{"id":5207,"date":"2011-08-21T13:40:44","date_gmt":"2011-08-21T13:40:44","guid":{"rendered":"http:\/\/crashtext.org\/misc\/reversal-of-anticoagulation-or-antiplatelet.htm\/"},"modified":"2015-11-12T00:30:40","modified_gmt":"2015-11-12T05:30:40","slug":"reversal-of-anticoagulation-antiplatelet","status":"publish","type":"post","link":"https:\/\/crashingpatient.com\/medical-surgical\/neurology\/reversal-of-anticoagulation-antiplatelet.htm\/","title":{"rendered":"Reversal of Anticoagulation and Antiplatelet Medications"},"content":{"rendered":"

Best Review of Reversal of coumadin<\/a> another pretty good review<\/a> University of North Carolina Chapel Hill Protocols<\/a> Pts did better with PCC reversal in terms of outcome and hematoma enlargement (Cerebrovasc Dis. 2011;31(2):170-6. Epub 2010 Dec 3.) Patients on Plavix and ASA do worse than patients on ASA alone (World Neurosurg. 2011 Jul-Aug;76(1-2):100-4; discussion 59-60.) Semin Neurol. 2010 Nov;30(5):565-72.<\/p>\n

<\/span>Anticoagulated Patients<\/span><\/h2>\n

All patients on warfarin should have an INR performed, and a CT scan should be done in most anticoagulated patients. All supratherapeutically anticoagulated patients, as well as any anticoagulated patient with a traumatic CT abnormality, should be admitted for neurologic observation and consideration given to short term reversal of anticoagulation. Routine repeat CT scanning at 12 to 18 hours or when even subtle signs of neurologic worsening occur is a strong recommendation. A multi-institutional, prospective trial using these guidelines would be a first step toward demonstrating improved outcomes in the anticoagulated patient population after head trauma. Semi-SR (J Trauma 2006;60(3):553) \u00a0 \"\"<\/a> Vitamin K 24 hours FFP 6 hours VIIa 3-4 minutes \u00a0 Coumadin bleeds into head and surg site heparin generally does not cause much bleeding, though it can protamine \u00a0 protamines do not work on fondaparinex \u00a0 asa is irreversible, but out of serum in 45 minutes, so give platelets dDAVP will reverse ASA effect \u00a0 Plavix causes moderate to severe bleeding irreversibly alters platelets but stays in serum for 8 hours, so can not give more PLT dDAVP does not work \u00a0 Emergency Reversal of Anticoagulation after ICH (Stroke 1992;23:972)retrospec 17 pts ~5 hrs with PCC; ~7.3 hrs with FFP 10 cc of PCC equiv to 600 FFP pts received on average 0.43 cc (25.8 IU) \/kg of PCC or 8 cc\/kg of FFP Timing of FFP and rapid correction of coagulopathy in ICH (Stroke 2006;37:151) Odds of reversal of INR in 24 hours was directly related to how quickly the FFP was administered. Each delay of 30 minutes to first dose lead to 20% decrease in odds of successful reversal Hematoma growth and outcome in pts with ICH on anticoags (stroke 2006;37:1465) PCC worked better than FFP or Vit K 3 groups 1 PCCS +-ffp and vak 2 FFP +- vak 3 VAK alone retrospective PCC was better but only compared to pts who were not reversed in 2 hrs by other means Ultra-early hemostatic therapy for primary intracerebral hemorrhage (Can J Neurol Sci 2005;Suppl. 2-S31-S37) review article of factor VII Phase II trial of VIIa in non-coagulopathic patients (NEJM 2005;352:777) Mayer Trial 7% vs 2% thromboembolic complications ? if this was combined endpoint would it still be as bad VIIa to reverse coagulopathy in pts going to surgery (Neurosurg 2003;53:34) Best Review article of oral anticoag assoc ICH (Stroke 2006;37:256) Hematoma expansion occurs in ~40% of pts in early hours following onset Vitamin K<\/strong> It takes at least 2 to 6 hours, and often more than 24 hours,to achieve an effective response to vitamin K administration, although vitamin K alone is often inadequate to completely normalizethe international normalized ratio in that time frame. Concomitantadministration of coagulation factors is therefore required.Nevertheless, because of the short HLT of transfused coagulationfactors (factor II: 48 to 60 hours; factor VII: 5 to 6 hours;factor IX: 20 to 24 hours; factor X: 24 to 48 hours), the administrationof 5 to 20 mg of vitamin K is necessary to achieve a sustainedreversal of anticoagulation.42\u009646<\/a> The effect of vitaminK is more rapid when given intravenously. Although there havebeen concerns regarding allergic and anaphylactic reactionsto intravenous vitamin K, the risk of this complication appearsto be quite low,47<\/a> with an incidence in one study of 3 per 10000 doses (95% CI: 0.04 to 11 per 10 000 doses).48<\/a> Subcutaneousadministration may be safer but does not correct the INR asrapidly or as reliably as intravenous use.49<\/a> Fresh Frozen Plasma<\/strong> FFP contains all coagulation factors in a nonconcentrated form; hence, to achieve effective hemostasis a large volume (up to several liters) is required.9,50,51<\/a> In principle, 1 mL of FFP\/kgbody weight increases the levels of coagulation factors by 1to 2 International Units (IU)\/dL.52<\/a> The traditional dose of10 to 15 mL of plasma\/kg body weight may have to be exceededin massive bleeding.53<\/a> However, the standard of an FFP unitis based on its factor VIII content; the actual levels of vitaminK-dependent coagulation factors are not specified and vary considerably.50,54<\/a>Our routine experience, and that of others, suggests that FFPvolumes required to reduce the INR below 1.4 may vary considerably:for example, between 800 and 3500 mL.39,55<\/a> FFP requires compatibility testing and thawing before transfusion.Furthermore, the large volume required and a rapid transfusionrate can lead to circulatory overload. In cases of life-threateningbleeding such as ICH, or in patients with impaired cardiac function,FFP is therefore a less than ideal treatment option. In addition,FFP transfusion is associated with several potential adversereactions, including transfusion-related acute lung injury, blood-borne infection, citrate toxicity, and allergic reactions.56,57<\/a> PCC<\/strong> PCC contain coagulation factors VII, IX, X, and prothrombinas well as proteins C, S, and Z in a concentrated form, and,unlike FFP, can be given without waiting for compatibility testingand thawing. The potency of PCC is expressed as factor IX contentin IU, varying between preparations,58<\/a> and a dose consists of50 to 150 mL of reconstituted product. Based on data obtainedfrom patients with hemophilia B, a dose of 1 IU of factor IX\/kgbody weight increases the level of plasma factor IX by 1 IU\/dL.59<\/a> Studies of small numbers of patients suggest that PCC corrects a prolonged INR more rapidly than FFP.38,50,60<\/a> However, a retrospectivestudy comparing vitamin K, FFP, PCC, and no treatment in 151patients with OAT-ICH, found no difference in 90-day mortality.61<\/a>The main concerns with PCC-use focus on the potential to inducethrombosis and disseminated intravascular coagulation.62\u009666<\/a> \"\"<\/a><\/p>\n

