to a1-acid glycoprotein. This protein binding is concentration-dependent indicative for saturation of binding. Therefore, protein displacement of medicinal products highly bound to a1-acid glycoprotein cannot be ruled out (see section 4.5).
ART-experienced patients – once daily dosing
Darunavir used in combination with cobicistat or low dose ritonavir once daily in
ART-experienced patients should not be used in patients with one or more darunavir resistance associated mutations (DRV-RAMs) or HIV-1 RNA > 100,000 copies/ml or CD4+ cell count < 100 cells x 106/L (see section 4.2). Combinations with optimised background regimen (OBRs) other than > 2 NRTIs have not been studied in this population. Limited data are available in patients with HIV-1 clades other than B (see section 5.1).
Paediatric population
Darunavir is not recommended for use in paediatric patients below 3 years of age or less than 15 kg body weight (see sections 4.2 and 5.3).
Pregnancy
Darunavir/ritonavir should be used during pregnancy only if the potential benefit justifies the potential risk.
Caution should be used in pregnant women with concomitant medications which may further decrease darunavir exposure (see sections 4.5 and 5.2).
Treatment with darunavir/cobicistat 800/150 mg once daily during the second and third trimester has been shown to result in low darunavir exposure, with a reduction of around 90% in Cmin levels (see section 5.2). Cobicistat levels decrease and may not provide sufficient boosting. The substantial reduction in darunavir exposure may result in virological failure and an increased risk of mother to child transmission of HIV infection. Therefore, therapy with darunavir/cobicistat should not be initiated during pregnancy, and women who become pregnant during therapy with darunavir/cobicistat should be switched to an alternative regimen (see sections 4.2 and 4.6). Darunavir given with low dose ritonavir may be considered as an alternative.
Elderly
As limited information is available on the use of darunavir in patients aged 65 and over, caution should be exercised in the administration of darunavir in elderly patients, reflecting the greater frequency of decreased hepatic function and of concomitant disease or other therapy (see sections 4.2 and 5.2).
Severe skin reactions
During the darunavir/ritonavir clinical development program (N=3,063), severe skin reactions, which may be accompanied with fever and/or elevations of transaminases, have been reported in 0.4% of patients. DRESS (Drug Rash with Eosinophilia and Systemic Symptoms) and Stevens-Johnson Syndrome has been rarely (< 0.1%) reported, and during post-marketing experience toxic epidermal necrolysis and acute generalised exanthematous pustulosis have been reported. Darunavir should be discontinued immediately if signs or symptoms of severe skin reactions develop. These can include, but are not limited to, severe rash or rash accompanied by fever, general malaise, fatigue, muscle or joint aches, blisters, oral lesions, conjunctivitis, hepatitis and/or eosinophilia.
Rash occurred more commonly in treatment-experienced patients receiving regimens containing darunavir/ritonavir + raltegravir compared to patients receiving darunavir/ritonavir without raltegravir or raltegravir without darunavir (see section 4.8).
Darunavir contains a sulphonamide moiety. Darunavir should be used with caution in patients with a known sulphonamide allergy.
Hepatotoxicity
Drug-induced hepatitis (e.g. acute hepatitis, cytolytic hepatitis) has been reported with darunavir. During the darunavir/ritonavir clinical development program (N=3,063), hepatitis was reported in 0.5% of patients receiving combination antiretroviral therapy with darunavir/ritonavir. Patients with pre-existing liver dysfunction, including chronic active hepatitis B or C, have an increased risk for liver function abnormalities including severe and potentially fatal hepatic adverse reactions. In case of concomitant antiviral therapy for hepatitis B or C, please refer to the relevant product information for these medicinal products.
Appropriate laboratory testing should be conducted prior to initiating therapy with darunavir used in combination with cobicistat or low dose ritonavir and patients should be monitored during treatment.
Increased AST/ALT monitoring should be considered in patients with underlying chronic hepatitis, cirrhosis, or in patients who have pre-treatment elevations of transaminases, especially during the first several months of darunavir used in combination with cobicistat or low dose ritonavir treatment.
If there is evidence of new or worsening liver dysfunction (including clinically significant elevation of liver enzymes and/or symptoms such as fatigue, anorexia, nausea, jaundice, dark urine, liver tenderness, hepatomegaly) in patients using darunavir used in combination with cobicistat or low dose ritonavir, interruption or discontinuation of treatment should be considered promptly.
Patients with coexisting conditions
Hepatic impairment
The safety and efficacy of darunavir have not been established in patients with severe underlying liver disorders and darunavir is therefore contraindicated in patients with severe hepatic impairment.
Due to an increase in the unbound darunavir plasma concentrations, darunavir should be used with caution in patients with mild or moderate hepatic impairment (see sections 4.2, 4.3 and 5.2).
Renal impairment
No special precautions or dose adjustments for darunavir/ritonavir are required in patients with renal impairment. As darunavir and ritonavir are highly bound to plasma proteins, it is unlikely that they will be significantly removed by haemodialysis or peritoneal dialysis. Therefore, no special precautions or dose adjustments are required in these patients (see sections 4.2 and 5.2). Cobicistat has not been studied in patients receiving dialysis, therefore, no recommendation can be made for the use of darunavir/cobicistat in these patients (see section 4.2).
Cobicistat decreases the estimated creatinine clearance due to inhibition of tubular secretion of creatinine. This should be taken into consideration if darunavir with cobicistat is administered to patients in whom the estimated creatinine clearance is used to adjust doses of co-administered medicinal products (see section 4.2 and cobicistat SmPC).
There are currently inadequate data to determine whether co-administration of tenofovir disoproxil and cobicistat is associated with a greater risk of renal adverse reactions compared with regimens that include tenofovir disoproxil without cobicistat.
Haemophiliac patients
There have been reports of increased bleeding, including spontaneous skin haematomas and haemarthrosis in patients with haemophilia type A and B treated with PIs. In some patients additional factor VIII was given. In more than half of the reported cases, treatment with PIs was continued or reintroduced if treatment had been discontinued. A causal relationship has been suggested, although the mechanism of action has not been elucidated. Haemophiliac patients should, therefore, be made aware of the possibility of increased bleeding.
Weight and metabolic parameters
An increase in weight and in levels of blood lipids and glucose may occur during antiretroviral therapy. Such changes may in part be linked to disease control and life style. For lipids, there is in some cases evidence for a treatment effect, while for weight gain there is no strong evidence relating this to any particular treatment. For monitoring of blood lipids and glucose reference is made to established HIV treatment guidelines. Lipid disorders should be managed as clinically appropriate.
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.
Immune reconstitution inflammatory syndrome
In HIV infected patients with severe immune deficiency at the time of initiation 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 weeks or months of initiation of CART. Relevant examples are cytomegalovirus retinitis, generalised and/or focal mycobacterial infections and pneumonia caused by Pneumocystis jirovecii (formerly known as Pneumocystis carinii). 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 darunavir co-administered with low dose ritonavir.
Autoimmune disorders (such as Graves' disease and autoimmune hepatitis) have also been reported to occur in the setting of immune reactivation; however, the reported time to onset is more variable and these events can occur many months after initiation of treatment (see section 4.8).
Interactions with medicinal products
Several of the interaction studies have been performed with darunavir at lower than recommended doses. The effects on co-administered medicinal products may thus be underestimated and clinical monitoring of safety may be indicated. For full information on interactions with other medicinal products see section 4.5.
Pharmacokinetic enhancer and concomitant medications
Darunavir has different interaction profiles depending on whether the compound is boosted with ritonavir or cobicistat:
– Darunavir boosted with cobicistat is more sensitive for CYP3A induction: concomitant use of darunavir/cobicistat and strong CYP3A inducers is therefore contraindicated (see section 4.3),and concomitant use with weak to moderate CYP3A inducers is not recommended (see section 4.5). Concomitant use of darunavir/ritonavir and darunavir/cobicistat with lopinavir/ritonavir, rifampicin and herbal products containing St John’s wort, Hypericum perforatum, is contraindicated (see section 4.5).
– Unlike ritonavir, cobicistat does not have inducing effects on enzymes or transport proteins (see section 4.5). If switching the pharmacoenhancer from ritonavir to cobicistat, caution is required during the first two weeks of treatment with darunavir/cobicistat, particularly if doses of any concomitantly administered medicinal products have been titrated or adjusted during use of ritonavir as a pharmacoenhancer. A dose reduction of the co-administered drug may be needed in these cases.
Efavirenz in combination with boosted darunavir may result in sub-optimal darunavir Cmin. If efavirenz is to be used in combination with darunavir, the darunavir/ritonavir 600/100 mg twice daily regimen should be used. See the Summary of Product Characteristics for Darunavir Krka d.d. 600 mg tablets (see section 4.5).
Life-threatening and fatal drug interactions have been reported in patients treated with colchicine and strong inhibitors of CYP3A and P-glycoprotein (P-gp; see sections 4.3 and 4.5).
4.5 Interaction with other medicinal products and other forms of interaction
The interaction profile of darunavir may differ depending on whether ritonavir or cobicistat is used as pharmacoenhancer. The recommendations given for concomitant use of darunavir and other medicinal products may therefore differ depending on whether darunavir is boosted with ritonavir or cobicistat (see sections 4.3 and 4.4), and caution is also required during the first time of treatment if switching the pharmacoenhancer from ritonavir to cobicistat (see section 4.4).
Darunavir and ritonavir are metabolised by CYP3A. Medicinal products that induce CYP3A activity would be expected to increase the clearance of darunavir and ritonavir, resulting in lowered plasma concentrations of these compounds and consequently that of darunavir, leading to loss of therapeutic effect and possible development of resistance (see sections 4.3 and 4.4). CYP3A inducers that are contraindicated include rifampicin, St John’s wort and lopinavir.
Co-administration of darunavir and ritonavir with other medicinal products that inhibit CYP3A may decrease the clearance of darunavir and ritonavir, which may result in increased plasma concentrations of darunavir and ritonavir. Coadministration with strong CYP3A4 inhibitors is not recommended and caution is warranted, these interactions are described in the interaction table below (e.g. indinavir, azole antifungals like clotrimazole).
Darunavir and cobicistat are metabolised by CYP3A, and co-administration with CYP3A inducers may therefore result in subtherapeutic plasma exposure to darunavir. Darunavir boosted with cobicistat is more sensitive to CYP3A induction than ritonavir-boosted darunavir: co-administration of darunavir/cobicistat with medicinal products that are strong inducers of CYP3A (e.g. St John’s wort, rifampicin, carbamazepine, phenobarbital, and phenytoin) is contraindicated (see section 4.3). Co-administration of darunavir/cobicistat with weak to moderate CYP3A inducers (e.g. efavirenz, etravirine, nevirapine, fluticasone, and bosentan) is not recommended (see interaction table below).
For co-administration with strong CYP3A4 inhibitors, the same recommendations apply independent of whether darunavir is boosted with ritonavir or with cobicistat (see section above).
Darunavir and ritonavir are inhibitors of CYP3A, CYP2D6 and P-gp. Coadministration of darunavir/ritonavir with medicinal products primarily metabolised by CYP3A and/or CYP2D6 or transported by P-gp may result in increased systemic exposure to such medicinal products, which could increase or prolong their therapeutic effect and adverse reactions.
Co-administration of boosted darunavir with drugs that have active metabolite(s) formed by CYP3A may result in reduced plasma concentrations of these active metabolite(s), potentially leading to loss of their therapeutic effect (see the Interaction table below).
Darunavir co-administered with low dose ritonavir must not be combined with medicinal products that are highly dependent on CYP3A for clearance and for which increased systemic exposure is associated with serious and/or lifethreatening events (narrow therapeutic index) (see section 4.3).
The overall pharmacokinetic enhancement effect by ritonavir was an approximate 14-fold increase in the systemic exposure of darunavir when a single dose of 600 mg darunavir was given orally in combination with ritonavir at 100 mg twice daily. Therefore, darunavir must only be used in combination with a pharmacokinetic enhancer (see sections 4.4 and 5.2).
