Transcript Slide 1
Anti-fungal therapeutic drug monitoring and azole dose modification Tim Felton Advances Against Aspergillosis Istanbul, 2012 Contents • Triazoles – an overview • Therapeutic drug monitoring (TDM) • Specific drugs Advances Against Aspergillosis Istanbul, 2012 Triazoles • Bind cytochrome P450-enzyme lanosterol 14- demethylase • Inhibits the conversion of lanosterol to ergosterol • Fluconazole • Itraconazole • Voriconazole • Posaconazole • (Isavuconazole) Advances Against Aspergillosis Istanbul, 2012 1.0 0.9 Probability 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0 2 Therapeutic window Emergence of resistance 0.8 3 4 5 Drug exposure Advances Against Aspergillosis Istanbul, 2012 Response Toxicity 6 7 8 Exposure 1. 20 Dr ug Concent r at ion ( mg/ L) Peak Concentration 0. 80 AUC 0. 40 MIC Time>threshold 0. 00 0 1 2 3 4 5 6 7 Tim e ( hour s) Advances Against Aspergillosis Istanbul, 2012 8 9 10 11 12 Indications for TDM 1. Variable pharmacokinetics Advances Against Aspergillosis Istanbul, 2012 PK-PD: the black arts DOSE BIOMARKER •Quantifiable •Linked to pathogenesis •Linked to an outcome of clinical interest 7 5 Ef f ect ( 1lo0CFU/ g) g •Survival •Resolution of clinical syndrome 6 Conc OUTCOME OF CLINICAL INTEREST/IMPORTANCE 4 3 2 1 0 0. 01 0. 1 1 10 100 1000 Tot al dose 5FC ( m g/ kg) Dose PHARMACOKINETICS PHARMACODYNAMICS Advances Against Aspergillosis Istanbul, 2012 Pharmacokinetic variability Vor ic onazoleConcentration Concent r at ions (mg/L) ( mg/ L) Voriconazole 20 18 16 14 12 10 8 Toxic 6 4 2 0 0 24 48 72 96 Time Tim e(hours) ( hour s) Advances Against Aspergillosis Istanbul, 2012 120 144 Sub168 therapeutic Pharmacokinetic variability Advances Against Aspergillosis Istanbul, 2012 Hope WW. AAC. 2012. In press Pharmacokinetic variability Advances Against Aspergillosis Istanbul, 2012 Howard S. TDM. 2012. 34:72-76 Pharmacokinetic variability • Absorption • Metabolism – Vomiting – Diet – Genetic differences in drugtransport/gut-metabolism – Concomitant medications • Distribution – Amount of body fat – Presence of extravascular fluid collections – Hypoalbuminaemia – Hepatic dysfunction – Genetic differences in drugmetabolism – Concomitant medications • Excretion – Hepatic dysfunction – Renal insufficiency – Genetic differences in drugelimination pathways Advances Against Aspergillosis Istanbul, 2012 Pharmacogenomics Vor ic onazole Concent r at ion ( mg/ L) 9 Ext ensiv e M et abolis er 8 Poor M et abolis er 7 6 5 4 3 2 1 0 0 96 192 288 Tim e ( hour s) Advances Against Aspergillosis Istanbul, 2012 384 480 Absorption Suspension (fasted) Suspension (non-fat meal) Suspension (high-fat meal) Time (hours) Advances Against Aspergillosis Istanbul, 2012 Courtney R . Br J Clin Pharmacol 2004:218–222. Saturation of metabolism Vor ic onazole Concent r at ion ( mg/ L) 9 Dosage escalation from 200 mg bd to 300 mg bd 8 7 6 5 4 3 2 1 0 0 29 58 87 116 145 174 203 Tim e ( hour s) Advances Against Aspergillosis Istanbul, 2012 232 261 290 319 348 Indications for TDM 1. Variable pharmacokinetics 2. Clinically relevant exposure–response relationships Advances Against Aspergillosis Istanbul, 2012 Indications for TDM 1. Variable pharmacokinetics 2. Clinically relevant exposure–response relationships Advances Against Aspergillosis Istanbul, 2012 Experimental IPA in rabbits Advances Against Aspergillosis Istanbul, 2012 Berenguar et al, AAC 1994;38:1303-8 Exposure-trough conc. Advances Against Aspergillosis Istanbul, 2012 Hope WW AAC. 2012. 56:526-31. Clinical IPA Effect 1.00 0.90 Probability effect 0.80 0.70 0.60 0.50 0.40 0.30 0.20 0.10 0.00 0 1 2 3 4 5 6 7 8 9 10 Voriconazole trough concentrations (mg/L) Advances Against Aspergillosis Istanbul, 2012 Pascual et al. CID. 2008. 