10 mg of Vit K\/50 U\/kg of PCC or 15 cc\/kg of FFP<\/h4>\n

Time Window for Treatment<\/strong> In SICH, evidence suggests that significant hematoma expansion tends to occur during the first 4 hours after onset, and thisis likely to be the critical time window for a hemostatic treatment.30,37<\/a>In OAT-ICH, the natural course of hematoma expansion is probablymore prolonged, perhaps up to 24 or 48 hours,1,18,79<\/a> raisingthe possibility that patients presenting as late as 24 hours(or even later) may benefit from effective hemostatic treatment. Dose Regimen<\/strong> Administration of an effective hemostatic agent at an earlystage of SICH appears to accelerate the formation of a fibrinclot, which stops the bleeding.37<\/a> In this case, it seems thata single dose is sufficient. However, in OAT-ICH, the underlyingcoagulopathy may require a higher dose or repeated dosing. Monitoring Hemostasis During the Reversal of Anticoagulant Effect<\/strong> PT-INR is routinely used for regulating OAT as well as monitoring the reversal of its anticoagulant effect. The test is sensitive to decreased levels of factor VII and factor X, and prothrombin, but not to decreased levels of factor IX.50,53,80,51,75<\/a> BecauseFFP contains variable amounts of factor IX, the correction ofthe INR with FFP may not be accompanied by a correction of factorIX levels.50<\/a> For example, Makris et al found that administrationof 800 mL FFP decreased the mean INR from 6.73 to 2.38, whereasthe mean factor IX levels were essentially unchanged (from 26.45IU\/dL to 27.36 IU\/dL).50<\/a> Thus, the INR may be normalized butthe patient remains at risk of further bleeding. The use of the INR for monitoring patients treated with rFVIIa is also problematic. Pharmacological doses of rFVIIa will always lower the INR regardless of the levels of other coagulation factors. Hence, when monitoring the reversal of anticoagulant effect, INR values should be interpreted with caution as they might not reflect the actual status of all vitamin K-dependent coagulation factors.53,51<\/a> Thromboelastography may provide a more meaningful measure of coagulation status. This system records a profile of clot formationin whole blood, providing an overall picture of hemostatic function.81,76<\/a>Based on 7 patients with central nervous system bleeding duringOAT who were treated with rFVIIa, S\u00f8rensen<\/p>\n

