Antithrombotic therapy Thrombophilia – clinical criteria • trhombosis in younger age: – venous under age 45 years – arterial under age 35 years • recurrence of thrombosis • atypic localization of thrombosis • positive family history of VT • repeated fetal loss Acquired risk factors of thrombosis • Specific risk factors • Aging • Long-lasting immobilization • History of thromboembolism • Overweight • Varicosity • Heart failure • Stroke • Hip & leg fractures • Infections of colon • Nefrotic syndrome • Oestrogens • Malignancy Risk factors of DVT - thrombofilias • hereditary: – factor V Leiden – protrombin 20210A –  antitrombin III –  protein C –  protein S – dysfibrinogenemia • mixed etiology: – factor VIII 150% –  fibrinogen –  homocystein • acquired: – antiphospholipid syndrome Hereditary thrombotic states Prevalence (%) Rel. Risk of DVT prothrombotic factor DVT Normal population FV Leiden heterozygot 20 5 6.0 FII20210A 6.2 2-3 3.0 PS def. 2.2 0.2 2-10 PC def. 2.1 0.3 5-10 ATIII def. 1.1 0,2 50 dysfibrinogenemia 0.8 ? ? Elevation of FVIII* 20 11 3.0 Hyperfibrinogenemia* 15 8 2.0 Hyperhomocysteinemia*+ 10 5 2.0 * Mixed etiology + dietetic influences Coopera a Krawczacka Factor Va • cofactor of FXa • cofactor of aPC for degradatio of FVIIIa • by aPC is cleaved at site: – Arg 506 – Arg 306 – Arg 679 Faktor V – mutation (chromosome no 1) • Leiden Arg 506G ln • Cambridge Arg 306 Thr • Hong Kong – 1 Arg 485 Lys – 2 Arg 306 Gly • HR2 haplotype His 199 Arg Faktor V Leiden (G1691A » Arg506Gln) In Caucasian population: • All population 5% • DVT without selection 20% • DVT clinical thrombophilia 40% Seligsohn U., N Engl J Med, 2001 Factor V Leiden (heterozygots) DVT risk is increased: 5-6x • homozygotes 50-100x • in pregnancy 5-15x • + OC III. generation 20x (OC only 3-4x) • + HRT 15x (HRT OC only 2-4x) Mutation of prothrombin 20210A (20210 G A) • missence mutation in non-translated part of gene • DVT risk is incerased 3x •  plasma level of FII • 2-3 % in all population • 6 % DVT without selection • 7-18 % DVT and positive family history of DVT Protrombin - G20210A (heterozygotes) DVT risk is increased: 3x • homozygotes: 1/3 without DVT 1/3 spont. DVT 1/3 sec. DVT • Heterozygotes with FVL 50-100x • in pregnancy 10x heterozygotes with FVL 100x • + OC III. generation 3-16x (OC only 3-4x) • + OC + smoker: risk of VT of CNS: 150x Metabolis of homocysteine •METHIONIN • HOMOCYSTEIN •Cystathion •cystein •THF •Methionin •syntáza •Cystathionin b-syntetáza • MTHF •Vit.B12 •Folát •Vit.B6 •Metylen •tetrahydrofolát •reduktáza •serin •betain •dimetylglycin •Betain-homocystein •metyltransferáza •homocystin Mild hyperhomocysteinemia • 15-30 mol/l - 5% of all population -10-20 % of DVT - 2 x  risk of DVT, AT - folate deficiency is in 5 -15 % of population • polymorfism C677T in gene for MTHFR - TT: 10-15% - T/C: 40-45% - C/C: 50-55% - TT: 1/4-1/3 has mild hyperhomocysteinemia • Treatment: – Folate: 0.5 mg – B12: 0.4 mg – B6: 3-10 mg Antithrombotic therapy • prevention of thrombus formation • prevention of thrombus progression • thrombus dissolution • prevention of rethrombosis • prevention of secondary changes Actual requirements for antithrombotics: • simple administration (oral, no laboratory monitoring, no diet restrictions, no concomittant therapy restrictions) • safe therapy (without bleeding, without adverse events) • inexpensive Antithrombotic therapy • anticoagulant (anti-IIa): – indirect thrombin inhibitors (antithrombin-mediated): heparin, LMWH – coumarins – reduce levels of vitamin-K dependent factors: warfarin – direct thrombin inhibitors: hirudin, dabigatran • antithrombotic (anti-Xa): – indirect factor Xa inhibiotris: LMWH, pentasacharides – direct factor Xa inhibotors: xabans (rivaro-, api-, edoxaban) • antiaggregation (antiplatelet): – ASA – clopidogrel, prasugrel, ticagrelor, cangrelor, etc. – GP IIb/IIIa inhibitors • thrombolytic: rt-PA • substitution: AT, PC Coagulation cascade and antithrombotic therapy XII XIIa TF TFPI VII XI XIa VIIa IX IXa Pl X X Va XIII II IIa XIIIa Fbg Fs Fi Plg PL t-PA FDP (DD) Pl VIIIa Xa Pl Va IIa ATH K APC •ATIII •+ Xa + IIa •1:1 ratio •Heparin •1930s •ATIII •+Xa •Indirect FXa inhibitors •2002 •IIa •Direct oral thrombin inhibitors •2004 •ATIII •+ Xa + IIa Xa > IIa •LMWH •1980s •II, VII, IX, X (PC,PS) •Vitamin K antagonists •1940s •Xa •Direct oral FXa inhibitors •2008 Antithrombotics development •IIa •Thrombin inhibitors •1990s Indication for anticoagulant therapy - heparins, coumarins • venous thrombosis and embolism • atrial fibrillation • heart valve replacement • artificial surfaces – HD, extracorporeal circulation • antiphospholipid syndrome • DIC Risk of VTE in surgery • Cathegory Pelvic Proximal Fatal PE • High 40-80% 10-30% 1-5% (large orthopedic surgery, urologic surgery (age >40), history of VTE, extensive pelvic & abdominal surgery for malignancy) • Intermediate 10-40% 2-10% 0,1-0,8% (common surgery & age >40 & duration > 30 minutes, surgery & contraceptives, urgent sectio Cesarea) • Low < 10% <1% <0,01% (small surgery, young patient, no risk factors) The classification of risk profile • Low risk • Non-complicated surgery lasting <30 min in a patient aged < 40 years • Intermediate risk • Surgery in a patinet aged 40-60 years without any risk factor • Larger surgery in a patient aged > 40 years without any risk factor • Small surgery in patients with risk factor/s • High risk • Larger surgery in a patient aged >60 years without risk factors • Larger surgery in patient aged 40-60 years with risk factor/s • The highest risk • Large surgery in a patient aged >40 years with history of VTE and/or recent malignancy • Hypercoagulable states, polytrauma, heroic surgery Indication of antithrombotic prevention according to the risk • Low risk – bandage (other according to the circumstancies) • Intermediate risk – (common & chest surgery, gynecological surgery) – LMWH, LD UH • High risk • Elective total hip replacement LMWH, anti-IIa, anti-Xa • Elective knee replacement LMWH, amti-Iia, anti-Xa • Hip fracture LMWH • Polytrauma LMWH • Acute posttraumatic paralysis LMWH Occurence of postoperative VTE depending on time interval after high risk surgery 9 16 13 9 4 0 0 2 4 6 8 10 12 14 16 0 - 7. 8. - 14. 15. - 21. 22. - 28. 29. - 35. 36. - 42. dny GLYCOSAMINOGLYCAN HEPARIN O COOO OH OH O O CH2OSO3H- OH NHCOCH3 GLUCURONIC ACID IDURONIC ACID N-ACETYL-D-GLUCOSAMINE- 6-O-SULPHATE Heparin function • Antithrombin-mediated: – reversible binding to AT – potentiates binding of AT to FIIa a FXa (inactivation): • heparin binding to FXa is not necessary • heparin binding to FIIa is necessary • Releases TFPI into circulation (tissue factor pathway inhibitor) • Stimulates t-PA release • Binds also to cellular surfaces: – Platelets : DF 4 – Endothelium – Leukocytes Mechanisms of effect of UH a LMWH LMWH FX FII AT FX FII UFH AT < 18 saccharide units > 18 saccharide units Dosing and monitoring of heparin treatment VTE treatment: • bolus 80 U/kg • 18 U/kg/hour