Diagnostics of Inherited Bleeding Disorders of Secondary Hemostasis: An Easy Guide for Routine Clinical Laboratories

Lippi, Giuseppe; Franchini, Massimo; Favaloro, Emmanuel J.

doi:10.1055/s-0036-1571311

Cited by 29 publications

(38 citation statements)

References 21 publications

(32 reference statements)

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“…Routine coagulation tests are among those most frequently ordered by clinicians. These tests may be requested in order to assist with the diagnosis or exclusion of haemostasis defects (eg disseminated intravascular coagulation (DIC), liver disease or factor deficiencies/bleeding disorders), or in many cases to monitor anticoagulant therapy . The routine coagulation assays most commonly performed by laboratories include the prothrombin time (PT), as potentially converted to an international normalized ratio (INR), and the activated partial thromboplastin time (APTT) .…”

Section: Introductionmentioning

confidence: 99%

“…For example, difficulty arises when attempting to assess “abnormal” coagulation test results, due to lack of clinical information provided by clinicians, such as the presence or absence of anticoagulant therapy and/or type of anticoagulant therapy. Thus, “abnormal” coagulation test results represent a relative term, potentially anticipated due to anticoagulant therapy or potentially unexpected, in which case results may be clinically relevant and follow‐up action would be required . Clinicians similarly face challenges with interpretation of test results, which may require different interpretations based on clinical scenario and test results.…”

Section: Introductionmentioning

confidence: 99%

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Development and implementation of an expert rule set for automated reflex testing and validation of routine coagulation tests in a large pathology network

Mohammed

Priebbenow

Pasalic

et al. 2019

Int J Lab Hematology

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Introduction Haemostasis laboratories play a critical role in diagnosis and treatment of individuals with bleeding or thrombotic disorders. Routine coagulation assays such as prothrombin time (PT)/ international normalized ratio (INR), and activated partial thromboplastin time (APTT), are used in monitoring of anticoagulant therapy, as provided for treatment/prevention of thromboembolic disease, and also inform on potential haemostasis dysfunction. Increasing pressure is applied on clinical laboratories to improve response (test turnaround) times, reduce error rates and standardize policies. To this end, we describe our experience with the development and implementation of an automated process for reflex testing and validation of routine coagulation test results in a large pathology network compromising 27 laboratories. Methods Custom‐built expert rules were created to perform reflex testing and fully automate routine test validation. These rules were developed/implemented over a 15‐month period, including 6 months for development/ testing and 9 months for training/implementation of >100 personnel at 27 sites. Results These rules have enabled adherence of standardized pre‐analytical (sample integrity) checks, automated reflex decisions, automated verification and overall alignment of network practices. In addition, clinically significant results are immediately referred to haematologists. We report an improvement in test turnaround times, also reflecting savings in operator time. Conclusion The process was generally well received and generally beneficial to most laboratories in the network.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Development and implementation of an expert rule set for automated reflex testing and validation of routine coagulation tests in a large pathology network

Mohammed

Priebbenow

Pasalic

et al. 2019

Int J Lab Hematology

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show abstract

“…For instance, despite a lack of clinical bleeding in FXII, prekallikrein or HMWK deficiencies, APTT can be prolonged. Also, sepsis, malignancy, and atherosclerosis are also associated with disturbance in physiological hemostasis and abnormal coagulation test results . These should always be considered when interpreting APTT results.…”

Section: Introductionmentioning

confidence: 99%

“…Activator's role is to provide a negatively charged surface required for activation of the coagulation factors. Phospholipid content of the reagents is highly variable in terms of both concentration and source . The diversity in concentration and composition of the APTT reagents results in remarkable differences in response to heparin, coagulation factor deficiencies, and LAs.…”

Section: Introductionmentioning

confidence: 99%

What should be the laboratory approach against isolated prolongation of a activated partial thromboplastin time?

Falay

Şeneş

Yücel

et al. 2018

Clinical Laboratory Analysis

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“…Coagulation tests are usually classified according a conventional hierarchy of complexity, entailing first-line (i.e., screening), second-line (i.e., diagnostic) and third-line tests, the last of which are usually performed to help defining the specific nature and severity of an underlying hemostatic disorder [3]. Due to the crucial role of haemostasis testing in diagnosing and managing hemostasis disturbances, a high degree of accuracy must be assured throughout the total testing process, i.e., from sample collection to testing and clinical interpretation of data [4–7].…”

Section: Introductionmentioning

confidence: 99%

Impact of experimental hypercalcemia on routine haemostasis testing

et al. 2017

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BackgroundThe blood to anticoagulant ratio is standardized according to the physiological calcium concentration in blood samples conventionally used for hemostasis testing. Specifically, one fixed volume of 0.109 mmol/L sodium citrate is added to 9 volumes of blood. Since little is known about the impact of hypercalcemia on the calcium-binding capacity of citrate, this study was planned to investigate the effect of experimental hypercalcemia on routine hemostasis testing.MethodsFifteen pooled citrated plasmas with matching lithium-heparin pooled plasma from patients with different values of prothrombin time (PT) were divided in three aliquots of 0.6mL each. The first paired aliquots of both citrate and lithium-heparin plasma were supplemented with 60μL of saline, the second paired aliquots with 30μL of saline and 30μL of calcium chloride and the third paired aliquots with 60μL of calcium chloride. Total and ionized calcium was measured in all aliquots of citrate and lithium-heparin plasma, whereas PT, activated partial thromboplastin time (APTT) and fibrinogen were measured in citrate plasma aliquots.ResultsTotal calcium concentration gradually increased in both lithium-heparin and citrate plasma aliquots 2 and 3 compared to baseline aliquot 1. The concentration of ionized calcium also gradually increased in lithium-heparin plasma aliquots 2 and 3, whereas it remained immeasurable (i.e., <0.10 mmol/L) in all citrate plasma aliquots. No significant differences were observed for values of PT, APTT and fibrinogen in citrate plasma aliquots 2 and 3 compared to the baseline aliquot 1, with a mean bias was always comprised within the desirable quality specifications derived from biological variability data.ConclusionHypercalcemia, up to severe hypercalcemia does not generate significant bias in results of first-line coagulations tests, so that hypothetical consideration of adjusting citrate-blood ratio is unjustified in hypercalcemic patients.

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Diagnostics of Inherited Bleeding Disorders of Secondary Hemostasis: An Easy Guide for Routine Clinical Laboratories

Cited by 29 publications

References 21 publications

Development and implementation of an expert rule set for automated reflex testing and validation of routine coagulation tests in a large pathology network

Development and implementation of an expert rule set for automated reflex testing and validation of routine coagulation tests in a large pathology network

What should be the laboratory approach against isolated prolongation of a activated partial thromboplastin time?

Impact of experimental hypercalcemia on routine haemostasis testing

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