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and colleagues showed that it may be feasible to use thromboelastography to monitor hemostatic status.71<\/a> Nevertheless, more data are neededto prove the clinical utility of the measure. Does VIIa cause hydrocephalus in ICH pts (Neurology 2006;67:1096) \u00a0 \u00a0 Br J Surg. 1993 Jun;80(6):723-4. Links Use of desmopressin to prevent bleeding complications in patients treated with aspirin. Flordal PA, Sahlin S. Department of Surgery, Karolinska Institute, Danderyd Hospital, Sweden. Aspirin induces a haemorrhagic diathesis that persists for at least 1 week after discontinuation of the drug. The effect of the vasopressin analogue desmopressin was studied in 12 patients treated with aspirin who were undergoing cholecystectomy. Desmopressin was given to six of these patients. There were five postoperative bleeding complications; all occurred in patients who had not received desmopressin (P < 0.05). The bleeding time was prolonged in aspirin-treated patients and normalized by desmopressin (P < 0.05). Desmopressin can be used safely to prevent bleeding induced by aspirin. \u00a0 Anesth Analg. 1997 Dec;85(6):1258-67. Links Drugs to minimize perioperative blood loss in cardiac surgery: meta-analyses using perioperative blood transfusion as the outcome. The International Study of Peri-operative Transfusion (ISPOT) Investigators. Laupacis A, Fergusson D. Clinical Epidemiology Unit, Loeb Research Institute, University of Ottawa, Canada. alaupacis@Lri.ca Concern about the side effects of allogeneic red blood cell transfusion has increased interest in methods of minimizing perioperative transfusion. We performed meta-analyses of randomized trials evaluating the efficacy and safety of aprotinin, desmopressin, tranexamic acid, and epsilon-aminocaproic acid in cardiac surgery. All identified randomized trials in cardiac surgery were included in the meta-analyses. The primary outcome was the proportion of patients who received at least one perioperative allogeneic red cell transfusion. Sixty studies were included in the meta-analyses. The largest number of patients (5808) was available for the meta-analysis of aprotinin, which significantly decreased exposure to allogeneic blood (odds ratio [OR] 0.31, 95% confidence interval [CI] 0.25-0.39; P < 0.0001). The efficacy of aprotinin was not significantly different regardless of the type of surgery (primary or reoperation), aspirin use, or reported transfusion threshold. The use of aprotinin was associated with a significant decrease in the need for reoperation because of bleeding (OR 0.44, 95% CI 0.27-0.73; P = 0.001). Desmopressin was not effective, with an OR of 0.98 (95% CI 0.64-1.50; P = 0.92). Tranexamic acid significantly decreased the proportion of patients transfused (OR 0.50, 95% CI 0.34-0.76; P = 0.0009). Epsilon-aminocaproic acid did not have a statistically significant effect on the proportion of patients transfused (OR 0.20, 95% CI 0.04-1.12; P = 0.07). There were not enough patients to exclude a small but clinically important increase in myocardial infarction or other side effects for any of the medications. We conclude that aprotinin and tranexamic acid, but not desmopressin, decrease the number of patients exposed to perioperative allogeneic transfusions in association with cardiac surgery. Implications: Aprotinin, desmopressin, tranexamic acid, and epsilon-aminocaproic acid are used in cardiac surgery in an attempt to decrease the proportion of patients requiring blood transfusion. This meta-analysis of all published randomized trials provides a good estimate of the efficacy of these medications and is useful in guiding clinical practice. We conclude that aprotinin and tranexamic acid, but not desmopressin, decrease the exposure of patients to allogeneic blood transfusion perioperatively in relationship to cardiac surgery. \u00a0 \u00a0 \u00a0 Anesth Analg. 2004 Mar;98(3):578-84, table of contents. Links Prophylactic treatment with desmopressin does not reduce postoperative bleeding after coronary surgery in patients treated with aspirin before surgery. Pleym H, Stenseth R, Wahba A, Bjella L, Tromsdal A, Karevold A, Dale O. Departments of Anesthesiology, St Olav University Hospital, Trondheim, Norway. hilde.pleym@stolav.no The synthetic vasopressin analog desmopressin has hemostatic properties and may reduce postoperative bleeding after coronary artery bypass grafting (CABG). A study on the effects of recent aspirin ingestion on platelet function in cardiac surgery showed a greater impairment of platelet function in patients treated with aspirin <2 days before the operation. We evaluated the effects of desmopressin on postoperative bleeding in CABG patients who were treated with aspirin 75 or 160 mg until the day before surgery. The study was a prospective, randomized, double-blinded, placebo-controlled, parallel group trial. One-hundred patients were included and divided into two groups. One group received desmopressin 0.3 micro g\/kg and the other received placebo (0.9% NaCl) after the neutralization of heparin with protamine sulfate. Postoperative blood loss was recorded for 16 h. The mean (SD) bleeding was 606 (237) mL in the desmopressin group and 601 (301) mL in the placebo group (P = 0.93), representing no significant difference (95% confidence interval, -107 to 117 mL). We conclude that desmopressin does not reduce postoperative bleeding in CABG patients treated with aspirin until the day before surgery. IMPLICATIONS: Continuation of aspirin until the day before coronary artery bypass grafting may increase postoperative bleeding. The administration of desmopressin to these patients after the neutralization of heparin with protamine sulfate does not reduce postoperative bleeding. Blood. 