continual IV infusion • aPTT: – prolonged aPTT 1.5-2.5 R (2-3x) – anti-IIa: 0.2-0.4 U/ml – anti-Xa: 0.35-0.7 U/ml •  TT, normal reptilase time VTE prophylaxis: • 5000 U 2-3 times/day SC Heparin treatment monitoring ACT (Activated Clotting Time) • Activation of coagulation by contact surfaces, e.g. kaolin • Whole blood: „bed side“ test • Thoracic surgery in extracorporeal circulation • Normal range: 120 - 180 s • Therapeutic range: 300 - 600 s Low Molecular Weight Heparins Generic name Trade name anti-Xa / anti-IIa Nadroparin Fraxiparine 3.0 Dalteparin Fragmin 2.0 Enoxaparin Clexane 3.3 Bemiparin Zibor 8.0 Parnaparin 4.0 Tinzaparin 1.8 Certoparin 4.2 Monitoring and dosing of LMWH treatment VTE therapy: • 100 U anti-Xa/kg twice daily SC – except for Zibor (115 U anti-Xa/kg once daily SC) • routine monitoring not required • anti-Xa (blood collected 3-4 hours after SC application): – 0.5 – 1.0 U/ml – anti-Xa monitoring: • renal insufficiency • body weight > 100 kg or < 50 kg • pregnancy • high risk of bleeding • only borderline prolonged aPTT at therapeutic dosing Monitoring and dosing of LMWH prophylaxis VTE prophylaxis: • 2000 – 5000 U anti-Xa SC once daily • routine monitoring not required • anti-Xa (blood draw 3-4 hours after SC application): 0.2 – 0.4 U/ml • specific dosing for each LMWH →DOSING ACCORDING TO SmPC! LMWH as a „bridging“ therapy Indirect FXa inhibitors ● Pentasacharides (fondaparinux) – prefered over UFH ● Dosing 7,5 mg once daily SC (5 mg in patients < 50 kg and 10 mg > 100 kg) ● Contraindications: ● CKD with CrCl < 30 ml/min. ● bacterial endocarditis GlaxoSmithKline: Prescribing information, Arixtra (fondaparinux sodium) injection. Available at http://us.gsk.com/products/assets/us_arixtra.pdf (accessed October 26, 2012 Coumarins – warfarin ● Coumarins therapy usually follows after initial treatment with heparins – overlap required for at least 5 following days ● Dosing individual – 1.5–12.5 mg/day ● Specific laboratory monitoring: INR 2.0–3.0 ● Significant drug and diet interactions ● Monitoring every 4 – 6 weeks Schulman S, Parpia S, Stewart C, Rudd-Scott L, Julian JA, Levine M. Warfarin dose assessment every 4 weeks versus every 12 weeks in patients with stable international normalized ratios: a randomized trial, Ann Intern Med 2011;155:653-9, W201-3 Schwarz UI, Ritchie MD, Bradford Y, et al: Genetic determinants of response to warfarin during initial anticoagulation. N Engl J Med 2008;358(10):999-1008 Vitamin K dependent coagulation factors • FII, FVII, FIX, FX • glutamic acid carboxylation - necessary for phospholipids binding through Ca bridges • coagulation factors are produced but they are not coagulation active - PIVKA forms (Protein Induced by Vitamin K Absence / Antagonist) Coumarins generics half-life ethylbiscumacetate (Pelentan) 2 hours warfarin (Warfarin) 72 hours phenprocoumon (Marcoumar) 160 hours Coumarin therapy monitoring Prothrombin time (PT): • therapeutic range: 2.0 – 3.0 INR (international normalized ratio) • „normal range“ : 0.8 – 1.2 INR t pac. ISI (international sensitivity index) ------- t norm. Bleeding on warfarin Trial N INR risk % Hull (82) 96 3.0-4.05 22.4 2.0-2.5 4.3 Turpie (88) 210 2.5-4.0 13.9 2.0-2.5 5.9 Saour (90) 247 7.4-10.8 42.4 1.9-3.6 21.3 Altmann (91) 99 3.0-4.5 24.0 2.0-2.9 6.0 Halftime of factors influenced by coumarines (hours) • FII 60 - 96 • FVII 4 - 6 • FIX 18 - 30 • FX 30 - 48 • PC 5 - 6 • PS 60 0 50 100 150 200 PS PC FX FX FVII FII Warfarin dosing • Warfarin 