46:201-11 Indications for TDM 1. Variable pharmacokinetics 2. Clinically relevant exposure–response relationships 3. Clinically relevant exposure–toxicity relationships Advances Against Aspergillosis Istanbul, 2012 Concentration-toxicity Advances Against Aspergillosis Istanbul, 2012 Lestner J M. CID. 2009. 49:928-930 Clinical IPA Effect Toxicity 1.00 Probability effect or toxicity 0.90 0.80 0.70 0.60 0.50 0.40 0.30 0.20 0.10 0.00 0 1 2 3 4 5 6 7 8 9 10 Voriconazole trough concentrations (mg/L) Advances Against Aspergillosis Istanbul, 2012 Pascual et al. CID. 2008. 46:201-11 Indications for TDM 1. 2. 3. 4. Variable pharmacokinetics Clinically relevant exposure–response relationships Clinically relevant exposure–toxicity relationships Narrow therapeutic window Advances Against Aspergillosis Istanbul, 2012 Clinical IPA Effect Toxicity Therapeutic window 1.00 Probability effect or toxicity 0.90 0.80 0.70 0.60 0.50 0.40 0.30 0.20 0.10 0.00 0 1 2 3 4 5 6 7 8 9 10 Voriconazole trough concentrations (mg/L) Advances Against Aspergillosis Istanbul, 2012 Pascual et al. CID. 2008. 46:201-11 Indications for TDM 1. 2. 3. 4. 5. 6. 7. 8. 9. Variable pharmacokinetics Clinically relevant exposure–response relationships Clinically relevant exposure–toxicity relationships Narrow therapeutic window Unable to rapidly assess response Serious/poor prognostic disease Drug–drug interactions Compliance Dosage adjustment Advances Against Aspergillosis Istanbul, 2012 Specific dugs • • • • Fluconazole Itraconazole Voriconazole Posaconazole • • • • • Indication Pharmacology/pharmacokinetics Exposure–response relationship Exposure–toxicity relationship TDM target Advances Against Aspergillosis Istanbul, 2012 Fluconazole • Indication – Prophylaxis – Empirical therapy – Treatment of superficial and invasive candidiasis • Pharmacology/pharmacokinetics – Linear PK – High bioavailability • Exposure–response relationship – Well defined Advances Against Aspergillosis Istanbul, 2012 Rodríguez-Tudela J L. AAC. 2007. 51:3599-3604 Fluconazole • Exposure–toxicity relationship – High LFTs, nausea, vomiting, seizures at high dosages • TDM target – – – – Wide therapeutic index Treatment of isolates with reduced susceptibility Poor absorption Paediatric patients Advances Against Aspergillosis Istanbul, 2012 Itraconazole • Indication – – – – Prophylaxis of IFI Treatment of IPA Treatment of CPA Treatment of ABPA Advances Against Aspergillosis Istanbul, 2012 Itraconazole • Pharmacology/pharmacokinetics – – – – – – – – – Highly lipophilic and protein bound capsule solubility in acidic environment Different manufactures' capsules behave differently absorption with PPI and H2-antagonists Suspension (cyclodextrin) 20-50% higher bioavailability Non-linear (probably) Extensive variability Active metabolite (OH-itraconazole) (bioassay/HPLC) CYP3A4 Advances Against Aspergillosis Istanbul, 2012 Itraconazole • Exposure–response relationship – Peak itraconazole levels and successful outcome of mucosal candidiasis in patients with AIDS – In vivo data • Exposure–toxicity relationship – Gastrointestinal intolerance, hypokalaemia, fatigue, ankle oedema, cardiac failure and deranged LFTs – Nausea more common with suspension (cyclodextrin) Advances Against Aspergillosis Istanbul, 2012 Itraconazole • TDM target – 200mg b.i.d. – Trough concentration – Lower level • Prophylaxis in neutropenia & treatment of oesophageal candidasis in HIV • 0.5mg/L HPLC or 5mg/L bioassay – Upper level • 17mg/L (bioassay)due to high probability of toxicity Advances Against Aspergillosis Istanbul, 2012 Itraconazole • Tips to improve low levels – 1. 2. 3. 4. 5. 6. Usually poor absorption Capsule with food or acid drink? Stop PPI or H2-antagonist (if possible) Compliance Consistently prescribe the same preparation Check for drug interactions Increase to capsule 300mg twice daily or change to suspension 200mg twice daily 7. Check serum levels again! Advances Against Aspergillosis Istanbul, 2012 Itraconazole • Tips to reduce high levels +/- toxicity – 1. 