2003 Dec 15;102(13):4594-9. Epub 2003 Aug 14. Links Desmopressin antagonizes the in vitro platelet dysfunction induced by GPIIb\/IIIa inhibitors and aspirin. Reiter RA, Mayr F, Blazicek H, Galehr E, Jilma-Stohlawetz P, Domanovits H, Jilma B. Department of Clinical Pharmacology, University of Vienna, Wahringer Gurtel 18-20, A-1090 Vienna, Austria. Whereas bleeding is the most frequent adverse event encountered in patients receiving glycoprotein (GP) IIb\/IIIa inhibitors, there are currently no recommendations for how to treat such patients. The present study tested the hypothesis that infusion of desmopressin (DDAVP) reverses the in vitro platelet dysfunction induced by GPIIb\/IIIa inhibitors (+l-aspirin). Study group 1 (10 healthy volunteers) received a DDAVP infusion to establish dose-response curves for the in vitro inhibition of platelet function by eptifibatide, abciximab, and tirofiban together with l-aspirin before and after DDAVP. In a randomized, double-blind, placebo-controlled, crossover study (group 2) volunteers received l-aspirin and a standard eptifibatide infusion. Thereafter, DDAVP or a physiologic saline infusion was given over 30 minutes. In group 1, all GPIIb\/IIIa inhibitors prolonged collagen-epinephrine (CEPI) and collagen-adenosine diphosphate (CADP) closure times (CTs), measured with the platelet function analyzer 100 (PFA-100). DDAVP caused a shift in the concentration response curves to the right of all 3 GPIIb\/IIIa inhibitors. In group 2, DDAVP accelerated the normalization of CADP-CT and CEPI-CT after the stop of eptifibatide infusion with a maximum effect at 1.5 hours to 2 hours. In contrast, CEPI-CT remained above normal in the placebo group for more than 4 hours. In conclusion, DDAVP accelerates normalization of the in vitro platelet dysfunction induced by GPIIb\/IIIa inhibitors (+l-aspirin). \u00a0 \u00a0 Transfusion. 2005 Mar;45(3):420-6. Links Additive effects between platelet concentrates and desmopressin in antagonizing the platelet glycoprotein IIb\/IIIa inhibitor eptifibatide. Reiter R, Jilma-Stohlawetz P, Horvath M, Jilma B. Department of Clinical Pharmacology, Medical University of Vienna, Vienna, Austria. BACKGROUND: Platelet (PLT) glycoprotein (GP) IIb\/IIIa receptor antagonists have demonstrated efficacy in decreasing ischemic complications of percutaneous coronary intervention and\/or unstable angina. In case of bleeding, the drug can be stopped and PLT transfusions can be given. STUDY DESIGN AND METHODS: This crossover study tested the additive effects of PLT concentrates (PCs) after desmopressin (DDAVP) infusion in antagonizing the anti-PLT effects of GPIIb\/IIIa inhibitors and aspirin. After eptifibatide and aspirin infusion (at standard dosages), 10 healthy volunteers received DDAVP or placebo. Thereafter, increasing amounts of PLTs from fresh single-donor apheresis concentrates were added in vitro to blood samples of all volunteers to increase PLT counts by 30 x 10(9), 60 x 10(9), or 120 x 10(9) per L. RESULTS: Adding platelets in vitro further improved PLT function after DDAVP: it shortened collagen-adenosine diphosphate closure times (p < 0.01), to normal ranges as measured by the PLT function analyzer (PFA-100). In contrast, normal PLT function could not be restored even when PLT counts were increased by 50 percent (120 x 10(9)\/L) in the placebo group. CONCLUSION: Combined use of PLTs from fresh apheresis PC and DDAVP additively enhances recovery of normal PLT function after eptifibatide infusion. Such a strategy may help to avoid excessive transfusion of PC. PMID: 15752161 [PubMed – indexed for MEDLINE] Go to source: Entrez PubMed \u00a0 Another review of reversal of anticoag in ICH (Mayo Clinic Proceed 2007;82(1):82) Vit K takes 6-24 hrs to reverse and IX and X reversal takes longer than 24 hours FFP 12-32 hours for reversal PCC 15 min after infusion completed FFP 15 min after bolus \u00a0 Leo \/ Lou Its my understanding that you are both about half correct. Plavix irreversably inactivates the P2Y-12 ADP receptors on platelets, meaning that any circulating plavix will wreak havoc on any platelets being transfused. Once the receptor is inactivated theres no reversing it, nor does there seem to be a way to subvert the blockade pharmacologically. As far as I am aware, all activators of platelets independant of P2Y receptor binding (thrombin and TXA2) are locally relseased mediators, so I can’t think of a pharmacologic therapy worth attempting. Now, if circulating clopidogrel levels are low, some platelets that are infused may not suffer from total P2Y inativation and thus promote clotting, but the effectiveness is potentially limited. The Plavix people claim that 7 days is long enough without the drug on board to return clotting function and allow platelet transfusion to be effective, however many of the surgeons and anesthesiologists I have spoken to claim it is more on the order of two weeks in many patients. As far as formal indications and contraindications for the platelets, I can’t speak, but thats the cliffs notes on the physiologic story behind it, as its been explained to me. ~ Chris Chris, This is a very good answer to the question. The real issue is the presence or absence of residual active drug. The answer can be found in the pharmacokinetics of clopidrogel. Clopidrogel would be a lot less demonized and a lot safer it if didn’t have such a miserably long half life. I’ve pasted in a couple of abstracts below, and as you can the half life ranges from 275 to 433 hours in chronic dosing! That’s about 11-1\/2 days for the shortest half life! The variation in half life seems to be do to variations in abortion as opposed to variations in metabolism. The irreversible inactivation of P2Y-12 ADP receptors isn’t as much of a problem as the long circulating time of effective doses of the drug. Aspirin works by irreversibly acetylating platelets, however, it is rapidly eliminated which means that you can give unacetylated donor platelets and rapidly reverse the antiplatelet effect. I have no idea why clopidrogel was selected as the prototypical P2Y-12 ADP receptor inhibitor. It would have seemed infinitely wiser to me to choose a compound which is much more rapidly metabolized. My prediction (absent anything but a hunch) is that you will see P2Y-12 ADP receptor inhibitors designed to have a much shorter half life released in the coming years. Clopidrogel will then fade away from routine use or disappear completely. I am about the hard businesses of trying to master the mechanics of hemorheology. I scarcely see this discipline mentioned in CCM, but I predict that this will be a font of new insights and pharmaceuticals in the coming decade. Modulating RBC aggregability, as well as WBC and platelet adhesion and interactions has powerful therapeutic potential. Hopefully, they’ll do better with those drugs than they did with clopidrogel. Semin Thromb Hemost. 