A clinical study utilising a cocktail of medicinal products that are metabolised by cytochromes CYP2C9, CYP2C19 and CYP2D6 demonstrated an increase in CYP2C9 and CYP2C19 activity and inhibition of CYP2D6 activity in the presence of darunavir/ritonavir, which may be attributed to the presence of low dose ritonavir. Co-administration of darunavir and ritonavir with medicinal products which are primarily metabolised by CYP2D6 (such as flecainide, propafenone, metoprolol) may result in increased plasma concentrations of these medicinal products, which could increase or prolong their therapeutic effect and adverse reactions. Co-administration of darunavir and ritonavir with medicinal products primarily metabolised by CYP2C9 (such as warfarin) and CYP2C19 (such as methadone) may result in decreased systemic exposure to such medicinal products, which could decrease or shorten their therapeutic effect.
Although the effect on CYP2C8 has only been studied in vitro, coadministration of darunavir and ritonavir and medicinal products primarily metabolised by CYP2C8 (such as paclitaxel, rosiglitazone, repaglinide) may result in decreased systemic exposure to such medicinal products, which could decrease or shorten their therapeutic effect.
Ritonavir inhibits the transporters P-glycoprotein, OATP1B1 and OATP1B3, and co-administration with substrates of these transporters can result in increased plasma concentrations of these compounds (e.g. dabigatran etexilate, digoxin, statins and bosentan; see the Interaction table below).
The recommendations for darunavir boosted with ritonavir are adequate also for darunavir boosted with cobicistat with regard to substrates of CYP3A4, CYP2D6, P-glycoprotein, OATP1B1 and OATP1B3 (see contraindications and recommendations presented in the section above). Cobicistat 150 mg given with darunavir 800 mg once daily enhances darunavir pharmacokinetic parameters in a comparable way to ritonavir (see section 5.2).
Unlike ritonavir, cobicistat does not induce CYP1A2, CYP2B6, CYP2C8, CYP2C9, CYP2C19 or UGT1A1. For further information on cobicistat, consult the cobicistat Summary of Product Characteristics.
Interaction studies have only been performed in adults.
Several of the interaction studies (indicated by # in the table below) have been performed at lower than recommended doses of darunavir or with a different dosing regimen (see section 4.2 Posology). The effects on co-administered medicinal products may thus be underestimated and clinical monitoring o safety may be indicated.
The interaction profile of darunavir depends on whether ritonavir or cobicistat is used as pharmacokinetic enhancer. Darunavir may therefore have different recommendations for concomitant medications depending on whether the compound is boosted with ritonavir or cobicistat. No interaction studies presented in the table have been performed with darunavir boosted with cobicistat. The same recommendations apply, unless specifically indicated. For further information on cobicistat, consult the cobicistat Summary of Product
Characteristics.
Interactions between darunavir/ritonavir and antiretroviral and non-antiretroviral medicinal products are listed in the table below. The direction of the arrow for each pharmacokinetic parameter is based on the 90% confidence interval of the geometric mean ratio being within (^), below Q) or above (|) the 80–125% range (not determined as “ND”).
In the table below the specific pharmacokinetic enhancer is specified when recommendations differ. When the recommendation is the same for darunavir when co-administered with a low dose ritonavir or cobicistat, the term “boosted darunavir” is used.
The below list of examples of drug-drug interactions is not comprehensive and therefore the label of each drug that is co-administered with darunavir should be consulted for information related to the route of metabolism, interaction pathways, potential risks, and specific actions to be taken with regards to co-administration.
INTERACTIONS AND DOSE RECOMMENDATIONS WITH OTHER MEDICINAL PRODUCTS | ||
Medicinal products by therapeutic areas | Interaction Geometric mean change (%) | Recommendations concerning co-administration |
HIV ANTIRETROVIRALS | ||
Integrase strand transfer inhibitors | ||
Dolutegravir | dolutegravir AUC J, 22% dolutegravir C24h J, 38% dolutegravir Cmax J, 11% darunavir ← > Using cross-study comparisons to historical pharmacokinetic data | Boosted darunavir and dolutegravir can be used without dose adjustment. |
Raltegravir | Some clinical studies suggest raltegravir may cause a modest decrease in darunavir plasma concentrations. | At present the effect of raltegravir on darunavir plasma concentrations does not appear to be clinically relevant. Boosted darunavir and raltegravir can be used without dose adjustments. |
Nucleo(s/t)ide reverse transcriptase inhibitors (NRTIs) | ||
Didanosine 400 mg once daily | didanosine AUC J, 9% didanosine Cmin ND didanosine Cmax J, 16% darunavir AUC ↔ darunavir Cmin ↔ darunavir Cmax ← > | Boosted darunavir and didanosine can be used without dose adjustments. Didanosine is to be administered on an empty stomach, thus it should be administered 1 hour before or 2 hours after boosted darunavir given with food. |
Tenofovir disoproxil 245 mg once daily | tenofovir AUC Î 22% tenofovir Cmin Î 37% tenofovir Cmax Î 24% #darunavir AuC Î 21% | Monitoring of renal function may be indicated when boosted darunavir is given in combination with tenofovir disoproxil, |
#darunavir Cmin Î 24% #darunavir Cmax Î 16% (Î tenofovir from effect on MDR-1 transport in the renal tubules) | particularly in patients with underlying systemic or renal disease, or in patients taking nephrotoxic agents. Darunavir co-administered with cobicistat lowers the creatinine clearance. Refer to section 4.4 if creatinine clearance is used for dose adjustment of tenofovir disoproxil. | |
Emtricitabine/tenofovir alafenamide | Tenofovir alafenamide ← > Tenofovir Î | The recommended dose of emtricitabine/tenofovir alafenamide is 200/10 mg once daily when used with boosted darunavir. |
Abacavir Emtricitabine Lamivudine Stavudine Zidovudine | Not studied. Based on the different elimination pathways of the other NRTIs zidovudine, emtricitabine, stavudine, lamivudine, that are primarily renally excreted, and abacavir for which metabolism is not mediated by CYP450, no interactions are expected for these medicinal compounds and boosted darunavir. | Boosted darunavir can be used with these NRTIs without dose adjustment. Darunavir co-administered with cobicistat lowers the creatinine clearance. Refer to section 4.4 if creatinine clearance is used for dose adjustment of emtricitabine or lamivudine. |
Non-nucleo(s/t)ide reverse transcriptase inhibitors (NNRTIs) | ||
Efavirenz 600 mg once daily | efavirenz AUC Î 21% efavirenz Cmin Î 17% efavirenz Cmax Î 15% # darunavir AuC J, 13% # darunavir Cmin J, 31% # darunavir Cmax J, 15% (Î efavirenz from CYP3A inhibition) (J, darunavir from CYP3A induction) | Clinical monitoring for central nervous system toxicity associated with increased exposure to efavirenz may be indicated when darunavir co-administered with low dose ritonavir is given in combination with efavirenz. Efavirenz in combination with darunavir /ritonavir 800/100 mg once daily may result in suboptimal darunavir Cmin. If efavirenz is to be used in combination with darunavir /ritonavir, the darunavir/ritonavir 600/100 mg twice daily regimen should be used (see section 4.4). Co-administration with darunavir co-administered with cobicistat is not recommended (see section 4.4). |
Etravirine 100 mg twice daily | etravirine AUC J, 37% etravirine Cmin J, 49% etravirine Cmax J, 32% darunavir AUC Î 15% darunavir Cmin ↔ darunavir Cmax ← > | Darunavir co-administered with low dose ritonavir and etravirine 200 mg twice daily can be used without dose adjustments. Co-administration with darunavir co-administered with cobicistat is not recommended (see section 4.4). |
Nevirapine 200 mg twice daily | nevirapine AUC Î 27% nevirapine Cmin Î 47% nevirapine Cmax Î 18% #< darunavir: concentrations were consistent with historical data | Darunavir co-administered with low dose ritonavir and nevirapine can be used without dose adjustments. Co-administration with darunavir |
(Î nevirapine from CYP3A inhibition) | co-administered with cobicistat is not recommended (see section 4.4). | |
Rilpivirine 150 mg once daily | rilpivirine AUC f 130% rilpivirine Cmin Î 178% rilpivirine Cmax Î 79% darunavir AUC ↔ darunavir Cmin J, 11% darunavir Cmax ← > | Boosted darunavir and rilpivirine can be used without dose adjustments. |
HIV Protease inhibitors (PIs) – without additional co-administration of low dose ritonavir^ | ||
Atazanavir 300 mg once daily | atazanavir AUC ↔ atazanavir Cmin Î 52% atazanavir Cmax J, 11% #darunavir AUC ↔ #darunavir Cmin ↔ #darunavir Cmax ↔ Atazanavir: comparison of atazanavir/ritonavir 300/100 mg once daily vs. atazanavir 300 mg once daily in combination with darunavir/ritonavir 400/100 mg twice daily. Darunavir: comparison of darunavir/ritonavir 400/100 mg twice daily vs. darunavir/ritonavir 400/100 mg twice daily in combination with atazanavir 300 mg once daily. | Darunavir co-administered with low dose ritonavir and atazanavir can be used without dose adjustments. Darunavir co-administered with cobicistat should not be used in combination with another antiretroviral agent that requires pharmacoenhancement by means of co-administration with an inhibitor of CYP3A4 (see section 4.5). |
Indinavir 800 mg twice daily | indinavir AUC Î 23% indinavir Cmin Î 125% indinavir Cmax ↔ #darunavir AUC Î 24% #darunavir Cmin Î 44% #darunavir Cmax Î 11% Indinavir: comparison of indinavir/ritonavir 800/100 mg twice daily vs. indinavir/darunavir/ritonavir 800/400/100 mg twice daily. Darunavir: comparison of darunavir/ritonavir 400/100 mg twice daily vs. darunavir/ritonavir 400/100 mg in combination with indinavir 800 mg twice daily. | When used in combination with darunavir co-administered with low dose ritonavir, dose adjustment of indinavir from 800 mg twice daily to 600 mg twice daily may be warranted in case of intolerance. Darunavir co-administered with cobicistat should not be used in combination with another antiretroviral agent that requires pharmacoenhancement by means of co-administration with an inhibitor of CYP3A4 (see section 4.5). |
Saquinavir 1,000 mg twice daily | # darunavir AUC J, 26% # darunavir Cmin J, 42% # darunavir Cmax J, 17% saquinavir AUC J, 6% saquinavir Cmin J, 18% saquinavir Cmax J, 6% Saquinavir: comparison of saquinavir/ritonavir 1,000/100 mg twice daily vs. saquinavir/darunavir/ritonavir 1,000/400/100 mg twice daily Darunavir: comparison of darunavir/ritonavir 400/100 mg twice daily vs. darunavir/ritonavir 400/100 mg in combination with saquinavir 1,000 mg twice daily. | It is not recommended to combine darunavir co-administered with low dose ritonavir with saquinavir. Darunavir co-administered with cobicistat should not be used in combination with another antiretroviral agent that requires pharmacoenhancement by means of co-administration with an inhibitor of CYP3A4 (see section 4.5). |
HIV Protease inhibitors (Pls) – with co-administration of low dose ritonavir^ |
Lopinavir/ritonavir 400/100 mg twice daily Lopinavir/ritonavir 533/133.3 mg twice daily | lopinavir AUC Î 9% lopinavir Cmin Î 23% lopinavir Cmax J, 2% darunavir AUC J, 38%' darunavir Cmin J, 51%' darunavir Cmax J, 21%' lopinavir AUC ↔ lopinavir Cmin Î 13% lopinavir Cmax Î 11% darunavir AUC J, 41% darunavir Cmin J, 55% darunavir Cmax J, 21% ' based upon non dose normalised values | Due to a decrease in the exposure (AUC) of darunavir by 40%, appropriate doses of the combination have not been established. Hence, concomitant use of boosted darunavir and the combination product lopinavir/ritonavir is contraindicated (see section 4.3). |
CCR5 ANTAGONIST | ||
Maraviroc 150 mg twice daily | maraviroc AUC Î 305% maraviroc Cmin ND maraviroc Cmax Î 129% darunavir, ritonavir concentrations were consistent with historical data | The maraviroc dose should be 150 mg twice daily when coadministered with boosted darunavir. |
1–ARRENORCCPPTOR ANTAGONIST | ||
Alfuzosin | Based on theoretical considerations darunavir is expected to increase alfuzosin plasma concentrations. (CYP3A inhibition) | Co-administration of boosted darunavir and alfuzosin is contraindicated (see section 4.3). |
ANAESTHETIC | ||
Alfentanil | Not studied. The metabolism of alfentanil is mediated via CYP3A, and may as such be inhibited by boosted darunavir. | The concomitant use with boosted darunavir may require to lower the dose of alfentanil and requires monitoring for risks of prolonged or delayed respiratory depression. |
ANTIANGINA/ANTIARRHYTHMIC | ||
Disopyramide Flecainide Lidocaine (systemic) Mexiletine Propafenone Amiodarone Bepridil Dronedarone Ivabradine Quinidine Ranolazine | Not studied. Boosted darunavir is expected to increase these antiarrhythmic plasma concentrations. (CYP3A and/or CYP2D6 inhibition) | Caution is warranted and therapeutic concentration monitoring, if available, is recommended for these antiarrhythmics when coadministered with boosted darunavir. Co-administration of boosted darunavir and amiodarone, bepridil, dronedarone, ivabradine, quinidine, or ranolazine is contraindicated (see section 4.3). |
Digoxin 0.4 mg single dose | digoxin AUC f 61% digoxin Cmin ND digoxin Cmax t 29% (t digoxin from probable inhibition of P-gP) | Given that digoxin has a narrow therapeutic index, it is recommended that the lowest possible dose of digoxin should initially be prescribed in case digoxin is given to patients on boosted darunavir therapy. The digoxin dose should be carefully titrated to obtain the desired clinical effect while assessing the overall clinical state of the |
ANTIBIOTIC
subject.