5 mg daily (7,5 mg on Day 1) • PT monitoring from Day 3 • overlap with LMWH for min. 4-5 days, not only until PT 2- 3 INR: – from Day 2 decreasing FVII, PC – from Day 3 decreasing FII, FIX, FX, PS – risk: rethrombosis, coumarin necrosis • multiple drug interactions!!! • influence of vit. K from diet (grean leaves, herbal tea…) • diferences in metabolism: – doses from 1.5 mg daily up to over 15 mg daily • 100 Sunnybrook Anticoagulation Clinic Patients DVT treatment duration depends on risk of recurrence, which is higher in the following circumstances: • Male • Elderly • Higher BMI • Neurological impairment (limb paresis) • Malignancy • Antiphospholipide syndrome • IndiopaticVTE • Positive family history • Trombophilia (inhibitors defficiency, trombophilic gene mutations) • Persistent D-dimer elevation • Permanent inferior vena cava filter DVT provoked by a transient risk – 3 months, otherwise „long-term“ treatment Duration of coumarin therapy • Distal or provoked thrombosis – 3 months • Proximal thrombosis – 6 months • Complicated thrombosis (PE) – 6–12 months • Hypercoagulable state: – severe (ATIII, homozyg. FVL, double heterozyg. FVL a PT) • long lasting (life long) – FVL, PT20210A polymorphism • after the first episode of VTE standard duration of therapy • Critical situation management – transient targeted Higher sensitivity to warfarin Propeptid FIX mutation Ala (GCC) -10Thr(ACC) - Chu et al., 1996 Ala (GCC) -10Val (GTC) - Oldeburg et al., 1997 Cytochrome P450 polymorphism cytochrom P450(2C9), P450(3A4) cytochrom P450(1A2), P450(3A4) VKORC1 mutation Interactions of coumarines with drugs & food • Potentiation of warfarin effect (NSA) • Lowering of warfarin effect (barbiturates, broccoli) • Influence on absorption (antacides) • Influence on vit K production (antibiotics) • Potentiation of bleeding risk (ASA) • (Extreme) wide range of daily dose: – 5 – 7.5 mg usually – 1.5 mg / low – 15 mg / high metabolizer Quantity of vit K in selected foodstuffs (ug/100g) • Broccoli 270 • Celery 300 • Cabbage 817 • Dill 400 • Cauliflower 300 • Chives 380 • Parsley 700 • Spinach 500 • Kale 1540 • Olive oil 400 • Soya oil 542 • Sunflower oil 10 • Green tea 712 • Chicken meat 300 Complications of warfarin therapy • Bleeding ( overdose, mutation of propeptide of FIX, polymorphisms of cytochrome P450) Bleeding up to 7%, fatal 0.5% • Coumarine skin necrosis • Failure of therapy (resistance, neoplasma) • Teratogenic effect ( mainly from 6th to 12th week of pregnancy) • heparin induced • coumarine induced *Bichler A.J. et al: Hypersensitivity reactions to anticoagulant drugs: diagnosis and managment option. Allergy 2006: 61: 1432-1440 Skin necrosis Which values of INR are acceptable? • Clinical situation target INR • Minor bleeding & high risk of VTE 2-2.1 • Major bleeding & intermediate risk of VTE 1.5 • Life threating bleeding & low risk of VTE 1.0 Schulman S, NEJM 2003 Possibilities of INR correction • Lowering or ommiting of warfarin dose • Application of prothrombin complex factors (FFP, PCC, APCC) • Administration of K vitamine Recommended management of coumarin overdose • INR 3.0 - 5.0 dose reduction/delay until INR < 3.0 • INR 5.0 - 9.0 dose delay until INR < 3.0 – High risk of bleeding: oral vitamin K 1-5 mg (drops) • INR > 9.0 dose delay and oral vitamin K 2-5 mg – High risk of bleeding: oral or IV vitamin K 5-10 mg • major bleeding or emergency surgery: – prothrombin complex concentrate (PCC) 25-50 U/kg • full effect lasts only 6 hours (halftime of FVII) – IV vitamin K 5-10 mg (allways to be applicated together with substitution – PCC) Heparin induced thrombocytopenia - HIT Etiology: • complex heparin-PF4 + antibody stimulates platelet Fc receptor – Induce platelets aggregation – Venous and arterial thrombosis in  50% patients with HIT • day 4 - 10 after onset of heparin treatment • decline of platelet count more than 50% Scoring system of HIT diagnosis:4 T´s *Lo et al: JTH 2006; 4: 759-765 2 points 1 point 0 points Thr-penia; plt count > 50% nadir >20 x109/l 30-50% nadir 10-19 x109/l < 30% nadir < 10 x109/l Timing 5-10D; ≤1D (H 30D before) 5-10D ? plt; >14D; ≤1D (H 30 - 100D) 4D Thrombosis New, skin necrosis progression, recurrence, non-necrotic skin lesion none Thr-penia; other reason none possible yes • > 3 points  laboratory examination, discontinuation of UFH or LMWH • 4-5 point - moderate, 6-8 points – high suspicion of HIT HIT: diagnosis • Clinical + laboratory: – Decline of plt count (thrombosis, skin necrosis) – HIPA: • Aggregation of healthy platelets + patient‘ s PPP + heparin • Low (50%) sensitivity, almost 100% specificity – ELISA: • complex heparin - PF4 antibodies • High sensitivity, low specificity – Release of 14*C-serotonine • the highest sensitivity and specificity HIT: treatment – Cross-reactivity between UFH and LMWH: – argatroban – IIa inhibitor (1C) – bivalirudin – IIa inhibitor (2C) – danaparoid – heparinoid with predominant FXa inhibition (1B) – Fondaparinux (Arixtra®) - oligosacharid with FXa inhibition (2C) – Warfarin after normalization of plt count 150 – If no thrombosis – prophylactic dosage for 30 days HIT – platelets‘ count according to the risk •  0,1%: –  4 days – internal and gyneacological indication: • LMWH for  4 days • 0,1 – 1%: – Internal a gyneacological: - after surgery: • UFH  4 days * LMWH  4 days •  1%: – After surgery: • UFH  4 days Thrombolytic therapy • streptokinase (Streptase, Kabikinase, Awelyzin) • urokinase (Ukidan), prourokináza (scu-PA) plasminogen Streptokinase + plazminogen urokinase plasmin – monitoring: TT 30-90 s • r-tPA (Actilyse) – binds to fibrin and activates plasminogen – rtPA 100 mg via 2-hour i.v. infusion – no monitoring (fibrinogen) Substitution therapy with coagulation inhibitors (direct measurment of functional activity) Antithrombin (Antithrombin III) 1 unit increases AT level by 1 - 1.5 % – hereditary defficiency: • perioperative prophylaxis, in pregnancy LMWH/UFH prophylaxis • VTE treatment together with LMWH/UFH – acquired defficiency with AT levels < 50 % • sepsis • VTE Protein C (Ceprotin, Xigris) – inherited homozygous defficiency with purpura fulminans – or severe acquired defficiency – meningococcal sepsis Direct thrombin inhibitors (not AT III-mediated) • hirudin • recombinant - lepirudin (Refludan) • synthetic - argatroban – (Novastan) - dabigatran – oral (Pradaxa) monitoring: – Hemoclot – aPTT – Ecarin clotting time (ECT): ecarin cleaves FII to FIIa indepently from Ca and phospholipids Factor Xa inhibitors • indirect – antithrombin-mediated – synthetic pentasacharides – fondaparinux (Arixtra) – idraparinux – prolonged action (once per week SC) • direct (xabans) – NOT antithrombin-mediated – rivaroxaban (Xarelto) – apixaban (Eliquis) – edoxaban (Lixiana, Savaysa) • monitoring: anti-Xa 60 UFHAT Targets for antithrombotic drugs direct indirect Xa IIa TF/VIIa X IX IXa VIIIa Va II FibrinFibrinogen Rivaroxaban Apixaban Edoxaban Betrixaban Otamaxaban Darexaban YM466 LMWHAT