1999;25 Suppl 2:29-33. Links Pharmacokinetic profile of 14C-labeled clopidogrel. Lins R, Broekhuysen J, Necciari J, Deroubaix X. Biopharma Research, AZ Stuivenberg, Antwerpen, Belgium. In order to obtain a global assessment of circulating clopidogrel-related products and of the excretion of the drug, the pharmacokinetic behavior and the excretion balance of 14C radioactivity following the administration of a single dose of 75 mg of 14C-labeled clopidogrel were compared in 6 clopidogrel-free healthy male subjects (Period I) and after 7 days of once daily therapy with the unlabeled drug in these subjects (at steady state) (Period II). The two study periods were separated by a 4-week washout period. For each administration of 14C-clopidogrel, blood samples were collected before and at regular intervals over 28 days after administration of the radiolabeled drug. Expired air samples were collected before and over 24 hours after the administrations of 14C-clopidogrel. All urine voided and all stools were collected before and for up to 120 hours after the administration of 14C-clopidogrel, in consecutive periods of 12 to 24 hours. The mean radiocarbon plasma concentration profiles after administration of 14C-clopidogrel given as a single dose (Period I) and during steady state (Period II) were superimposable. There were no statistically significant differences between the two treatments for any parameters. A Cmax of 3.9 mg-Eqv\/L was reached after a median time of 1 hour (Tmax). The plasma elimination half-life, t1\/2, ranged from 336 hours to 672 hours in Period I and from 275 to 433 hours in Period II. The radiocarbon excretion over 10 to 12 hours post-dose (time to last measurable radioactivity) in expired air represented 0.31 to 0.35% of the administered dose. Mean cumulative urinary excretion over 120 hours represented 41% of the dose after a single-dose administration and 46 % after administration at steady state. The cumulative fecal recovery over 120 hours ranged from 35 to 57% of the dose in Period I and from 39 to 59% of the dose in Period II. Mean total excretion of radioactivity was 92% of the dose during Period I and 93% during Period II. These data indicate that, following multiple-dose administration of clopidogrel, the biodisposition of the drug remains unaltered compared to a single dose. PMID: 10440420 [PubMed – indexed for MEDLINE] Semin Thromb Hemost. 1999;25 Suppl 2:25-8. Links Pharmacokinetics of clopidogrel. Caplain H, Donat F, Gaud C, Necciari J. Institut Aster, Hopital Cognacq-Jay, Paris, France. Clopidogrel is extensively metabolized, as evidenced by the absence of detectable amounts of unchanged clopidogrel in plasma samples in most clinical trials. The major circulating compound is the inactive carboxylic acid derivative SR26334, and information on the absorption and elimination of clopidogrel after oral administration is derived from the pharmacokinetics of this metabolite. Single-dose pharmacokinetics of SR26334 were investigated in a randomized, dose-proportionality study comparing single 50, 75, 100, and 150 mg oral doses of clopidogrel administered to 12 subjects. Multiple-dose pharmacokinetics of SR26334 were primarily derived from a study carried out in 18 subjects treated with clopidogrel 75 mg once daily for 14 days. Further data on multiple-dose pharmacokinetics were provided by the results of a long-term study carried out in a group of 35 subjects who received clopidogrel 75 mg once daily for 12 weeks. All subjects were healthy male volunteers and, in all cases, clopidogrel was taken in the morning after an overnight fast. The mean Cmax values (+\/-SD) for SR26334 following single doses of 50, 75, 100, and 150 mg were 1.6+\/-0.30 mg\/L, 2.9+\/-0.68 mg\/L, 3.1+\/-0.94 mg\/L, and 4.9+\/-1.22 mg\/L, respectively. The ANOVA performed on dose-normalized Cmax showed no statistically significant dose effect, demonstrating a dose-proportional increase of Cmax in this range of clopidogrel doses. The urinary excretion of SR26334 was low-2.2 to 2.4% of the dose administered-and Cl(r-2-24) remained virtually constant at all four doses. Median T(max)(0.8-1.0 hour) and mean plasma t1\/2 (7.2-7.6 hours) values were not significantly different between doses. Following repeated dosing with clopidogrel 75 mg, mean (+\/-SD) C(trough) values (values before dosing) for SR26334 at steady state ranged from 0.8+\/-0.04 mg\/L to 0.11+\/-0.07 mg\/L. These values are similar to those observed during the 12-week administration of clopidogrel indicating that steady-state values are reproducible and that the esterasic biotransformation of clopidogrel into its carboxylic acid metabolite remains constant over a number of months of treatment. PMID: 10440419 [PubMed – indexed for MEDLINE] Mike Darwin Louis M. Aledort, M.D. Professor, Medicine \/ Hematology And Medical Oncology E-mail: louis.aledort@mssm.edu Tel: (212) 241-7971 \u00a0 I just wanted to clarify that Dr. Aledort also gives some FFP (2 U typically) in bleeding liver disease patients along with the PCC, as PCC does not replace other important factors like V and VIII.<\/p>\n