Clarithromycin 500 mg twice daily | clarithromycin AUC Î 57% clarithromycin Cmin Î 174% clarithromycin Cmax Î 26% #darunavir AUC J, 13% #darunavir Cmin Î 1% #darunavir Cmax J, 17% 14-OH-clarithromycin concentrations were not detectable when combined with darunavir/ritonavir. (Î clarithromycin from CYP3A inhibition and possible P-gp inhibition) | Caution should be exercised when clarithromycin is combined with boosted darunavir. For patients with renal impairment the Summary of Product Characteristics for clarithromycin should be consulted for the recommended dose. |
ANTICOAGULANT/PLA TELET AGGREGA TION INHIBITOR | ||
Apixaban Edoxaban Rivaroxaban | Not studied. Co-administration of boosted darunavir with these anticoagulants may increase concentrations of the anticoagulant, which may lead to an increased bleeding risk. (CYP3A and/or P-gp inhibition) | The use of boosted darunavir and these anticoagulants is not recommended. |
Dabigatran Ticagrelor Clopidogrel | Not studied. Co-administration with boosted darunavir may lead to a substantial increase in exposure to dabigatran or ticagrelor. Not studied. Co-administration of clopidogrel with boosted darunavir is expected to decrease clopidogrel active metabolite plasma concentration, which may reduce the antiplatelet activity of clopidogrel. | Concomitant administration of boosted darunavir with dabigatran or ticagrelor is contraindicated (see section 4.3). Co-administration of clopidogrel with boosted darunavir is not recommended. Use of other antiplatelets not affected by CYP inhibition or induction (e.g. prasugrel) is recommended. |
Warfarin | Not studied. Warfarin concentrations may be affected when co-administered with boosted darunavir. | It is recommended that the international normalised ratio (INR) be monitored when warfarin is combined with boosted darunavir. |
ANTICONVULSANTS | ||
Phenobarbital Phenytoin | Not studied. Phenobarbital and phenytoin are expected to decrease plasma concentrations of darunavir and its pharmacoenhancer. (induction of CYP450 enzymes) | Darunavir co-administered with low dose ritonavir should not be used in combination with these medicines. The use of these medicines with darunavir/cobicistat is contraindicated (see section 4.3). |
Carbamazepine 200 mg twice daily | carbamazepine AUC Î 45% carbamazepine Cmin Î 54% carbamazepine Cmax Î 43% darunavir AUC ↔ darunavir Cmin J, 15% darunavir Cmax ← > | No dose adjustment for darunavir /ritonavir is recommended. If there is a need to combine darunavir/ritonavir and carbamazepine, patients should be monitored for potential carbamazepine-related adverse events. Carbamazepine |
concentrations should be monitored and its dose should be titrated for adequate response. Based upon the findings, the carbamazepine dose may need to be reduced by 25% to 50% in the presence of darunavir/ritonavir. The use of carbamazepine with darunavir co-administered with cobicistat is contraindicated (see section 4.3). | ||
Clonazepam | Not studied. Co-administration of boosted darunavir with clonazepam may increase concentrations of clonazepam. (CYP3A inhibition) | Clinical monitoring is recommended when co-administering boosted darunavir with clonazepam. |
ANTIDEPRESSANTS | ||
Paroxetine 20 mg once daily Sertraline 50 mg once daily Amitriptyline Desipramine Imipramine Nortriptyline Trazodone | paroxetine AUC J, 39% paroxetine Cmm J, 37% paroxetine Cmax J, 36% #darunavir AUC ↔ #darunavir Cmin ↔ #darunavir Cmax ↔ sertraline AUC J, 49% sertraline Cmin J, 49% sertraline Cmax J, 44% #darunavir AUC ← > #darunavir Cmin J, 6% #darunavir Cmax ← > In contrast to these data with darunavir /ritonavir, darunavir/cobicistat may increase these antidepressant plasma concentrations (CYP2D6 and/or CYP3A inhibition). Concomitant use of boosted darunavir and these antidepressants may increase concentrations of the antidepressant. (CYP2D6 and/or CYP3A inhibition) | If antidepressants are coadministered with boosted darunavir, the recommended approach is a dose titration of the antidepressant based on a clinical assessment of antidepressant response. In addition, patients on a stable dose of these antidepressants who start treatment with boosted darunavir should be monitored for antidepressant response. Clinical monitoring is recommended when coadministering boosted darunavir with these antidepressants and a dose adjustment of the antidepressant may be needed. |
ANTI-DIABETICS | ||
Metformin | Not studied. Based on theoretical considerations darunavir coadministered with cobicistat is expected to increase metformin plasma concentrations. (MATE1 inhibition) | Careful patient monitoring and dose adjustment of metformin is recommended in patients who are taking darunavir co-administered with cobicistat. (not applicable for darunavir coadministered with ritonavir) |
ANTIEMETICS | ||
Domperidone | Not studied. | Co-administration of domperidone with boosted darunavir is contraindicated. |
ANTIFUNGALS | ||
Voriconazole | Not studied. Ritonavir may decrease plasma concentrations of voriconazole. (induction of CYP450 enzymes) | Voriconazole should not be combined with boosted darunavir unless an assessment of the |
Concentrations of voriconazole may increase or decrease when coadministered with darunavir coadministered with cobicistat. (inhibition of CYP450 enzymes) | benefit/risk ratio justifies the use of voriconazole. | |
Fluconazole Isavuconazole Itraconazole Posaconazole Clotrimazole | Not studied. Boosted darunavir may increase antifungal plasma concentrations and posaconazole, isavuconazole, itraconazole or fluconazole may increase darunavir concentrations. (CYP3A and/or P-gp inhibition) Not studied. Concomitant systemic use of clotrimazole and boosted darunavir may increase plasma concentrations of darunavir and/or clotrimazole. darunavir AUC24h Î 33% (based on population pharmacokinetic model) | Caution is warranted and clinical monitoring is recommended. When co-administration is required the daily dose of itraconazole should not exceed 200 mg. |
ANTIGOUT MEDICINES | ||
Colchicine | Not studied. Concomitant use of colchicine and boosted darunavir may increase the exposure to colchicine. (CYP3A and/ or P-gp inhibition) | A reduction in colchicine dosage or an interruption of colchicine treatment is recommended in patients with normal renal or hepatic function if treatment with boosted darunavir is required. For patients with renal or hepatic impairment colchicine with boosted darunavir is contraindicated (see sections 4.3 and 4.4). |
ANTIMALARIALS | ||
Artemether/Lumefantrine 80/480 mg, 6 doses at 0, 8, 24, 36, 48, and 60 hours | artemether AUC J, 16% artemether Cmin ↔ artemether Cmax J, 18% dihydroartemisinin AUC J, 18% dihydroartemisinin Cmin ↔ dihydroartemisinin Cmax J, 18% lumefantrine AUC Î 175% lumefantrine Cmin Î 126% lumefantrine Cmax Î 65% darunavir AUC ↔ darunavir Cmin J, 13% darunavir Cmax ← > | The combination of boosted darunavir and artemether/lumefantrine can be used without dose adjustments; however, due to the increase in lumefantrine exposure, the combination should be used with caution. |
ANTIMYCOBACTERIALS | ||
Rifampicin Rifapentine | Not studied. Rifapentine and rifampicin are strong CYP3A inducers and have been shown to cause profound decreases in concentrations of other protease inhibitors, which can result in virological failure and resistance development (CYP450 enzyme induction). During attempts to overcome the decreased exposure by increasing the dose of other protease inhibitors with low dose ritonavir, a high frequency of liver reactions was | The combination of rifapentine and boosted darunavir is not recommended. The combination of rifampicin and boosted darunavir is contraindicated (see section 4.3). |
seen with rifampicin. | ||
Rifabutin 150 mg once every other day | rifabutin AUC** f 55% rifabutin Cmin** f ND * ** ** rifabutin Cmax ↔ darunavir AUC f 53% darunavir Cmin Î 68% darunavir Cmax Î 39% ** sum of active moieties of rifabutin (parent drug + 25-O-desacetyl metabolite) The interaction trial showed a comparable daily systemic exposure for rifabutin between treatment at 300 mg once daily alone and 150 mg once every other day in combination with darunavir/ritonavir (600/100 mg twice daily) with an about 10-fold increase in the daily exposure to the active metabolite 25– O-desacetylrifabutin. Furthermore, AUC of the sum of active moieties of rifabutin (parent drug + 25-O-desacetyl metabolite) was increased 1.6-fold, while Cmax remained comparable. Data on comparison with a 150 mg once daily reference dose is lacking. (Rifabutin is an inducer and substrate of CYP3A.) An increase of systemic exposure to darunavir was observed when darunavir co-administered with 100 mg ritonavir was co-administered with rifabutin (150 mg once every other day). | A dosage reduction of rifabutin by 75% of the usual dose of 300 mg/day (i.e. rifabutin 150 mg once every other day) and increased monitoring for rifabutin related adverse events is warranted in patients receiving the combination with darunavir co-administered with ritonavir. In case of safety issues, a further increase of the dosing interval for rifabutin and/or monitoring of rifabutin levels should be considered. Consideration should be given to official guidance on the appropriate treatment of tuberculosis in HIV infected patients. Based upon the safety profile of darunavir/ritonavir, the increase in darunavir exposure in the presence of rifabutin does not warrant a dose adjustment for darunavir/ritonavir. Based on pharmacokinetic modeling, this dosage reduction of 75% is also applicable if patients receive rifabutin at doses other than 300 mg/day. Co-administration of darunavir co-administered with cobicistat and rifabutin is not recommended. |
ANTINEOPLASTICS | ||
Dasatinib Nilotinib Vinblastine Vincristine Everolimus Irinotecan | Not studied. Boosted darunavir is expected to increase these antineoplastic plasma concentrations. (CYP3A inhibition) | Concentrations of these medicinal products may be increased when co-administered with boosted darunavir resulting in the potential for increased adverse events usually associated with these agents. Caution should be exercised when combining one of these antineoplastic agents with boosted darunavir. Concomitant use of everolimus or irinotecan and boosted darunavir is not recommended. |
ANTIPSYCHOTICS/NEUROLEPTICS | ||
Quetiapine | Not studied. Boosted darunavir is expected to increase these antipsychotic plasma concentrations. (CYP3A inhibition) | Concomitant administration of boosted darunavir and quetiapine is contraindicated as it may increase quetiapine-related toxicity. Increased concentrations of quetiapine may lead to coma (see section 4.3). |
Perphenazine | Not studied. Boosted darunavir is | A dose decrease may be needed |
Risperidone Thioridazine Lurasidone Pimozide Sertindole | expected to increase these antipsychotic plasma concentrations. (CYP3A, CYP2D6 and/or P-gp inhibition) | for these drugs when coadministered with boosted darunavir. Concomitant administration of boosted darunavir and lurasidone, pimozide or sertindole is contraindicated (see section 4.3). |
--BLOCKRRS | ||
Carvedilol Metoprolol Timolol | Not studied. Boosted darunavir is expected to increase these ß-blocker plasma concentrations. (CYP2D6 inhibition) | Clinical monitoring is recommended when coadministering boosted darunavir with ß-blockers. A lower dose of the ß-blocker should be considered. |
CALCIUM CHANNEL BLOCKERS | ||
Amlodipine Diltiazem Felodipine Nicardipine Nifedipine Verapamil | Not studied. Boosted darunavir can be expected to increase the plasma concentrations of calcium channel blockers. (CYP3A and/or CYP2D6 inhibition) | Clinical monitoring of therapeutic and adverse effects is recommended when these medicines are concomitantly administered with boosted darunavir. |
CORTICOSTEROIDS | ||
