EDUCATION Four Compartments

EDUCATION Four Compartments

J R Coll Physicians Edinb 2014; 44:42–5 CME http://dx.doi.org/10.4997/JRCPE.2014.110 © 2014 Royal College of Physicians of Edinburgh Coagulation YL Chee Consultant Haematologist, Department of Haematology-Oncology, National University Hospital, Singapore ABSTRACT The haemostatic system comprises four compartments: the vasculature, Correspondence to YL Chee platelets, coagulation factors, and the fibrinolytic system. There is presently no Consultant Haematologist laboratory or near-patient test capable of reproducing the complex regulated Department of Haematology- Oncology interaction between these four compartments. The prothrombin time (PT) and NUHS Tower Block Level 7 activated partial thromboplastin time (APTT) only test the coagulation protein 1E Kent Ridge Road compartment of the system and results have to be carefully interpreted in the Singapore 119228 context of the clinical presentation and assay limitations. This article will give a e-mail general overview of the limitations of PT and APTT and discuss specific issues that [email protected] need to be considered when the tests are requested, in the context of anticoagulant monitoring, bleeding symptoms, and routine preoperative screening. Of these indications, routine preoperative screening is the most controversial and is generally not warranted in the absence of an abnormal bleeding history. KEYWORDS Prothrombin time, activated partial thromboplastin time, thrombin clotting time, preoperative screening, bleeding history, coagulation screen DECLARATIONS OF INTERESTS No conflicts of interest declared. INTRODUCTION Intrinsic pathway Extrinsic pathway The normal haemostatic system comprises four Factor XII/HMWK*/PK** compartments, the vasculature, platelets, coagulation proteins and the fibrinolytic system. When a blood Factor XI Factor XIa vessel is injured, all four compartments interact in a coordinated manner to prevent blood loss by forming a Factor IX Factor IXa Factor VIIa clot and localising this to the area of injury. Currently, Factor VIIIa Tissue factor there is no global haemostatic test that can capture the complex interaction that exists in vivo between these Factor X Factor Xa Factor X EDUCATION four compartments. Factor Va All existing laboratory and near-patient screening tests Prothrombin Thrombin of haemostasis, including the coagulation screen comprising prothrombin time (PT) and activated partial Fibrinogen Fibrin thromboplastin time (APTT), have important limitations. *HMWK=high molecular weight kininogen; Their clinical utility and hence, the correct diagnosis and **PK=prekallikrein/kallikrein appropriate management of the patient, is highly dependent on the clinical context and a clear FIGURE 1 Classical coagulation cascade. understanding of the laboratory limitations. rarely inhibitors) of factors II, V, VII, and X. The APTT is LIMITATIONS OF PT AND APTT the in vitro clotting time measured after addition of calcium, an intrinsic pathway activator and the APTT Two pathways lead to the formation of a fibrin clot, the reagent, which contains phospholipid (a platelet intrinsic and extrinsic pathway (Figure 1). Each pathway substitute, also called ‘partial thromboplastin’ as it lacks is initiated by a different mechanism and both converge tissue factor) to plasma. The APTT detects bleeding on a final common pathway (factors II, V, and X) leading disorders due to deficiencies of factors II, V, VIII, IX, X, XI, to thrombin generation and fibrin formation. The PT and XII and inhibitors including lupus anticoagulant and APTT test the integrity of the extrinsic and intrinsic therapeutic anticoagulants. pathways, respectively, while both PT and APTT are affected by defects in the final common pathway. Prolongation of the PT and/or APTT only indicates a problem with the quantity and/or quality of single or The PT is the in vitro clotting time measured after multiple factors within the relevant pathways. Further addition of the PT reagent, which contains thromboplastin specific coagulation tests are required to characterise the (phospholipids with tissue factor) and calcium to citrated actual cause. Both the PT and APTT are also subject to a plasma. The PT detects important deficiencies (and number of other important limitations. These include: 42 Coagulation 1. Artefact due to sample collection or contamination, In contrast to the INR for PT, no such standardisation e.g. inadequate volume, difficult or traumatic exists for APTT reagent, resulting in marked variation in phlebotomy causing coagulation activation, prolonged the sensitivity of different reagents to coagulation storage, and failure to adjust for high haematocrit factor deficiencies and inhibitors. To standardise the causing an increase in citrate to plasma volume and APTT used to monitor UFH use, individual laboratories artefactual prolongation of PT and APTT. should develop their own therapeutic range 2. Derivation of normal range whereby 2.5% of corresponding with accepted therapeutic UFH levels. otherwise normal individuals are considered to be The APTT is generally not sensitive to low molecular outwith the upper limit of normal. weight heparin (LMWH). 