<\/span>Prothrombin Complex Concentrate<\/span><\/h2>\n

PCC is quicker than FFP (Thromb Res 2002;108:25 & Thromb Haemost 1997;77:477) 40 IU\/kg is the proper dose for 4-factor PCC (Critical Care<\/em> 2013, 17<\/strong>:R4) (Cerebrovasc Dis. 2011;31(2):170-6) Retrospective study is one of the first to show outcome benefit from PCC reversal Essentially 3-factor PCC (Intensive Care Med.<\/a> 2007 Apr;33(4):721-5) shows reversal within 3 minutes and they pushed the PCC over 2 minutes First trauma study of 3-factor (profilnine SD on average 35 units\/kg) showed good reversal of coagulopathy (J Trauma 2012;72(4):828) Transfusion. 2009 Jun;49(6):1171-7. Suboptimal effect of a three-factor prothrombin complex concentrate (Profilnine-SD) in correcting supratherapeutic international normalized ratio due to warfarin overdose. Took patients from 9 and greater to 4 on INR. This one showed good reversal with 3 -factor (Neurocrit Care. 2014 Aug;21(1):67-72.)<\/p>\n

<\/span>Ultrarapid Reversal of OAT<\/span><\/h3>\n

18 pts on coumadin, some supratherapeutic. All got 20 units\/kg of PCC<\/a> with full reversal within 3 minutes (inten care med 2007;33:721) They gave the med over 2 minutes<\/strong><\/p>\n