Corticosteroids primarily metabolised by CYP3A (including betamethasone, budesonide, fluticasone, mometasone, prednisone, triamcinolone) | Fluticasone: in a clinical study where ritonavir 100 mg capsules twice daily were co-administered with 50 pg intranasal fluticasone propionate (4 times daily) for 7 days in healthy subjects, fluticasone propionate plasma concentrations increased significantly, whereas the intrinsic cortisol levels decreased by approximately 86% (90% CI 82–89%). Greater effects may be expected when fluticasone is inhaled. Systemic corticosteroid effects including Cushing's syndrome and adrenal suppression have been reported in patients receiving ritonavir and inhaled or intranasally administered fluticasone. The effects of high fluticasone systemic exposure on ritonavir plasma levels are unknown. Other corticosteroids: interaction not studied. Plasma concentrations of these medicinal products may be increased when co-administered with boosted darunavir, resulting in reduced serum cortisol concentrations. | Concomitant use of boosted darunavir and corticosteroids that are metabolised by CYP3A (e.g. fluticasone propionate or other inhaled or nasal corticosteroids) may increase the risk of development of systemic corticosteroid effects, including Cushing's syndrome and adrenal suppression. Co-administration with CYP3A-metabolised corticosteroids is not recommended unless the potential benefit to the patient outweighs the risk, in which case patients should be monitored for systemic corticosteroid effects. Alternative corticosteroids which are less dependent on CYP3A metabolism e.g. beclomethasone for intranasal or inhalational use should be considered, particularly for long term use. |
Dexamethasone (systemic) | Not studied. Dexamethasone may decrease plasma concentrations of darunavir. (CYP3A induction) | Systemic dexamethasone should be used with caution when combined with boosted darunavir. |
ENDOTHELIN RECEPTOR ANTAGONISTS | ||
Bosentan | Not studied. Concomitant use of bosentan and boosted darunavir may increase plasma concentrations of bosentan. | When administered concomitantly with darunavir and low dose ritonavir, the patient's tolerability of bosentan should be monitored. |
Bosentan is expected to decrease plasma concentrations of darunavir and/or its pharmacoenhancer. (CYP3A induction) | Co administration of darunavir coadministered with cobicistat and bosentan is not recommended. | |
HEPATITIS C VIRUS (HCV) DIRECT-ACTING ANTIVIRALS | ||
NS3–4A protease inhibitors | ||
Elbasvir/grazoprevir | Boosted darunavir may increase the exposure to grazoprevir. (CYP3A and OATP1B inhibition) | Concomitant use of boosted darunavir and elbasvir/grazoprevir is contraindicated (see section 4.3). |
Glecaprevir/pibrentasvir | Based on theoretical considerations boosted darunavir may increase the exposure to glecaprevir and pibrentasvir. (P-gp, BCRP and/or OATP1B1/3 inhibition) | It is not recommended to co-administer boosted darunavir with glecaprevir/pibrentasvir. |
HERBAL PRODUCTS | ||
St John's wort (Hypericum perforatum) | Not studied. St John's wort is expected to decrease the plasma concentrations of darunavir or its pharmacoenhancers. (CYP450 induction) | Boosted darunavir must not be used concomitantly with products containing St John's wort (Hypericum perforatum) (see section 4.3). If a patient is already taking St John's wort, stop St John's wort and if possible check viral levels. Darunavir exposure (and also ritonavir exposure) may increase on stopping St John's wort. The inducing effect may persist for at least 2 weeks after cessation of treatment with St John's wort. |
HMG CO-A REDUCTASE INHIBITORS | ||
Lovastatin Simvastatin | Not studied. Lovastatin and simvastatin are expected to have markedly increased plasma concentrations when co-administered with boosted darunavir. (CYP3A inhibition) | Increased plasma concentrations of lovastatin or simvastatin may cause myopathy, including rhabdomyolysis. Concomitant use of boosted darunavir with lovastatin and simvastatin is therefore contraindicated (see section 4.3). |
Atorvastatin 10 mg once daily | atorvastatin AUC f 3–4 fold atorvastatin Cmin f –5.5–10 fold atorvastatin Cmax f =2 fold #darunavir/ritonavir atorvastatin AUC f 290% !’ atorvastatin Cmax f 319% !’ atorvastatin Cmin ND a w with darunavir/cobicistat 800/150 mg | When administration of atorvastatin and boosted darunavir is desired, it is recommended to start with an atorvastatin dose of 10 mg once daily. A gradual dose increase of atorvastatin may be tailored to the clinical response. |
Pravastatin 40 mg single dose | pravastatin AUC f 81%' pravastatin Cmin ND pravastatin Cmax f 63% 1 an up to five-fold increase was seen in a limited subset of subjects | When administration of pravastatin and boosted darunavir is required, it is recommended to start with the lowest possible dose of pravastatin and titrate up to the desired clinical effect while monitoring for safety. |
Rosuvastatin 10 mg once daily | rosuvastatin AUC f 48%" rosuvastatin Cmax f 144%" " based on published data with darunavir/ritonavir rosuvastatin AUC f 93%§ rosuvastatin Cmax f 277%§ rosuvastatin Cmin ND§ § with darunavir/cobicistat 800/150 mg | When administration of rosuvastatin and boosted darunavir is required, it is recommended to start with the lowest possible dose of rosuvastatin and titrate up to the desired clinical effect while monitoring for safety. |
OTHER LIPID MODIFYING AGENTS | ||
Lomitapide | Based on theoretical considerations boosted darunavir is expected to increase the exposure of lomitapide when co-administered. (CYP3A inhibition) | Co-administration is contraindicated (see section 4.3). |
H2-RECEPTOR ANTAGONISTS | ||
Ranitidine 150 mg twice daily | #darunavir AUC ← > #darunavir Cmin ← > #darunavir Cmax ← > | Boosted darunavir can be coadministered with H2-receptor antagonists without dose adjustments. |
IMMUNOSUPPRESSANTS | ||
Ciclosporin Sirolimus Tacrolimus Everolimus | Not studied. Exposure to these immunosuppressants will be increased when co-administered with boosted darunavir. (CYP3A inhibition) | Therapeutic drug monitoring of the immunosuppressive agent must be done when coadministration occurs. Concomitant use of everolimus and boosted darunavir is not recommended. |
INHALED BETA AGONISTS | ||
Salmeterol | Not studied. Concomitant use of salmeterol and boosted darunavir may increase plasma concentrations of salmeterol. | Concomitant use of salmeterol and boosted darunavir is not recommended. The combination may result in increased risk of cardiovascular adverse event with salmeterol, including QT prolongation, palpitations and sinus tachycardia. |
NARCOTIC ANALGESICS / TREA TMENT OF OPIOID DEPENDENCE | ||
Methadone individual dose ranging from 55 mg to 150 mg once daily | R(-) methadone AUC J, 16% R(-) methadone Cmin J, 15% R(-) methadone Cmax J, 24% darunavir /cobicistat may, in contrast, increase methadone plasma concentrations (see cobicistat SmPC). | No adjustment of methadone dosage is required when initiating co-administration with boosted darunavir. However, adjustment of the methadone dose may be necessary when concomitantly administered for a longer period of time. Therefore, clinical monitoring is recommended, as maintenance therapy may need to be adjusted in some patients. |
Buprenorphine/naloxone 8/2 mg-16/4 mg once daily | buprenorphine AUC J, 11% buprenorphine Cmin ↔ buprenorphine Cmax J, 8% norbuprenorphine AUC ‚|‘ 46% norbuprenorphine Cmin f 71% norbuprenorphine Cmax f 36% | The clinical relevance of the increase in norbuprenorphine pharmacokinetic parameters has not been established. Dose adjustment for buprenorphine may not be necessary when co- |
naloxone AUC ↔ naloxone Cmin ND naloxone Cmax ← > | administered with boosted darunavir but a careful clinical monitoring for signs of opiate toxicity is recommended. | |
Fentanyl Oxycodone Tramadol | Based on theoretical considerations boosted darunavir may increase plasma concentrations of these analgesics. (CYP2D6 and/or CYP3A inhibition) | Clinical monitoring is recommended when co-administering boosted darunavir with these analgesics. |
OESTROGEN-BASED CONTRACEPTIVES | ||
Drospirenone Ethinylestradiol (3 mg/0.02 mg once daily) Ethinylestradiol Norethindrone 35 ug/1 mg once daily | drospirenone AUC f 58%€ drospirenone Cmin ND€ drospirenone Cmax f 15%€ ethinylestradiol AUC J 30%€ ethinylestradiol Cmin ND€ ethinylestradiol Cmax J 14%€ € with darunavir/cobicistat ethinylestradiol AUC J, 44% p ethinylestradiol Cmin J, 62% p ethinylestradiol Cmax J, 32% p norethindrone AUC J, 14% p norethindrone Cmin J, 30% p norethindrone Cmax ↔ p p with darunavir/ritonavir | When darunavir is coadministered with a drospirenone-containing product, clinical monitoring is recommended due to the potential for hyperkalaemia. Alternative or additional contraceptive measures are recommended when oestrogen-based contraceptives are coadministered with boosted darunavir. Patients using oestrogens as hormone replacement therapy should be clinically monitored for signs of oestrogen deficiency. |
OPIOID ANTA GONIST | ||
Naloxegol | Not studied. | Co-administration of boosted darunavir and naloxegol is contraindicated. |
PHOSPHODIESTERASE, TYPE 5 (PDE-5) INHIBITORS | ||
For the treatment of erectile dysfunction Avanafil Sildenafil Tadalafil Vardenafil | In an interaction study #, a comparable systemic exposure to sildenafil was observed for a single intake of 100 mg sildenafil alone and a single intake of 25 mg sildenafil co-administered with darunavir and low dose ritonavir. | The combination of avanafil and boosted darunavir is contraindicated (see section 4.3). Concomitant use of other PDE-5 inhibitors for the treatment of erectile dysfunction with boosted darunavir should be done with caution. If concomitant use of boosted darunavir with sildenafil, vardenafil or tadalafil is indicated, sildenafil at a single dose not exceeding 25 mg in 48 hours, vardenafil at a single dose not exceeding 2.5 mg in 72 hours or tadalafil at a single dose not exceeding 10 mg in 72 hours is recommended. |
For the treatment of pulmonary arterial hypertension Sildenafil Tadalafil | Not studied. Concomitant use of sildenafil or tadalafil for the treatment of pulmonary arterial hypertension and boosted darunavir may increase plasma concentrations of sildenafil or tadalafil. (CYP3A inhibition) | A safe and effective dose of sildenafil for the treatment of pulmonary arterial hypertension co-administered with boosted darunavir has not been established. There is an increased potential for sildenafil-associated adverse events (including visual disturbances, hypotension, |
prolonged erection and syncope). Therefore, co-administration of boosted darunavir and sildenafil when used for the treatment of pulmonary arterial hypertension is contraindicated (see section 4.3). Co-administration of tadalafil for the treatment of pulmonary arterial hypertension with boosted darunavir is not recommended. | ||
PROTON PUMP INHIBITORS | ||
Omeprazole 20 mg once daily | # darunavir AUC ← > # darunavir Cmin ← > # darunavir Cmax ← > | Boosted darunavir can be coadministered with proton pump inhibitors without dose adjustments. |
SEDA TIVES/HYPNOTICS | ||
Buspirone Clorazepate Diazepam Estazolam Flurazepam Midazolam (parenteral) Zoldipem Midazolam (oral) Triazolam | Not studied. Sedative/hypnotics are extensively metabolised by CYP3A. Co-administration with boosted darunavir may cause a large increase in the concentration of these medicines. If parenteral midazolam is coadministered with boosted darunavir it may cause a large increase in the concentration of this benzodiazepine. Data from concomitant use of parenteral midazolam with other protease inhibitors suggest a possible 34 fold increase in midazolam plasma levels. | Clinical monitoring is recommended when coadministering boosted darunavir with these sedatives/hypnotics and a lower dose of the sedatives/hypnotics should be considered. If parenteral midazolam is coadministered with boosted darunavir, it should be done in an intensive care unit (ICU) or similar setting, which ensures close clinical monitoring and appropriate medical management in case of respiratory depression and/or prolonged sedation. Dose adjustment for midazolam should be considered, especially if more than a single dose of midazolam is administered. Boosted darunavir with triazolam or oral midazolam is contraindicated (see section 4.3). |
TREA TMENT FOR PREMA TURE EJA CULATION | ||
Dapoxetine | Not studied. | Co-administration of boosted darunavir with dapoxetine is contraindicated. |
UROLOGICAL DRUGS | ||
Fesoterodine Solifenacin | Not studied. | Use with caution. Monitor for fesoterodine or solifenacin adverse reactions, dose reduction of fesoterodine or solifenacin may be necessary. |
#
Studies have been performed at lower than recommended doses of darunavir or with a different dosing regimen (see section 4.2 Posology).
t The efficacy and safety of the use of darunavir with 100 mg ritonavir and any other HIV PI (e.g. (fos)amprenavir and tipranavir) has not been established in HIV patients. According to current treatment guidelines, dual therapy with protease inhibitors is generally not recommended.