2. 3. Usually saturated clearance Stop drug for 1-2 weeks Re-start at a lower dose Check serum levels again! Advances Against Aspergillosis Istanbul, 2012 Voriconazole • Indication – Disseminated candidasis – IPA and CPA • Pharmacology/pharmacokinetics – – – – – – Excellent bioavailabilty (96%) IV preparation – cyclodextrin (potentially nephrotoxic) Marked PK variability (100-fold) Sex, age and CYP2C19 genotype only partially explain Weight important in paediatric patients CYP2C19, 3A4 and 2C9 substrate Advances Against Aspergillosis Istanbul, 2012 Herbrecht R. NEJM. 2002. 347:408-15 Voriconazole • Exposure–response relationship – In-vivo, in-vitro and clinical data • Exposure–toxicity relationship – Gradual increase in probability with increasing concentration – Abnormal LFTs, visual disturbance, photosensitivity, confusion etc Advances Against Aspergillosis Istanbul, 2012 Pascual et al. CID. 2008:46;201-11 Voriconazole • TDM target – 200mg b.i.d. (i.v. loading dose) – Trough concentration – Lower level • Trough 1mg/L associated with 70% probability of success – Upper level • Less well established • >6mg/L associated with high probability of CNS toxicity and hepatitis Advances Against Aspergillosis Istanbul, 2012 Voriconazole • Tips on use – Loading dose – Switch IV to oral • Tips to improve low levels – Dosage escalation carefully by 50mg daily – Check levels every 1-2/52 • Tips to reduce high levels +/- toxicity – Stop for 1 week or by TDM then reduce dosage – Stop omeprazole – Check levels Advances Against Aspergillosis Istanbul, 2012 Posaconazole • Indication – Salvage therapy IPA – Prophylaxis neutropenia and HSCT • Pharmacology/pharmacokinetics – – – – – – Only oral suspension Linear PK to 800mg/day Absorption saturated above 800mg/day Better absorption with fatty food and low stomach pH Long t½ with comparable average and trough levels Variability Advances Against Aspergillosis Istanbul, 2012 Felton TW. CID. 2010;51:1383-1391 Posaconazole • Exposure–response relationship – In-vivo (mouse IC and rabbit IPA) – Increased clinical response with increasing average and trough concentration • Exposure–toxicity relationship – GI intolerance, abnormal LFT – No dose dependent Advances Against Aspergillosis Istanbul, 2012 Walsh T. CID. 2007. 44. 2-12 Posaconazole • TDM target – 400mg b.i.d – Trough concentration (but long t½ life) – Lower level • >0.7mg/L • Higher might be better if formulation/cost allowed! – Upper level • Not known/defined Advances Against Aspergillosis Istanbul, 2012 Posaconazole • Tips to improve low levels – – – – – Fatty foods, milk or fatty food supplements Stop enzyme inducers Stop PPIs Can try fractionating the regimen Dosage escalation unhelpful above 800mg/day Advances Against Aspergillosis Istanbul, 2012 Indications for TDM 1. 2. 3. 4. 5. 6. 7. 8. 9. Variable pharmacokinetics Clinically relevant exposure–response relationships Clinically relevant exposure–toxicity relationships Narrow therapeutic window Unable to rapidly assess response Serious/poor prognostic disease Drug–drug interactions Compliance Dosage adjustment Advances Against Aspergillosis Istanbul, 2012 1.0 0.9 Probability 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0 2 Therapeutic window Emergence of resistance 0.8 3 4 5 Drug exposure Advances Against Aspergillosis Istanbul, 2012 Response Toxicity 6 7 8 Conclusions • TDM required for itraconazole and voriconazole • Probably for posaconazole • TDM should – Improve outcomes – Reduce emergence of resistance – BUT there is an associated cost Advances Against Aspergillosis Istanbul, 2012