Fondaparinux, Idraparinux AT Weitze et al, 2005; Weitz et al, 2008 Dabigatran AZD 0837 Hirudin, des- lepirudin bivaluridin Argobatran VKA Direct inhibitors of factor IIa and Xa PT (INR) aPTT fibrinogen TT monitoring dabigatran PRADAXA® could be influenced Anti-IIa (g/l) rivaroxaban XALERTO® apixaban ELIQUIS® not influenced not influenced Anti-Xa (g/l) * plasma half-life: * renal elimination: * daily dose - dabigatran 12-17 h - 80% - 220 – 300 mg - rivaroxaban 5-11 h - 1/3 - 10 - 30 mg - apixaban 8-15 h - ¼ - 5 - 10 mg Pradaxa (dabigatran etexilate) Xarelto (rivaroxaban) Eliquis (apixaban) Mechanism of action Thrombin inhibitor FXa inhibitor Inhibitor Xa Doses 2x150 mg (red. 110) prev. 10, th 20 mg 2 x 2,5/5 mg Bioavailability 6,5% 80-100% aprox. 50% Prodrug Yes No No t1/2 12–14 hours 9–13 hours aprox. 12 hours Tmax 0,5–2 hours 2–4 hours 3–4 hours Possible interactions Strong P-gp inhibitors Strong CYP3A4/Pgp inhibitors Strong CYP3A4/Pgp inhibitors Plasmatic proteins binding 34-35% 92–95% 87% Elimination 80% renal 33% renal 27% renal Novel Oral Anticoagulants (NOAC) Bauer KA. J Thromb Haemost 2011; 9 Suppl 1:12-9; SPC Pradaxa 02/2012; SPC Xarelto ; SPC Apixaban Monitoring of NOAC: usually not necessary • Pradaxa: roughly aPTT, TT, plasma level - test „Pradaxa anti-IIa“: 2x150 mg daily 220 mg 1x daily – Peak: 175 (117-275) g/l 71 (35-162) g/l (percentil 25-75) – Nadir: 91 (61-143) g/l 22 (13-36) g/l (percentil 25-75) • Xarelto: really roughly PT, plasma level of anti-Xa: 20 mg 1x daily 10 mg 1x daily – Peak: 215 (22-535) g/l 125 (91-195) g/l – Nadir: 32 (6-239) g/l 9 (1-38) g/l • Eliquis: really roughly PT, plasma level of anti-Xa: 2x5 mg daily 2x2.5 mg daily – Peak: 128 g/l (CV 10%) 62 g/l (CV 37%) – Nadir 50 g/l (CV 20%) 21 g/l (CV 17%) Bleeding in patients treated by direct IIa / Xa inhibitors • to stop therapy – t1/2 : 5-17 h • specific antidotes – now only for dabigatran, single dose of Prax-bind – Anti-direct Xa inhibitor: only in studies • drug elimination: – activated carbon – haemodialysis (not rivaroxaban – binding on plasma proteins) – haemoperfusion – plasmapheresis (fondaparinux, dabigatran) • nespecific hemostyptic therapy: – aPCC (activated prothrombin complex concentrate) • Content: FII, FVIIa, FIX, FX – rFVIIa – antifibrinolytics Antidotes for anticoagulant therapy • Heparin, LMWH: – Protamine (1 mg / 100 U UFH) • Binds to heparins • Not sufficient neutralization after SC aplication of LMWH • Warfarin: – vitamin K (2-5 mg) – prothrombin complex concentrates (PCC) • FII, VII, IX, X – FFP • Factor IIa and Xa inhibitors: – specific antidotes ongoing clinical trials, only Prax-binde for use – PCC, rFVIIa – dialysis (only dabigatran) Surgical interventions ● Embolectomy – massive PE, possibly documented by angiography ● 20% operative mortality (before1985 32 %) Stein PD, Alnas M, Beemath A, Patel NR: Outcome of pulmonary embolectomy. Am J Cardiol 2007;99(3) ● vena cava filters indicated when contraindication to anticoagulant therapy, complications of anticoagulant therapy, recurrent VTE despite adjusted anticoagulant therapy and prior to pulmonary embolectomy ACCP guidelines • 9th edition (2012) Platelet activation pathways cell membrane phospholipids inflammation arachidonic acid PGH2 Synt 1 Cyclooxygenase Aspirin NSAID PGG2/H2 Prostacyklin TxA2 Thrombin ADP platelet activation GpIIb/IIIa exposition IIb/IIIa inhibitors platelet aggregation PGH2 Synt 2 PGG2/H2 illoprost beraprost ticlopidin, clopidogrel Acetylsalicylic acid • Irreversible serin acetylation 529 AA in COX-1 • → decreased production of: • platelet activator thromboxane (TX)A2 • its metabolite thromboxane TXB2 in serum • 11-dehydro-thromboxane B2 in urine • aprox. 