$ Study was conducted with tenofovir disoproxil fumarate 300 mg once daily.
4.6 Fertility, pregnancy and lactation
Pregnancy
As a general rule, when deciding to use antiretroviral agents for the treatment of HIV infection in pregnant women and consequently for reducing the risk of HIV vertical transmission to the newborn, the animal data as well as the clinical experience in pregnant women should be taken into account.
There are no adequate and well controlled studies on pregnancy outcome with darunavir in pregnant women. Studies in animals do not indicate direct harmful effects with respect to pregnancy, embryonal/foetal development, parturition or postnatal development (see section 5.3).
Darunavir co-administered with low dose ritonavir should be used during pregnancy only if the potential benefit justifies the potential risk.
Treatment with darunavir/cobicistat 800/150 mg during pregnancy results in low darunavir exposure (see section 5.2), which may be associated with an increased risk of treatment failure and an increased risk of HIV transmission to the child.
Therapy with darunavir/cobicistat should not be initiated during pregnancy, and women who become pregnant during therapy with darunavir/cobicistat should be switched to an alternative regimen (see sections 4.2 and 4.4).
Breast-feeding
It is not known whether darunavir is excreted in human milk. Studies in rats have demonstrated that darunavir is excreted in milk and at high levels (1,000 mg/kg/day) resulted in toxicity. Because of both the potential for HIV transmission and the potential for adverse reactions in breast-fed infants, mothers should be instructed not to breast-feed under any circumstances if they are receiving Darunavir Krka d.d..
Fertility
No human data on the effect of darunavir on fertility are available. There was no effect on mating or fertility with darunavir treatment in rats (see section 5.3).
4.7 Effects on ability to drive and use machines
Darunavir in combination with cobicistat or ritonavir has no or negligible influence on the ability to drive and use machines. However, dizziness has been reported in some patients during treatment with regimens containing darunavir co-administered with cobicistat or low dose ritonavir and should be borne in mind when considering a patient's ability to drive or operate machinery (see section 4.8).
4.8 Undesirable effects
Summary of the safety profile
During the clinical development program (N=2,613 treatment-experienced subjects who initiated therapy with darunavir/ritonavir 600/100 mg twice daily), 51.3% of subjects experienced at least one adverse reaction. The total mean treatment duration for subjects was 95.3 weeks. The most frequent adverse reactions reported in clinical trials and as spontaneous reports are diarrhoea, nausea, rash, headache and vomiting. The most frequent serious reactions are acute renal failure, myocardial infarction, immune reconstitution inflammatory syndrome, thrombocytopenia, osteonecrosis, diarrhoea, hepatitis and pyrexia.
In the 96 week analysis, the safety profile of darunavir/ritonavir 800/100 mg once daily in treatment-naïve subjects was similar to that seen with darunavir/ritonavir 600/100 mg twice daily in treatment-experienced subjects except for nausea which was observed more frequently in treatment-naïve subjects. This was driven by mild intensity nausea. No new safety findings were identified in the 192 week analysis of the treatment-naïve subjects in which the mean treatment duration of darunavir/ritonavir 800/100 mg once daily was 162.5 weeks.
During the Phase III clinical trial GS-US-216–130 with darunavir/cobicistat (N=313 treatment-naïve and treatment-experienced subjects), 66.5% of subjects experienced at least one adverse reaction. The mean treatment duration was 58.4 weeks. The most frequent adverse reactions reported were diarrhoea (28%), nausea (23%), and rash (16%). Serious adverse reactions are diabetes mellitus, (drug) hypersensitivity, immune reconstitution inflammatory syndrome, rash and vomiting.
For information on cobicistat, consult the cobicistat Summary of Product Characteristics.
Tabulated list of adverse reactions
Adverse reactions are listed by system organ class (SOC) and frequency category. Within each frequency category, adverse reactions are presented in order of
decreasing seriousness. Frequency categories are defined as follows: very common (> 1/10), common (> 1/100 to < 1/10), uncommon (> 1/1,000 to < 1/100), rare (> 1/10,000 to < 1/1,000) and not known (frequency cannot be estimated from the available data).
Adverse reactions observed with darunavir/ritonavir in clinical trials and postmarketing
MedDRA system organ class Frequency category | Adverse reaction |
Infections and infestations | |
uncommon | herpes simplex |
Blood and lymphatic system disorders | |
uncommon | thrombocytopenia, neutropenia, anaemia, leukopenia |
rare | increased eosinophil count |
Immune system disorders | |
uncommon | immune reconstitution inflammatory syndrome, (drug) hypersensitivity |
Endocrine disorders | |
uncommon | hypothyroidism, increased blood thyroid stimulating hormone |
Metabolism and nutrition disorders | |
common | diabetes mellitus, hypertriglyceridaemia, hypercholesterolaemia, hyperlipidaemia |
uncommon | gout, anorexia, decreased appetite, decreased weight, increased weight, hyperglycaemia, insulin resistance, decreased high density lipoprotein, increased appetite, polydipsia, increased blood lactate dehydrogenase |
Psychiatric disorders | |
common | insomnia |
uncommon | depression, disorientation, anxiety, sleep disorder, abnormal dreams, nightmare, decreased libido |
rare | confusional state, altered mood, restlessness |
Nervous system disorders | |
common | headache, peripheral neuropathy, dizziness |
uncommon | lethargy, paraesthesia, hypoaesthesia, dysgeusia, disturbance in attention, memory impairment, somnolence |
rare | syncope, convulsion, ageusia, sleep phase rhythm disturbance |
Eye disorders | |
uncommon | conjunctival hyperaemia, dry eye |
rare | visual disturbance |
Ear and labyrinth disorders | |
uncommon | vertigo |
Cardiac disorders | |
uncommon | myocardial infarction, angina pectoris, prolonged |
rare | electrocardiogram QT, tachycardia |
acute myocardial infarction, sinus bradycardia, palpitations | |
Vascular disorders | |
uncommon | hypertension, flushing |
Respiratory, thoracic and mediastinal disorders | |
uncommon | dyspnoea, cough, epistaxis, throat irritation |
rare | rhinorrhoea |
Gastrointestinal disorders | |
very common | diarrhoea |
common | vomiting, nausea, abdominal pain, increased blood amylase, dyspepsia, abdominal distension, flatulence |
uncommon | pancreatitis, gastritis, gastrooesophageal reflux disease, aphthous stomatitis, retching, dry mouth, abdominal discomfort, constipation, increased lipase, eructation, oral dysaesthesia |
rare | stomatitis, haematemesis, cheilitis, dry lip, coated tongue |
Hepatobiliary disorders | |
common | increased alanine aminotransferase |
uncommon | hepatitis, cytolytic hepatitis, hepatic steatosis, hepatomegaly, increased transaminase, increased aspartate aminotransferase, increased blood bilirubin, increased blood alkaline phosphatase, increased gamma-glutamyltransferase |
Skin and subcutaneous tissue disorders | |
common | rash (including macular, maculopapular, papular, erythematous and pruritic rash), pruritus |
uncommon | angioedema, generalised rash, allergic dermatitis, urticaria, eczema, erythema, hyperhidrosis, night sweats, alopecia, acne, dry skin, nail pigmentation |
rare | DRESS, Stevens-Johnson syndrome, erythema multiforme, dermatitis, seborrhoeic dermatitis, skin lesion, xeroderma |
not known | toxic epidermal necrolysis, acute generalised exanthematous pustulosis |
Musculoskeletal and connective tissue disorders | |
uncommon | myalgia, osteonecrosis, muscle spasms, muscular weakness, arthralgia, pain in extremity, osteoporosis, increased blood creatine phosphokinase |
rare | musculoskeletal stiffness, arthritis, joint stiffness |
Renal and urinary disorders | |
uncommon | acute renal failure, renal failure, nephrolithiasis, increased blood creatinine, proteinuria, bilirubinuria, dysuria, nocturia, pollakiuria |
rare | decreased creatinine renal clearance |
Reproductive system and breast disorders | |
uncommon | erectile dysfunction, gynaecomastia |
General disorders and administration site conditions |
common | asthenia, fatigue |
uncommon | pyrexia, chest pain, peripheral oedema, malaise, feeling hot, irritability, pain |
rare | chills, abnormal feeling, xerosis |
Adverse reactions observed with darunavir/cobicistat in adult patients
MedDRA system organ class Frequency category | Adverse reaction |
Immune system disorders | |
common | (drug) hypersensitivity |
uncommon | immune reconstitution inflammatory syndrome |
Metabolism and nutrition disorders | |
common | anorexia, diabetes mellitus, hypercholesterolaemia, hypertriglyceridaemia, hyperlipidaemia |
Psychiatric disorders | |
common | abnormal dreams |
Nervous system disorders | |
very common | headache |
Gastrointestinal disorders | |
very common | diarrhoea, nausea |
common | vomiting, abdominal pain, abdominal distension, dyspepsia, flatulence, pancreatic enzymes increased |
uncommon | pancreatitis acute |
Hepatobiliary disorders | |
common | hepatic enzyme increased |
uncommon | hepatitis*, cytolytic hepatitis* |
Skin and subcutaneous tissue disorders | |
very common | rash (including macular, maculopapular, papular, erythematous, pruritic rash, generalised rash, and allergic dermatitis) |
common | angioedema, pruritus, urticaria |
rare | drug reaction with eosinophilia and systemic symptoms*, Stevens-Johnson syndrome* |
not known | toxic epidermal necrolysis*, acute generalised exanthematous pustulosis* |
Musculoskeletal and connective tissue disorders | |
common | myalgia |
uncommon | osteonecrosis* |
Reproductive system and breast disorders | |
uncommon | gynaecomastia* |
General disorders and administration site conditions | |
common | fatigue |
uncommon | asthenia |
Investigations | |
common | increased blood creatinine |
* these adverse drug reactions have not been reported in clinical trial experience with
darunavir/cobicistat but have been noted with darunavir/ritonavir treatment and could be expected with darunavir/cobicistat too.
Description of selected adverse reactions
Rash
In clinical trials, rash was mostly mild to moderate, often occurring within the first four weeks of treatment and resolving with continued dosing. In cases of severe skin reaction see the warning in section 4.4. In a single arm trial investigating darunavir 800 mg once daily in combination with cobicistat 150 mg once daily and other antiretrovirals 2.2% of patients discontinued treatment due to rash.
During the clinical development program of raltegravir in treatment-experienced patients, rash, irrespective of causality, was more commonly observed with regimens containing darunavir/ritonavir + raltegravir compared to those containing darunavir/ritonavir without raltegravir or raltegravir without darunavir/ritonavir. Rash considered by the investigator to be drug-related occurred at similar rates. The exposure-adjusted rates of rash (all causality) were 10.9, 4.2, and 3.8 per 100 patientyears (PYR), respectively; and for drug-related rash were 2.4, 1.1, and 2.3 per 100 PYR, respectively. The rashes observed in clinical studies were mild to moderate in severity and did not result in discontinuation of therapy (see section 4.4).