Feiba<\/h4>\n

FEIBA for warfarin (Int J Emerg Med 2009;2:217) DeZee KJ, Shimeall WT, Douglas KM, Shumway NM, O’Malley PG. Treatment of Excessive Anticoagulation With Phytonadione (Vitamin K): A Meta-analysis. Arch Intern Med. February 27, 2006 2006;166(4):391-397. Crowther MA, Douketis JD, Schnurr T, et al. Oral vitamin K lowers the international normalized ratio more rapidly than subcutaneous vitamin K in the treatment of warfarin-associated coagulopathy. A randomized, controlled trial. Ann Intern Med. Aug 20 2002;137(4):251-254. \u00a0 Riegert-Johnson DL, Volcheck GW. The incidence of anaphylaxis following intravenous phytonadione (vitamin K1): a 5-year retrospective review. Ann Allergy Asthma Immunol. Oct 2002;89(4):400-406. Shields RC, McBane RD, Kuiper JD, Li H, Heit JA. Efficacy and safety of intravenous phytonadione (vitamin K1) in patients on long-term oral anticoagulant therapy. Mayo Clin Proc. Mar 2001;76(3):260-266. \u00a0 Fiore LD, Scola MA, Cantillon CE, Brophy MT. Anaphylactoid reactions to vitamin K. J Thromb Thrombolysis. Apr 2001;11(2):175-183. \u00a0 Dr Mattox & everybody, First of all: There is a large individual heterogeneity in response of clopidogrel. This is endorsed by tests like TEG Platelet Mapping Assay, PFA 100, Multiplate Platelet function analyzer, Ultegra P2Y12 and Chronolog model 700. All of them have developed tests to evaluate clopidogrel-loaded platelet response. And all of these assays demonstrate high interindividual variability, regardless of method used. In laboratory methods, optimum variability coefficients range around 5-6%. Clopidogrel resistance tests usually have the coefficients around 20%. So, I expect that patients under clopidogrel toxicity also have different responses to the treatment. Some will respond to platelet transfusions in the OR, others won\u00b4t. This is the result I expect from a larger cohort prospective study into this subject, which is presently lacking, and this is what I see in the ORs around here. Presently, platelet transfusion cannot be recommended as a STANDARD, since the rate of success is not over 40% in my biased clinical practice. I strongly believe that in such a case preoperative liver evaluation is very important. Also I believe that sources of extrinsic pathway factors have to be used if platelets alone are not working: PRP, FFP and Cryo.I suspect there can be some toxicity involving fibrin structure or ADAMTS 13 and other metalloproteinases activity together with pure hepatic and platelet dysfunction in the severe unresponsive cases. Of course that clopidogrel is a devil during surgery, but I cannot refrain the comment that clopidogrel plus a non-gifted surgeon is a serial killer. No one deserves it.So operating under clopidogrel is a task for senior Mattox-trained gentlemen, it\u00b4s not something for residents, OK? DDAVP might work at least temporarily in some patients, and antifibrinolytics will probably not be useful unless you detect active fibrinolysis at a TEG or ROTEM or SonoClot device during the procedure. Attached there is a small slide presentation about this subject. 1:<\/strong> Lethagen S. Related Articles, Links<\/a> Desmopressin–a haemostatic drug: state-of-the-art review. Eur J Anaesthesiol Suppl. 1997 Mar;14:1-9. Review. PMID: 9088828 [PubMed – indexed for MEDLINE] 2:<\/strong> Flordal PA, Sahlin S. Related Articles, Links<\/a> Use of desmopressin to prevent bleeding complications in patients treated with aspirin. Br J Surg. 1993 Jun;80(6):723-4. PMID: 8330156 [PubMed – indexed for MEDLINE] 3:<\/strong> Kam PC. Related Articles, Links<\/a> Use of desmopressin (DDAVP) in controlling aspirin-induced coagulopathy after cardiac surgery. Heart Lung. 1994 Jul-Aug;23(4):333-6. PMID: 7960860 [PubMed – indexed for MEDLINE] 4:<\/strong> Reiter RA, Mayr F, Blazicek H, Galehr E, Jilma-Stohlawetz P, Domanovits H, Jilma B. Related Articles, Links<\/a> Desmopressin antagonizes the in vitro platelet dysfunction induced by GPIIb\/IIIa inhibitors and aspirin. Blood. 2003 Dec 15;102(13):4594-9. Epub 2003 Aug 14. PMID: 12920042 [PubMed – indexed for MEDLINE] 5:<\/strong> Chard RB, Kam CA, Nunn GR, Johnson DC, Meldrum-Hanna W. Related Articles, Links<\/a> Use of desmopressin in the management of aspirin-related and intractable haemorrhage after cardiopulmonary bypass. Aust N Z J Surg. 1990 Feb;60(2):125-8. Review. PMID: 2183746 [PubMed – indexed for MEDLINE] Go to source: Entrez PubMed \u00a0 \u00a0 \u00a0 animal study showing ddavp reverses aspirin induced platelet dysfunction (British Journal of Haematology, 2002, 117, 658\u0096663) \u00a0 \u00a0 \u00a0 Factor VIIa was cost effective in trauma patients (J Trauma Volume 66(1), January 2009, pp 63-75) Ddavp is safe, no increased risk of thrombotic complications (Anesth 2008;109:1063) \u00a0 CHANT study shows hematoma enlargement and worse outcomes with anticoag, but not so much with anti-plt (Hematoma growth in oral anticoagulant related intracerebral hemorrhage. Stroke. 2008;39:2993\u00966) \u00a0 Plt transfusion improved plt function (3.Naidech AM, Jovanovic B, Liebling S, Garg RK, Bassin SL, Bendok BR, et al. Reduced platelet activity is associated with early clot growth and worse 3-month outcome after intracerebral hemorrhage. Stroke. 2009;40:2398\u0096401.) \u00a0 13.Naidech AM, Jovanovic B, Liebling S, Garg RK, Bassin SL, Bendok BR, et al. Reduced platelet activity is associated with early clot growth and worse 3-month outcome after intracerebral hemorrhage. Stroke. 2009;40:2398\u0096401.14.Naidech AM, Bernstein RA, Levasseur K, Bassin SL, Bendok BR, Batjer HH, et al. Platelet activity and outcome after intracerebral hemorrhage. Ann Neurol. 2009;65:352\u00966. \u00a0 \u00a0 Conclusions A medication history does not reliably identify patients with reduced platelet activity after ICH, and this may explain studies that found no association between known aspirin use and outcomes. Future studies should screen for unknown use of anti-platelet medications after ICH. Neither assay perfectly identified patients who reportedly used anti-platelet medication before ICH.(Naidech AM, Bassin SL, Bernstein RA, Batjer HH, Alberts MJ, Lindholm PF, Bleck TP. Reduced platelet activity is more common than reported anti-platelet medication use in patients with intracerebral hemorrhage. Neurocrit Care. 2009. [Epub ahead of print]) \u00a0 Suboptimal effect of 3 vs. 4-factor PCC (Transfusion 2009;49:1171) Brand New one showing suboptimal of Bebulin (Switzer et al. Stroke. 2012;43:00-00.) PCC Review including chart of all agents<\/a> \u00a0 and another one with chart of newer agents<\/a> and a discussion of why factor II is probably the bad actor in thrombotic complications Guideline-concordant administration of prothrombin complex concentrate and vitamin K is associated with decreased mortality in patients with severe bleeding under vitamin K antagonist treatment (EPAHK study) (Critical Care 2014, 18:R81)<\/p>\n