3. Insensitivity to clinically important bleeding disorders with normal PT and APTT (e.g. mild von Although the new oral anticoagulants have been Willebrand disease or haemophilia A, FXIII deficiency developed without the need for routine monitoring, and alpha2-antiplasmin deficiency). these may be required in special circumstances, e.g. 4. Detection of conditions not associated with recurrent thrombosis on treatment, bleeding and bleeding e.g. the lupus anticoagulant which can preoperatively. All the new oral agents affect the APTT prolong both the PT and APTT, FXII deficiency and PT but similar to VKA and UFH, different PT and which prolongs APTT. APTT reagents show varying responsiveness. Results 5. The same blood sample tested in different cannot be used for drug level monitoring or standardised laboratories can give variable results; mainly due across different laboratories. to differences in commercial reagents having (b) Investigation of bleeding different responsiveness to coagulation factor deficiencies and inhibitors and to a lesser extent, When the PT and APTT are used in the context of a the automated instrument. patient with bleeding, the clinician should have a clear and systematic approach to the clinical and laboratory EDUCATION THE CLINICAL CONTEXT FOR TESTING diagnosis. A detailed bleeding history including drug and family history, followed by careful examination can help The PT and APTT are amongst the most commonly to compartmentalise the haemostatic defect and direct requested laboratory assays. Typical indications include laboratory investigations in a logical manner. However, anticoagulant monitoring, routine preoperative bleeding histories in patients with mild bleeding disorders screening, and bleeding. In addition to the limitations are challenging as many patients report mild bleeding already described, the clinician needs to be aware of symptoms, which are common in and overlap with the specific issues related to each of these clinical normal population. More recently, structured bleeding indications for testing. assessment tools (BATs) to objectively quantify bleeding symptoms in a standardised manner have been developed. (a) Anticoagulant monitoring These bleeding assessments tools have shown with good The problems associated with PT or APTT for monitoring negative predictive value and their greatest clinical utility vitamin K antagonists (VKA) and unfractionated heparin presently may lie in identifying patients who do not (UFH) relate mainly to the varying responsiveness of require further testing but validation for bleeding test reagent to single and/or multiple factor deficiencies disorders outside von Willebrand disease is still needed. and inhibitors. There is considerable variability in the PT If the predictive value of the structured BATs is thromboplastin reagent to the coagulation defect caused confirmed in prospective studies, this approach is likely by VKA. Therefore, to allow PT results from different to be extremely valuable in standardising and improving laboratories to be comparable, a calibration system that the specificity of determining abnormal bleeding that compares PT results to a World Health Organization requires further investigations. (WHO) standard expressed as the international (c) Routine preoperative screening normalised ratio (INR) was developed. However, the INR is only valid for patients stabilised on VKA. This Perhaps the most controversial indication for coagulation means that they are neither reliable nor reproducible testing is in routine preoperative screening. Both the PT for patients with prolonged PT for other reasons, e.g. and APTT were designed as diagnostic tests to confirm liver disease, disseminated intravascular coagulation and the clinical suspicion of bleeding. This is different from congenital factor deficiency. The INR is accurate only for their use as screening tests in otherwise healthy values within the 1.5–4.5 range as only patient samples preoperative patients, where the prevalence of bleeding with INRs within this range were used for calibration. disorders is extremely low. Their use in populations with This means that INR values >4.5 may no longer observe low pretest probability will invariably detect a high the linear relationship demonstrated for those with degree of normal results. Even when the results are INRs of 1.5–4.5. abnormal, these

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