Metabolic parameters
Weight and levels of blood lipids and glucose may increase during antiretroviral therapy (see section 4.4).
Musculoskeletal abnormalities
Increased CPK, myalgia, myositis and rarely, rhabdomyolysis have been reported with the use of protease inhibitors, particularly in combination with NRTIs.
Cases of osteonecrosis have been reported, particularly in patients with generally acknowledged risk factors, advanced HIV disease or long-term exposure to combination antiretroviral therapy (CART). The frequency of this is unknown (see section 4.4).
Immune reconstitution inflammatory syndrome
In HIV infected patients with severe immune deficiency at the time of initiation of combination antiretroviral therapy (CART), an inflammatory reaction to asymptomatic or residual opportunistic infections may arise. Autoimmune disorders (such as Graves' disease and autoimmune hepatitis) have also been reported; however, the reported time to onset is more variable and these events can occur many months after initiation of treatment (see section 4.4).
Bleeding in haemophiliac patients
There have been reports of increased spontaneous bleeding in haemophiliac patients
receiving antiretroviral protease inhibitors (see section 4.4).
Paediatric population
The safety assessment of darunavir with ritonavir in paediatric patients is based on the 48-week analysis of safety data from three Phase II trials. The following patient populations were evaluated (see section 5.1):
– 80 ART-experienced HIV-1 infected paediatric patients aged from 6 to 17
years and weighing at least 20 kg who received darunavir tablets with low dose ritonavir twice daily in combination with other antiretroviral agents.
– 21 ART-experienced HIV-1 infected paediatric patients aged from 3 to < 6
years and weighing 10 kg to < 20 kg (16 participants from 15 kg to < 20 kg) who received darunavir oral suspension with low dose ritonavir twice daily in combination with other antiretroviral agents.
– 12 ART-naïve HIV-1 infected paediatric patients aged from 12 to 17 years
and weighing at least 40 kg who received darunavir tablets with low dose ritonavir once daily in combination with other antiretroviral agents (see section 5.1).
Overall, the safety profile in these paediatric patients was similar to that observed in the adult population.
The safety assessment of darunavir with cobicistat in paediatric patients was evaluated in adolescents aged 12 to less than 18 years, weighing at least 40 kg through the clinical trial GS-US-216–0128 (treatment-experienced, virologically suppressed, N=7). Safety analyses of this study in adolescent subjects did not identify new safety concerns compared to the known safety profile of darunavir and cobicistat in adult subjects.
Other special populations
Patients co-infected with hepatitis B and/or hepatitis C virus
Among 1,968 treatment-experienced patients receiving darunavir co-administered with ritonavir 600/100 mg twice daily, 236 patients were co-infected with hepatitis B or C. Co-infected patients were more likely to have baseline and treatment emergent hepatic transaminase elevations than those without chronic viral hepatitis (see section 4.4).
Reporting of suspected adverse reactions
Reporting suspected adverse reactions after authorisation of the medicinal product is important. It allows continued monitoring of the benefit/risk balance of the medicinal product. Healthcare professionals are asked to report any suspected adverse reactions via Yellow Card Scheme, Website: www.mhra.gov.uk/yellowcard or search for MHRA Yellow Card in the Google Play or Apple App Store.
4.9 Overdose
4.9 OverdoseHuman experience of acute overdose with darunavir co-administered with cobicistat or low dose ritonavir is limited. Single doses up to 3,200 mg of darunavir as oral solution alone and up to 1,600 mg of the tablet formulation of darunavir in combination with ritonavir have been administered to healthy volunteers without untoward symptomatic effects.
There is no specific antidote for overdose with darunavir. Treatment of overdose with darunavir consists of general supportive measures including monitoring of vital signs and observation of the clinical status of the patient.
Since darunavir is highly protein bound, dialysis is unlikely to be beneficial in significant removal of the active substance.
5 PHARMACOLOGICAL PROPERTIES
5.1 Pharmacodynamic properties
Pharmacotherapeutic group: antivirals for systemic use, protease inhibitors, ATC code: J05AE10.
Mechanism of action
Darunavir is an inhibitor of the dimerisation and of the catalytic activity of the HIV-1 protease (KD of 4.5 × 10–12M). It selectively inhibits the cleavage of HIV encoded Gag-Pol polyproteins in virus infected cells, thereby preventing the formation of mature infectious virus particles.
Antiviral activity in vitro
Darunavir exhibits activity against laboratory strains and clinical isolates of HIV-1 and laboratory strains of HIV-2 in acutely infected T-cell lines, human peripheral blood mononuclear cells and human monocytes/macrophages with median EC50 values ranging from 1.2 to 8.5 nM (0.7 to 5.0 ng/ml). Darunavir demonstrates antiviral activity in vitro against a broad panel of HIV-1 group M (A, B, C, D, E, F, G) and group O primary isolates with EC50 values ranging from < 0.1 to 4.3 nM.
These EC50 values are well below the 50% cellular toxicity concentration range of 87 pM to > 100 pM.
Resistance
In vitro selection of darunavir-resistant virus from wild type HIV-1 was lengthy (> 3 years). The selected viruses were unable to grow in the presence of darunavir concentrations above 400 nM. Viruses selected in these conditions and showing decreased susceptibility to darunavir (range: 23–50-fold) harboured 2 to 4 amino acid substitutions in the protease gene. The decreased susceptibility to darunavir of the emerging viruses in the selection experiment could not be explained by the emergence of these protease mutations.
The clinical trial data from ART-experienced patients (TITAN trial and the pooled analysis of the POWER 1, 2 and 3 and DUET 1 and 2 trials) showed that virologic response to darunavir co-administered with low dose ritonavir was decreased when 3 or more darunavir RAMs (V11I, V32I, L33F, I47V, I50V, I54L or M, T74P, L76V, I84V and L89V) were present at baseline or when these mutations developed during treatment.
Increasing baseline darunavir fold change in EC50 (FC) was associated with decreasing virologic response. A lower and upper clinical cut-off of 10 and 40 were identified. Isolates with baseline FC < 10 are susceptible; isolates with FC > 10 to 40 have decreased susceptibility; isolates with FC > 40 are resistant (see Clinical results).
Viruses isolated from patients on darunavir/ritonavir 600/100 mg twice daily experiencing virologic failure by rebound that were susceptible to tipranavir at baseline remained susceptible to tipranavir after treatment in the vast majority of cases.
The lowest rates of developing resistant HIV virus are observed in ART-naive patients who are treated for the first time with darunavir in combination with other ART.
The table below shows the development of HIV-1 protease mutations and loss of susceptibility to PIs in virologic failures at endpoint in the ARTEMIS, ODIN and TITAN trials.
ARTEMIS Week 192 | ODIN Week 48 | TITAN Week 48 | ||
Darunavir/ritonavir 800/100 mg once daily N=343 | Darunavir/ritonavir 800/100 mg once daily N=294 | darunavir/ritonavir 600/100 mg twice daily N=296 | darunavir/ritonavir 600/100 mg twice daily N=298 | |
Total number of virologic failures3, n (%) | 55 (16.0%) | 65 (22.1%) | 54 (18.2%) | 31 (10.4%) |
Rebounders | 39 (11.4%) | 11 (3.7%) | 11 (3.7%) | 16 (5.4%) |
Never suppressed subjects | 16 (4.7%) | 54 (18.4%) | 43 (14.5%) | 15 (5.0%) |
Number of subjects with virologic failure and paired baseline/endpoint genotypes, developing mutationsb at endpoint, n/N | ||||
Primary (major) PI mutations | 0/43 | 1/60 | 0/42 | 6/28 |
PI RAMs | 4/43 | 7/60 | 4/42 | 10/28 |
Number of subjects with virologic failure and paired baseline/endpoint phenotypes, showing loss of susceptibility to Pls at endpoint compared to baseline, n/N | ||||
PI | ||||
darunavir | 0/39 | 1/58 | 0/41 | 3/26 |
amprenavir | 0/39 | 1/58 | 0/40 | 0/22 |
atazanavir | 0/39 | 2/56 | 0/40 | 0/22 |
indinavir | 0/39 | 2/57 | 0/40 | 1/24 |
lopinavir | 0/39 | 1/58 | 0/40 | 0/23 |
saquinavir | 0/39 | 0/56 | 0/40 | 0/22 |
tipranavir | 0/39 | 0/58 | 0/41 | 1/25 |
a TLOVR non-VF censored algorithm based on HIV-1 RNA < 50 copies/ml, except for TITAN (HIV-1 RNA < 400 copies/ml)
b IAS-USA lists
Low rates of developing resistant HIV-1 virus were observed in ART-naive patients who are treated for the first time with darunavir/cobicistat once daily in combination with other ART, and in ART-experienced patients with no darunavir RAMs receiving darunavir/cobicistat in combination with other ART. The table below shows the development of HIV-1 protease mutations and resistance to Pls in virologic failures at endpoint in the GS-US-216–130 trial.
GS-US-216–130 Week 48 | ||
Treatment-naïve darunavir/cobicistat 800/150 mg once daily N=295 | T reatment-experienced darunavir/cobicistat 800/150 mg once daily N=18 | |
Number of subjects with virologic failurea and genotype data that develop mutationsb at endpoint, n/N | ||
Primary (major) PI mutations | 0/8 | 1/7 |
PI RAMs | 2/8 | 1/7 |
Number of subjects with virologic failurea and phenotype data that show resistance to Pls at endpointc, n/N | ||
HIV PI | ||
darunavir | 0/8 | 0/7 |
amprenavir | 0/8 | 0/7 |
atazanavir | 0/8 | 0/7 |
indinavir | 0/8 | 0/7 |
lopinavir | 0/8 | 0/7 |
saquinavir | 0/8 | 0/7 |
tipranavir | 0/8 | 0/7 |
a Virogic failures were defined as: never suppressed: confirmed HIV-1 RNA < 1 log10 reduction from baseline and > 50 copies/ml at the week-8; rebound: HIV-1 RNA < 50 copies/ml followed by confirmed
HIV-1 RNA to > 400 copies/ml or confirmed > 1 log10 HIV-1 RNA increase from the nadir; discontinuations with HIV-1 RNA > 400 copies/ml at last visit
b IAS-USA lists
c In GS-US216–130 baseline phenotype was not available
Cross-resistance
Darunavir FC was less than 10 for 90% of 3,309 clinical isolates resistant to amprenavir, atazanavir, indinavir, lopinavir, nelfinavir, ritonavir, saquinavir and/or tipranavir showing that viruses resistant to most Pls remain susceptible to darunavir.
In the virologic failures of the ARTEMIS trial no cross-resistance with other Pls was observed.
In the virologic failures of the GS-US-216–130 trial no cross-resistance with other HIV Pls was observed.
Clinical results
The pharmacokinetic enhancing effect of cobicistat on darunavir was evaluated in a Phase I study in healthy subjects that were administered darunavir 800 mg with either cobicistat at 150 mg or ritonavir at 100 mg once daily. The steady-state pharmacokinetic parameters of darunavir were comparable when boosted with cobicistat versus ritonavir. For information on cobicistat, consult the cobicistat Summary of Product Characteristics.
Adult patients
Efficacy of darunavir 800 mg once daily co-administered with 150 mg cobicistat once daily in ART-naive and ART-experienced patients
GS-US-216–130 is a single arm, open-label, Phase III trial evaluating the pharmacokinetics, safety, tolerability, and efficacy of darunavir with cobicistat in 313 HIV-1 infected adult patients (295 treatment-naive and 18 treatment-experienced). These patients received darunavir 800 mg once daily in combination with cobicistat 150 mg once daily with an investigator selected background regimen consisting of 2 active NRTIs.
