A last DOAC intake 3 days before a procedure resulted in minimal pre-procedural anticoagulant effect for almost all patients. Moderate renal impairment, especially in dabigatran-treated patients, and antiarrhythmics in anti-Xa-treated patients should result in a longer DOAC interruption. In situations requiring testing, routine assays should not replace DOAC concentration measurement.
This is an open access article under the terms of the Creat ive Commo ns Attri bution-NonCo mmercial License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes. AbstractBackground: Thrombin generation testing has been used to provide information on the coagulation phenotype of patients. The most used technique is the calibrated automated thrombogram (CAT) but it suffers from a lack of standardization, preventing its implementation in routine. The ST Genesia is a new analyzer designed to assess thrombin generation based on the same principle as the CAT. Unlike the CAT system, the ST Genesia is a benchtop, fully automated analyzer, able to perform the analyses individually and not by batch, with strict control of variables such as temperature and volumes, ensuring, theoretically, maximal reproducibility. Objectives:This study aimed at assessing the performance of the STG-DrugScreen application on the ST Genesia analyzer. We also aimed at exploring stability of plasma samples after freezing and defining a reference normal range. Results:Results demonstrated the excellent interexperiment precision of the ST Genesia and confirmed that the use of a reference plasma helps reducing the
Direct oral anticoagulants (DOACs) have been licensed worldwide for several years for various indications. Each year, 10–15% of patients on oral anticoagulants will undergo an invasive procedure and expert groups have issued several guidelines on perioperative management in such situations. The perioperative guidelines have undergone numerous updates as clinical experience of emergency management has increased and perioperative studies including measurement of residual anticoagulant levels have been published. The high inter-patient variability of DOAC plasma levels has challenged the traditional recommendation that perioperative DOAC interruption should be based only on the elimination half-life of DOACs, especially before invasive procedures carrying a high risk of bleeding. Furthermore, recent publications have highlighted the potential danger of heparin bridging use when DOACs are stopped before an invasive procedure.As antidotes are progressively becoming available to manage severe bleeding or urgent procedures in patients on DOACs, accurate laboratory tests have become the standard to guide their administration and their actions need to be well understood by clinicians.This review aims to provide a systematic approach to managing patients on DOACs, based on recent updates of various perioperative guidance, and highlighting the advantages and limits of recommendations based on pharmacokinetic properties and laboratory tests.
BACKGROUND Dabigatran etexilate has received its market authorization for various indications worldwide. It was developed to be used in fixed dose regimens without the need of regular monitoring. However, the perioperative management of dabigatran could require an assessment of the drug plasma levels to ensure a safe use of the product, especially in absence of specific antidotes. The EMA stated that dabigatran concentrations under 48 ng/mL should be reached before invasive intervention. The GIHP put the threshold at 30 ng/mL. Therefore, a specific laboratory assay, accurate in the low concentration range, easily available and performable 24h/7 is requested but, until now, all coagulation tests dedicated to the measurement of plasma dabigatran concentrations showed a lower limit of quantitation from 30 to 50 ng/mL. This limits their perioperative utility and the thrombin time (TT) is currently presented as an alternative due to its very high sensitivity to dabigatran. This interesting approach has limitations because TT is affected by several analytical and biological variables that could lead to misinterpretations and expose the patient at riskier hemostatic conditions. In this study, we propose to investigate the performance of two coagulation tests (the Hemoclot Thrombin Inhibitors LOW (HTI LOW) (Hyphen BioMed) and the Ecarin Chromogenic Assay II (ECA-II) (Diagnostica Stago)) specifically developed to measure low plasma dabigatran concentrations and to compare their results with a reference LC-MS/MS. We also assessed the performance of the standard procedure of HTI and TT. MATERIALS AND METHODS Thirty-three plasma samples of patients treated with dabigatran etexilate for stroke prevention in non-valvular atrial fibrillation, were included in the study. Plasma samples were taken randomly and included after a first screening using the HTI to select plasma concentrations <200 ng/mL. For HTI, tested plasma was diluted 1:8 in Owren-Koller® buffer. Fifty μl of tested plasma were mixed with 100 μl of normal pooled plasma and were incubated during 240 sec. One hundred μl of highly purified human thrombin pre-incubated at 37°C was then added to start the reaction. For HTI LOW, the dilution of the sample was reduced to 1:2 and specific calibrators at lower concentrations were used. For ECA-II, tested plasma was diluted 1:5 in Owren-Koller® buffer. Fifty μl of tested plasma were mixed with 140 μl of prothrombin and then 70 µl of chromogenic substrate were added and incubated during 240 sec. Seventy μl of ecarin pre-incubated at 37°C were then added to start the reaction. Thrombin time was performed using Thrombin Time® reagent 1.5NIH (Diagnostica Stago) and the limit of measurement was extended to 300 sec. All of these procedures were performed on a STA-R Evolution® coagulometer (Diagnostica Stago). RESULTS AND DISCUSSION The plasma concentrations ranged from 0 to 200 ng/mL as provided by LC-MS/MS measurements. Among these samples, 17 were between 0 and 50 ng/mL. Linear correlation, Spearman correlation and Bland-Altman analyses versus LC-MS/MS are provided in Figure 1, for assays that express results in ng/mL, i.e. HTI, HTI LOW and ECA-II. For TT, the relation is described by linear correlation. Our results show that HTI LOW performs better than HTI and ECA-II on the whole concentration range providing closer correlation and a lower systematic difference compared to LC-MS/MS. For concentrations below 50 ng/mL HTI LOW and ECA-II reveal similar systematic difference with higher 95% CI for ECA-II and perform better than HTI to estimate plasma concentrations. Thrombin time is less useful than dedicated assays to provide an estimation of the pharmacodynamics of dabigatran. For concentrations above 50 ng/mL it often exceeds the limit of measurement, i.e. 120 sec as defined by the manufacturer, and is influenced by the level of fibrinogen. However, it gives an acceptable correlation for concentration below 50 ng/mL. This may help the biologist to choose which test to use to avoid unnecessary costs and ensure the use of the more accurate dedicated assay to estimate the plasma concentrations. When TT is lower than 120 sec, HTI LOW or ECA-II should be preferred to HTI. CONCLUSION We recommend the use of specific coagulation assays to assess the dabigatran plasma concentrations before invasive procedure. Thrombin time may guide the biologist on the dedicated coagulation test to perform if he uses the HTI platform. Figure 1 Figure 1. Disclosures No relevant conflicts of interest to declare.
The indications for rigid bronchoscopy for interventional pulmonology have increased and include stent placements and transbronchial cryobiopsy procedures. The shared airway between anesthesiologist and pulmonologist and the open airway system, requiring specific ventilation techniques such as jet ventilation, need a good understanding of the procedure to reduce potentially harmful complications. Appropriate adjustment of the ventilator settings including pause pressure and peak inspiratory pressure reduces the risk of barotrauma. High frequency jet ventilation allows adequate oxygenation and carbon dioxide removal even in cases of tracheal stenosis up to frequencies of around 150 min−1; however, in an in vivo animal model, high frequency jet ventilation along with normal frequency jet ventilation (superimposed high frequency jet ventilation) has been shown to improve oxygenation by increasing lung volume and carbon dioxide removal by increasing tidal volume across a large spectrum of frequencies without increasing barotrauma. General anesthesia with a continuous, intravenous, short-acting agent is safe and effective during rigid bronchoscopy procedures.
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