30% is of non-platelet origin • 150-fold less afinity to COX-2: • serin 516 acetylation • 10% of circulating platelets contain COX-2 • possible origin of TXA2 COX-1 inhibition ~ acetylsalicylic acid (ASA): ~ Anopyrin, Godasal, Acylpyrin, Aspirin ~ 100 (200) mg daily ~ effective during the whole life span of platelets ~ must be stopped 5-10 days before surgery ~ other non-steroidal anti-inflammatory drugs (NSAIDs): • indobufen (Ibustrin) - 200 mg twice daily - reversible effect 12-24 hours - no evidence for clinical benefit Thienopyridines • Irreversible block of ADP receptors P2Y12: – disulphide bonds formation between the drug and receptor cysteine – acts in megacaryopoiesis phase – must be stopped 5-10 days before surgery • Prodrug: – the active form is produced by liver cytochrome P450 • Affected also by other drugs • CYP2C19*1, slower metabolism with alleles *2, *3 • CYP3A4 • CYP1A2 • CYP3A5: • Inhibition: – CYP2B6 • Higher variability in effect on platelets than ASA Thienopyridines ~ Ticlopidin (ApoTic) - agranulocytosis ~ 250 mg twice daily ~ Clopidogrel (Plavix, Trombex): oral ~ 75 mg daily ~ Prasugrel (Efient) : oral Direct drugs, not prodrugs, effect less variable: ~ Ticagrelor (Brilique): oral ~ Cangrelor: i.v. ~ Elinogrel: oral or i.v. PAR antagonists – voraxapar, atopaxar Antiaggregation therapy monitoring- ASA Clinical: – relapse of MI, stroke, chronic limb ischemia Laboratory – definition (?) of efficacy-resistence: • ADP-induced platelet aggregation 10 mol/l in PRP: – max. aggregation < 70% • ARA-induced platelet aggregation 0,5 mg/ml in PRP: – max. aggregation < 20% • Cathionic propyl gallate aggregation in PRP: – decreased slope of aggregation curve < aprox. 50%/min. – time to 50% of maximum aggregation > aprox. 100 sec. • PFA-100: – prolonged closure time with Col/Epi above upper limit of normal –  metabolite: thromboxane-b2 in serum (11-dehydro in urine) Antiaggregation therapy monitoring- clopidogrel ADP-induced platelet aggregation 5 or 20 mol/l in PRP: – decrease by 10-30% of absolute value compared to the value before treatment VASP-P: – phosphorylation of vasodilator (PGE1) stimulated phosphoprotein – stimulation of P2Y12 receptor blocks VASP phosphorylation – evaluation of VASP phosphorylation after addition of ADP, following previous PGE1 stimulation – if P2Y12 is blocked by clopidogrel, addition of ADP will not reduce VASP phosphorylation – effective therapy – phosphorylation after addtion of ADP will not be reduced  50% Antiaggregation therapy monitoring - whole blood aggregation Multiplate® • impedance aggregometry • whole blood • induction of aggregation – ARA (ASPI test) - monitoring: ASA – ADP clopidogrel – ADP+PGE1 clopidogrel – thrombin (TRAP test) IIb/IIIa inh. Gp IIb/IIIA inhibitors monitoring ~ monoclonal antibodies, peptides and small molecules • Platelet aggregation in whole blood – impedance method Multiplate®: • TRAP test:< 30 U • VerifyNow Assay®: – Platelet Aggregation Units (PAU) – abciximab (ReoPro®) eptifibitide (Integrilin®) • 0-44 PAU - > 80% inhibice 0-31 PAU - > 80% inhibice • 0-13 PAU - > 95% inhibice 0-10 PAU - > 95% inhibice Summary • At the present time standard monitoring and dose adjustment of antiaggregation therapy is not recommended. • Recommended only in clinical trials.