HIV-1 infected patients who were eligible for this trial had a screening genotype showing no darunavir RAMs and plasma HIV-1 RNA > 1,000 copies/ml. The table below shows the efficacy data of the 48 week analyses from the GS-US-216–130 trial:
GS-US-216–130 | |||
Outcomes at Week 48 | Treatment-naïve darunavir/cobicistat 800/150 mg once daily + OBR N=295 | T reatment-experienced darunavir/cobicistat 800/150 mg once daily + OBR N=18 | All subjects darunavir/cobicistat 800/150 mg once daily + OBR N=313 |
HIV-1 RNA < 50 copies/mla | 245 (83.1%) | 8 (44.4%) | 253 (80.8%) |
mean HIV-1 RNA log | –3.01 | –2.39 | –2.97 |
change from baseline (log10 copies/ml) | |||
CD4+ cell count mean change from baselineb | +174 | +102 | +170 |
a Imputations according to the TLOVR algorithm bLast Observation Carried Forward imputation
Efficacy of darunavir 800 mg once daily co-administered with 100 mg ritonavir once daily in ART-naive patients
The evidence of efficacy of darunavir/ritonavir 800/100 mg once daily is based on the analyses of 192 week data from the randomised, controlled, open-label Phase III trial ARTEMIS in antiretroviral treatment-naive HIV-1 infected patients comparing darunavir/ritonavir 800/100 mg once daily with lopinavir/ritonavir 800/200 mg per day (given as a twice-daily or as a once-daily regimen). Both arms used a fixed background regimen consisting of tenofovir disoproxil fumarate 300 mg once daily and emtricitabine 200 mg once daily.
The table below shows the efficacy data of the 48 week and 96 week analyses from the ARTEMIS trial:
ARTEMIS | ||||||
Week 48a | Week 96b | |||||
Outcomes | Darunavir/ritonavir 800/100 mg once daily N=343 | Lopinavir/ ritonavir 800/200 mg per day N=346 | Treatment difference (95% CI of difference) | Darunavir/ritonavir 800/100 mg once daily N=343 | Lopinavir/ ritonavir 800/200 mg per day N=346 | Treatment difference (95% CI of difference) |
HIV-1 RNA < 50 copies/mlc All patients | 83.7% (287) | 78.3% (271) | 5.3% (-0.5; 11.2)d | 79.0% (271) | 70.8% (245) | 8.2% (1.7; 14.7)d |
With baseline HIV-RNA < 100,000 | 85.8% (194/226) | 84.5% (191/226) | 1.3% (-5.2; 7.9)d | 80.5% (182/226) | 75.2% (170/226) | 5.3% (-2.3; 13.0)d |
With baseline HIV-RNA > 100,000 | 79.5% (93/117) | 66.7% (80/120) | 12.8% (1.6; 24.1)d | 76.1% (89/117) | 62.5% (75/120) | 13.6% (1.9; 25.3)d |
With baseline CD4+ cell count < 200 | 79.4% (112/141) | 70.3% (104/148) | 9.2% (-0.8; 19.2)d | 78.7% (111/141) | 64.9% (96/148) | 13.9% (3.5; 24.2)d |
With baseline CD4+ cell count > 200 | 86.6% (175/202) | 84.3% (167/198) | 2.3% (-4.6; 9.2)d | 79.2% (160/202) | 75.3% (149/198) | 4.0% (-4.3; 12.2)d |
median CD4+ cell count change from baseline (x 106/L)e | 137 | 141 | 171 | 188 |
a Data based on analyses at week 48
b Data based on analyses at week 96
c Imputations according to the TLOVR algorithm
d Based on normal approximation to the difference in % response
e Non-completer is failure imputation: patients who discontinued prematurely are imputed with a change equal to 0
Non-inferiority in virologic response to the darunavir/ritonavir treatment, defined as the percentage of patients with plasma HIV-1 RNA level < 50 copies/ml, was demonstrated (at the pre-defined 12% non-inferiority margin) for both Intent-To-Treat (ITT) and On Protocol (OP) populations in the 48 week analysis. These results were confirmed in the analyses of data at 96 weeks of treatment in the ARTEMIS trial. These results were sustained up to 192 weeks of treatment in the ARTEMIS trial.
Efficacy of darunavir 800 mg once daily co-administered with 100 mg ritonavir once daily in ART-experienced patients
ODIN is a Phase III, randomised, open-label trial comparing darunavir/ritonavir 800/100 mg once daily versus darunavir/ritonavir 600/100 mg twice daily in ART-experienced HIV-1 infected patients with screening genotype resistance testing showing no darunavir RAMs (i.e. V11I, V32I, L33F, I47V, I50V, I54M, I54L, T74P, L76V, I84V, L89V) and a screening HIV-1 RNA > 1,000 copies/ml. Efficacy analysis is based on 48 weeks of treatment (see table below). Both arms used an optimised background regimen (OBR) of > 2 NRTIs.
ODIN | |||
Outcomes | Darunavir/ritonavir 800/100 mg once daily + OBR N=294 | Darunavir/ritonavir 600/100 mg twice daily + OBR N=296 | Treatment difference (95% CI of difference) |
HIV-1 RNA < 50 copies/mla | 72.1% (212) | 70.9% (210) | 1.2% (-6.1; 8.5)b |
With Baseline HIV-1 RNA (copies/ml) < 100,000 > 100,000 | 77.6% (198/255) 35.9% (14/39) | 73.2% (194/265) 51.6% (16/31) | 4.4% (-3.0; 11.9) –15.7% (-39.2; 7.7) |
With Baseline CD4+ cell count (x 106/L) > 100 < 100 | 75.1% (184/245) 57.1% (28/49) | 72.5% (187/258) 60.5% (23/38) | 2.6% (-5.1; 10.3) –3.4% (-24.5; 17.8) |
With HIV-1 clade Type B Type AE Type C Otherc | 70.4% (126/179) 90.5% (38/42) 72.7% (32/44) 55.2% (16/29) | 64.3% (128/199) 91.2% (31/34) 78.8% (26/33) 83.3% (25/30) | 6.1% (-3.4; 15.6) –0.7% (-14.0; 12.6) –6.1% (-2.6; 13.7) –28.2% (-51.0; –5.3) |
mean CD4+ cell count change from baseline (x 106/L)e | 108 | 112 | –5d(-25; 16) |
a Imputations according to the TLOVR algorithm
b Based on a normal approximation of the difference in % response
c Clades A1, D, F1, G, K, CRF02_AG, CRF12_BF, and CRF06_CPX
d Difference in means
e Last Observation Carried Forward imputation
At 48 weeks, virologic response, defined as the percentage of patients with plasma HIV-1 RNA level < 50 copies/ml, with darunavir/ritonavir 800/100 mg once daily treatment was demonstrated to be non-inferior (at the pre-defined 12% non-inferiority margin) compared to darunavir/ritonavir 600/100 mg twice daily for both ITT and OP populations.
Darunavir/ritonavir 800/100 mg once daily in ART-experienced patients should not be used in patients with one or more darunavir resistance associated mutations (DRV-RAMs) or HIV-1 RNA > 100,000 copies/ml or CD4+ cell count < 100 cells x 106/L (see section 4.2 and 4.4). Limited data is available in patients with HIV-1 clades other than B.
Paediatric patients
ART-naive paediatric patients from the age of 12 years to < 18 years, and weighing at least 40 kg
DIONE is an open-label, Phase II trial evaluating the pharmacokinetics, safety, tolerability, and efficacy of darunavir with low dose ritonavir in 12 ART-naive HIV-1 infected paediatric patients aged 12 to less than 18 years and weighing at least 40 kg. These patients received darunavir/ritonavir 800/100 mg once daily in combination with other antiretroviral agents. Virologic response was defined as a decrease in plasma HIV-1 RNA viral load of at least 1.0 log10 versus baseline.
DIONE | |
Outcomes at week 48 | Darunavir/ritonavir N=12 |
HIV-1 RNA < 50 copies/mla | 83.3% (10) |
CD4+ percent change from baselineb | 14 |
CD4+ cell count mean change from baselineb | 221 |
> 1.0 log10 decrease from baseline in plasma viral load | 100% |
a Imputations according to the TLOVR algorithm.
b Non-completer is failure imputation: patients who discontinued prematurely are imputed with a change equal to 0.
In the open-label, Phase II/III trial GS-US-216–0128, the efficacy, safety, and pharmacokinetics of darunavir 800 mg and cobicistat 150 mg (administered as separate tablets) and at least 2 NRTIs were evaluated in 7 HIV-1 infected, treatment-experienced, virologically suppressed adolescents weighing at least 40 kg. Patients were on a stable antiretroviral regimen (for at least 3 months), consisting of darunavir administered with ritonavir, combined with 2 NRTIs. They were switched from ritonavir to cobicistat 150 mg once daily and continued darunavir (N=7) and 2 NRTIs.
Virologic outcome in ART-experienced, virologically suppressed adolescents at week 48 | |
GS-US-216–0128 | |
Outcomes at Week 48 | Darunavir/cobicistat + at least 2 NRTIs (N=7) |
HIV-1 RNA < 50 copies/mL per FDA Snapshot Approach | 85.7% (6) |
CD4+ percent median change from baselinea | —6.1% |
CD4+ cell count median change from baselinea | —342 cells/mm3 |
a No imputation (observed data).
For additional clinical study results in ART-experienced adults and paediatric patients, refer to the Summary of Product Characteristics for Darunavir Krka d.d. 600 mg tablets.
Pregnancy and postpartum
Darunavir/ritonavir (600/100 mg twice daily or 800/100 mg once daily) in combination with a background regimen was evaluated in a clinical trial of 36 pregnant women (18 in each arm) during the second and third trimesters, and postpartum. Virologic response was preserved throughout the study period in both arms. No mother to child transmission occurred in the infants born to the 31 subjects who stayed on the antiretroviral treatment through delivery. There were no new clinically relevant safety findings compared with the known safety profile of darunavir/ritonavir in HIV-1 infected adults (see sections 4.2, 4.4 and 5.2).
5.2 Pharmacokinetic properties
The pharmacokinetic properties of darunavir, co-administered with cobicistat or ritonavir, have been evaluated in healthy adult volunteers and in HIV-1 infected patients. Exposure to darunavir was higher in HIV-1 infected patients than in healthy subjects. The increased exposure to darunavir in HIV-1 infected patients compared to healthy subjects may be explained by the higher concentrations of a1-acid glycoprotein (AAG) in HIV-1 infected patients, resulting in higher darunavir binding to plasma AAG and, therefore, higher plasma concentrations.
Darunavir is primarily metabolised by CYP3A. Cobicistat and ritonavir inhibit CYP3A, thereby increasing the plasma concentrations of darunavir considerably.
For information on cobicistat pharmacokinetic properties, consult the cobicistat Summary of Product Characteristics.
Absorption
Darunavir was rapidly absorbed following oral administration. Maximum plasma concentration of darunavir in the presence of low dose ritonavir is generally achieved within 2.5–4.0 hours.
The absolute oral bioavailability of a single 600 mg dose of darunavir alone was approximately 37% and increased to approximately 82% in the presence of 100 mg twice daily ritonavir. The overall pharmacokinetic enhancement effect by ritonavir was an approximate 14-fold increase in the systemic exposure of darunavir when a single dose of 600 mg darunavir was given orally in combination with ritonavir at 100 mg twice daily (see section 4.4).
When administered without food, the relative bioavailability of darunavir in the presence of cobicistat or low dose ritonavir is lower as compared to intake with food. Therefore, darunavir tablets should be taken with cobicistat or ritonavir and with food. The type of food does not affect exposure to darunavir.
Distribution
Darunavir is approximately 95% bound to plasma protein. Darunavir binds primarily to plasma a1-acid glycoprotein.
Following intravenous administration, the volume of distribution of darunavir alone was 88.1 ± 59.0 l (Mean ± SD) and increased to 131 ± 49.9 l (Mean ± SD) in the presence of 100 mg twice-daily ritonavir.
Biotransformation
In vitro experiments with human liver microsomes (HLMs) indicate that darunavir primarily undergoes oxidative metabolism. Darunavir is extensively metabolised by the hepatic CYP system and almost exclusively by isozyme CYP3A4. A 14C-darunavir trial in healthy volunteers showed that a majority of the radioactivity in plasma after a single 400/100 mg darunavir with ritonavir dose was due to the parent active substance. At least 3 oxidative metabolites of darunavir have been identified in humans; all showed activity that was at least 10-fold less than the activity of darunavir against wild type HIV.
Elimination
After a 400/100 mg 14C-darunavir with ritonavir dose, approximately 79.5% and 13.9% of the administered dose of 14C-darunavir could be retrieved in faeces and urine, respectively. Unchanged darunavir accounted for approximately 41.2% and 7.7% of the administered dose in faeces and urine, respectively. The terminal elimination half-life of darunavir was approximately 15 hours when combined with ritonavir.