<\/span>For Invasive or Operations<\/span><\/h2>\n

Four-factor prothrombin complex concentrate versus plasma for rapid vitamin K antagonist reversal in patients needing urgent surgical or invasive interventions: a phase 3b, open-label, non-inferiority, randomised trial Dr Joshua N Goldstein, MDcorrespondenceemail , Majed A Refaai, MD , Truman J Milling Jr, MD , Brandon Lewis, DO , Robert Goldberg-Alberts, MA , Bruce A Hug, MD , Prof Ravi Sarode, MD Published Online: 26 February 2015 Article has an altmetric score of 3 DOI: http:\/\/dx.doi.org\/10.1016\/S0140-6736(14)61685-8<\/p>\n

Frontera JA et al. Reversal of Coagulopathy Using Prothrombin Complex Concentrates is Associated with Improved Outcome Compared to Fresh Frozen Plasma in Warfarin-Associated Intracranial Hemorrhage.<\/strong> Neurocrit Care. 2014; 21(3): 397-406. PMID: 24671832<\/a><\/p>\n

<\/span>Reversing Anti-platelet Agents<\/span><\/h2>\n

Best Review Article (Transfusion. 2011 Aug 19. How do I transfuse platelets (PLTs) to reverse anti-PLT drug effect? Sarode R.) An even better review states no plts, maybe dDAVP (Crit Care 2012;16:228) Ann Emerg Best Avail Evidence (Ann Emerg Med 2013;61(1):58) states no proven benefit \"\"<\/a> \"\"<\/a> Orlando Regional Hospital Reversal of Anti-PLT Protocol<\/a> Aspirin can be reversed with dDAVP (European Journal of Anaesthesiology 2002; 19: 647\u0096651<\/a>) 1\/2 life of ASA is ~20 minutes First study to show outcome benefits from reversal of anti-platelet effects (Neurocrit Care 2012;16:82) This article shows plt may reverse ASA<\/a>, but was ineffective on clopidogrel<\/p>\n

<\/span>Plavix<\/span><\/h3>\n

In healthy volunteers, factor VIIa at 10-20 ug\/kg will reverse plavix (Anesth Analg 2011;113:703\u201310) This study indicates plts may reverse ASA effect, but not clopidogrel (J Trauma 2013;74:1367) \u00a0 Perhaps these therapies will be best guided by Aspirin Response Test and Clopidogrel Response Tests Patients with an ART demonstrating platelet inhibition (ART <550 ASA response units = platelet inhibition) received platelet transfusion with a repeat ART performed approximately 1 hour after platelet transfusion. (Surgery 2011;150(4):836\u2013843)<\/p>\n

 <\/p>\n

 <\/p>\n

<550 asa\u00a0 response units = plt inhibition
\nretrospect study Surgery 2011;150(4):836<\/p>\n","protected":false},"excerpt":{"rendered":"

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