The intravenous clearance of darunavir alone (150 mg) and in the presence of low dose ritonavir was 32.8 l/h and 5.9 l/h, respectively.
Special populations
Paediatric population
The pharmacokinetics of darunavir in combination with ritonavir taken twice daily in 74 treatment-experienced paediatric patients, aged 6 to 17 years and weighing at least 20 kg, showed that the administered weight-based doses of darunavir /ritonavir resulted in darunavir exposure comparable to that in adults receiving darunavir /ritonavir 600/100 mg twice daily (see section 4.2).
The pharmacokinetics of darunavir in combination with ritonavir taken twice daily in 14 treatment-experienced paediatric patients, aged 3 to < 6 years and weighing at least 15 kg to < 20 kg, showed that weight-based dosages resulted in darunavir exposure that was comparable to that achieved in adults receiving darunavir /ritonavir 600/100 mg twice daily (see section 4.2).
The pharmacokinetics of darunavir in combination with ritonavir taken once daily in 12 ART-naïve paediatric patients, aged 12 to < 18 years and weighing at least 40 kg, showed that darunavir /ritonavir 800/100 mg once daily results in darunavir exposure that was comparable to that achieved in adults receiving darunavir /ritonavir 800/100 mg once daily. Therefore the same once daily dosage may be used in treatment-experienced adolescents aged 12 to < 18 years and weighing at least 40 kg without darunavir resistance associated mutations (DRV-RAMs)* and who have plasma HIV-1 RNA < 100,000 copies/ml and CD4+ cell count > 100 cells x 106/L (see section 4.2).
* DRV-RAMs: V11I, V32I, L33F, I47V, I50V, I54M, I54L, T74P, L76V, I84V and L89V
The pharmacokinetics of darunavir in combination with ritonavir taken once daily in 10 treatment-experienced paediatric patients, aged 3 to < 6 years and weighing at least 14 kg to < 20 kg, showed that weight-based dosages resulted in darunavir exposure that was comparable to that achieved in adults receiving darunavir/ritonavir 800/100 mg once daily (see section 4.2). In addition, pharmacokinetic modeling and simulation of darunavir exposures in paediatric patients across the ages of 3 to < 18 years confirmed the darunavir exposures as observed in the clinical studies and allowed the identification of weight-based darunavir/ritonavir once daily dosing regimens for paediatric patients weighing at least 15 kg that are either ART-naïve or treatment-experienced paediatric patients without DRV-RAMs* and who have plasma HIV-1 RNA < 100,000 copies/ml and CD4+ cell count > 100 cells x 106/L (see section 4.2).
* DRV-RAMs: V11I, V32I, L33F, I47V, I50V, I54M, I54L, T74P, L76V, I84V and L89V
The pharmacokinetics of darunavir 800 mg co-administered with cobicistat 150 mg in paediatric patients have been studied in 7 adolescents aged 12 to less than 18 years, weighing at least 40 kg in Study GS-US-216–0128. The geometric mean adolescent exposure (AUCtau) was similar for darunavir and increased 19% for cobicistat compared to exposures achieved in adults who received darunavir 800 mg co-administered with cobicistat 150 mg in Study GS-US-216–0130. The difference observed for cobicistat was not considered clinically relevant.
Adults in Study GS-US-216–0130, week 24 (Reference)3 Mean (%CV) GLSM | Adolescents in Study GS-US-216–0128, day 10 (Test)b Mean (%CV) GLSM | GLSM Ratio (90% CI) (Test/Reference) | |
N | 60c | 7 | |
DRV PK Parameter | |||
AUCtau (h.ng/mL)d | 81,646 (32.2) 77,534 | 80,877 (29.5) 77,217 | 1.00 (0.79–1.26) |
Cmax (ng/mL) | 7,663 (25.1) 7,422 | 7,506 (21.7) 7,319 | 0.99 (0.83–1.17) |
Ctau (ng/mL)d | 1,311 (74.0) 947 | 1,087 (91.6) 676 | 0.71 (0.34–1.48) |
COBI PK Parameter | |||
AUCtau (h.ng/mL)d | 7,596 (48.1) 7,022 | 8,741 (34.9) 8,330 | 1.19 (0.95–1.48) |
Cmax (ng/mL) | 991 (33.4) 945 | 1,116 (20.0) 1,095 | 1.16 (1.00–1.35) |
Ctau (ng/mL)d | 32.8 (289.4) 17.2e | 28.3 (157.2) 22.0e | 1.28 (0.51–3.22) |
a
Week 24 intensive PK data from subjects who received DRV 800 mg + COBI 150 mg.
b
Day 10 intensive PK data from subjects who received DRV 800 mg + COBI 150 mg.
N=59 for AUCtau and Ctau.
Concentration at predose (0 hours) was used as surrogate for concentration at 24 hours for the purposes of
estimating AUCtau and Ctau in Study GS-US-216–0128.
e N=57 and N=5 for GLSM of Ctau in Study GS-US-216–0130 and Study GS-US-216–0128, respectively.
Elderly
Population pharmacokinetic analysis in HIV infected patients showed that darunavir pharmacokinetics are not considerably different in the age range (18 to 75 years) evaluated in HIV infected patients (n=12, age > 65) (see section 4.4). However, only limited data were available in patients above the age of65 year.
Gender
Population pharmacokinetic analysis showed a slightly higher darunavir exposure (16.8%) in HIV infected females compared to males. This difference is not clinically relevant.
Renal impairment
Results from a mass balance study with 14C-darunavir with ritonavir showed that approximately 7.7% of the administered dose of darunavir is excreted in the urine unchanged.
Although darunavir has not been studied in patients with renal impairment, population pharmacokinetic analysis showed that the pharmacokinetics of darunavir were not significantly affected in HIV infected patients with moderate renal impairment (CrCl between 30–60 ml/min, n=20) (see sections 4.2 and 4.4).
Hepatic impairment
Darunavir is primarily metabolised and eliminated by the liver. In a multiple dose study with darunavir co-administered with ritonavir (600/100 mg) twice daily, it was demonstrated that the total plasma concentrations of darunavir in subjects with mild (Child-Pugh Class A, n=8) and moderate (Child-Pugh Class B, n=8) hepatic impairment were comparable with those in healthy subjects. However, unbound darunavir concentrations were approximately 55% (Child-Pugh Class A) and 100% (Child-Pugh Class B) higher, respectively. The clinical relevance of this increase is unknown therefore, darunavir should be used with caution. The effect of severe hepatic impairment on the pharmacokinetics of darunavir has not been studied (see sections 4.2, 4.3 and 4.4).
Pregnancy and postpartum
The exposure to total darunavir and ritonavir after intake of darunavir/ritonavir 600/100 mg twice daily and darunavir/ritonavir 800/100 mg once daily as part of an antiretroviral regimen was generally lower during pregnancy compared with postpartum. However, for unbound (i.e. active) darunavir, the pharmacokinetic parameters were less reduced during pregnancy compared to postpartum, due to an increase in the unbound fraction of darunavir during pregnancy compared to postpartum.
Pharmacokinetic results of total darunavir after administration of darunavir/ritonavir at 600/100 mg twice daily as part of an antiretroviral regimen, during the second trimester of pregnancy, the third trimester of pregnancy and postpartum | |||
Pharmacokinetics of total darunavir (mean ± SD) | Second trimester of pregnancy (n=12)a | Third trimester of pregnancy (n=12) | Postpartum (6–12 weeks) (n=12) |
Cm,,, ng/ml | 4,668 ± 1,097 | 5,328 ± 1,631 | 6,659 ± 2,364 |
AUC12h, ng.h/ml | 39,370 ± 9,597 | 45,880 ± 17,360 | 56,890 ± 26,340 |
Cmin, ng/ml | 1,922 ± 825 | 2,661 ± 1,269 | 2,851 ± 2,216 |
a n=11 for AUC12h
Pharmacokinetic results of total darunavir after administration of darunavir/ritonavir at 800/100 mg once daily as part of an antiretroviral regimen, during the second trimester of pregnancy, the third trimester of pregnancy and postpartum | |||
Pharmacokinetics of total darunavir (mean ± SD) | Second trimester of pregnancy (n=17) | Third Trimester of pregnancy (n=15) | Postpartum (6–12 weeks) (n=16) |
Cmax, ng/ml | 4,964 ± 1,505 | 5,132 ± 1,198 | 7,310 ± 1,704 |
AUC24h, ng.h/ml | 62,289 ± 16,234 | 61,112 ± 13,790 | 92,116 ± 29,241 |
Cmin, ng/ml | 1,248 ± 542 | 1,075 ± 594 | 1,473 ± 1,141 |
In women receiving darunavir/ritonavir 600/100 mg twice daily during the second trimester of pregnancy, mean intra-individual values for total darunavir Cmax, AUC12h and Cmin were 28%, 26% and 26% lower, respectively, as compared with postpartum; during the third trimester of pregnancy, total darunavir Cmax, AUC12h and Cmin values were 18%, 16% lower and 2% higher, respectively, as compared with postpartum.
In women receiving darunavir/ritonavir 800/100 mg once daily during the second trimester of pregnancy, mean intra-individual values for total darunavir Cmax, AUC24h and Cmin were 33%, 31% and 30% lower, respectively, as compared with postpartum; during the third trimester of pregnancy, total darunavir Cmax, AUC24h and Cmin values were 29%, 32% and 50% lower, respectively, as compared with postpartum.
Treatment with darunavir/cobicistat 800/150 mg once daily during pregnancy results in low darunavir exposure. In women receiving darunavir/cobicistat during the second trimester of pregnancy, mean intra-individual values for total darunavir Cmax, AUC24h and Cmin were 49%, 56% and 92% lower, respectively, as compared with postpartum; during the third trimester of pregnancy, total darunavir Cmax, AUC24h and Cmin values were 37%, 50% and 89% lower, respectively, as compared with postpartum. The unbound fraction was also substantially reduced, including around 90% reductions of Cmin levels. The main cause of these low exposures is a marked reduction in cobicistat exposure as a consequence of pregnancy-associated enzyme induction (see below).
Pharmacokinetic results of total darunavir after administration of darunavir/cobicistat 800/150 mg once daily as part of an antiretroviral regimen, during the second trimester of pregnancy, the third trimester of pregnancy, and postpartum | |||
Pharmacokinetics of total darunavir (mean ± SD) | Second trimester of pregnancy (n=7) | Third trimester of pregnancy (n=6) | Postpartum (6–12 weeks) (n=6) |
Cm..- ng/mL | 4,340 ± 1,616 | 4,910 ± 970 | 7,918 ± 2,199 |
AUC24h, ng.h/mL | 47,293 ± 19,058 | 47,991 ± 9,879 | 99,613 ± 34,862 |
Cmin, ng/mL | 168±149 | 184 ± 99 | 1,538 ± 1,344 |
The exposure to cobicistat was lower during pregnancy, potentially leading to suboptimal boosting of darunavir. During the second trimester of pregnancy, cobicistat Cmax, AUC24h, and Cmin were 50%, 63%, and 83% lower, respectively, as compared with postpartum. During the third trimester of pregnancy, cobicistat Cmax, AUC24h, and Cmin, were 27%, 49%, and 83% lower, respectively, as compared with postpartum.
5.3 Preclinical safety data
6 PHARMACEUTICAL PARTICULARS
6.1 List of excipients
Tablet core:
Cellulose, microcrystalline
Crospovidone
Hydroxypropylcellulose
Silica, colloidal anhydrous
Silicified microcrystalline cellulose (Cellulose, microcrystalline; Silica, colloidal anhydrous)
Magnesium stearate (E470b)
Film coating:
Poly(vinyl alcohol)
Macrogol
Titanium dioxide (E171)
Talc (E553b)
Iron oxide, red (E172)
6.2 Incompatibilities
Not applicable.
6.3
3 years
Shelf life after first opening: 3 months.
6.4 Special precautions for storage
Keep the bottle tightly closed in order to protect from moisture.
For storage conditions after first opening of the medicinal product, see section 6.3.
6.5 Nature and contents of container
Bottle (HDPE), child resistant tamper evident PP closure with a desiccant:
30 tablets: 1 bottle of 30 film-coated tablets,
90 tablets: 3 bottles of 30 film-coated tablets.
Not all pack sizes may be marketed.
6.6 Special precautions for disposal
6.6 Special precautions for disposalNo special requirements for disposal.