Influence of storage time on stability of routine coagulation parameters (international normalised ratio, activated partial thromboplastin time and fibrinogen) at room temperature
Objectives: Extending the maximum acceptable specimen age for testing/retesting some routine coagulation parameters has many benefits (e.g., reagent evaluation, fibrinogen add-on for disseminated intravascular coagulation, or addressing sample delay during snow in Otago/Southland). This study assess...
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| Vydané v: | New Zealand journal of medical laboratory science Ročník 75; číslo 3; s. 177 - 184 |
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| Hlavní autori: | , , |
| Médium: | Journal Article |
| Jazyk: | English |
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Auckland, New Zealand
New Zealand Institute of Medical Laboratory Science
01.11.2021
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| ISSN: | 1171-0195 |
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| Abstract | Objectives: Extending the maximum acceptable specimen age for testing/retesting some routine coagulation parameters has many benefits (e.g., reagent evaluation, fibrinogen add-on for disseminated intravascular coagulation, or addressing sample delay during snow in Otago/Southland). This study assessed such possibility, where stability of international normalised ratio, activated partial thromboplastin time and Fibrinogen results were examined in relation to storage time.
Methods: From each participating individual (50 total), four citrate tubes were collected. A baseline tube was centrifuged and tested for international normalised ratio, activated partial thromboplastin time and fibrinogen at time of arrival. The other three tubes were kept as whole blood. After 24, 48, and 72 hours respectively from time of collection, one tube was taken for centrifuging and tested for international normalised ratio, activated partial thromboplastin time, and fibrinogen. In addition, centrifuged tubes were retested for international normalised ratio and fibrinogen after 24, 48, and 72 hours respectively (centrifuged fibrinogen after 96 hours) from time of collection. All specimens were kept at room temperature.
Results: The mean bias of international normalised ratio, activated partial thromboplastin time, and fibrinogen at after 24h, 48h, and 72h (centrifuged fibrinogen after 96h) were calculated and compared with specific allowable limits of performance. For both centrifuged and uncentrifuged specimens, international normalised ratio variations up to 72h all passed Royal College of Pathologists of Australasia allowable limits of performance (+-0.3); fibrinogen variations up to 72h (centrifuged fibrinogen up to 96h) all passed European Federation of Clinical Chemistry and Laboratory Medicine allowable limits of performance (+-10.7%). Activated partial thromboplastin time had a clear increasing trend, and all of its variations failed the European Federation of Clinical Chemistry and Laboratory Medicine allowable limits of performance (+-2.7%).
Conclusion: Evidence supports extension of maximum acceptable age of uncentrifuged specimens for international normalised ratio and fibrinogen tests to 72h. Changing the maximum allowable age of activated partial thromboplastin time is not recommended. For centrifuged specimens, we can extend maximum acceptable age for international normalised ratio to 72h and fibrinogen to 96h. |
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| AbstractList | Objectives: Extending the maximum acceptable specimen age for testing/retesting some routine coagulation parameters has many benefits (e.g., reagent evaluation, fibrinogen add-on for disseminated intravascular coagulation, or addressing sample delay during snow in Otago/Southland). This study assessed such possibility, where stability of international normalised ratio, activated partial thromboplastin time and Fibrinogen results were examined in relation to storage time. Methods: From each participating individual (50 total), four citrate tubes were collected. A baseline tube was centrifuged and tested for international normalised ratio, activated partial thromboplastin time and fibrinogen at time of arrival. The other three tubes were kept as whole blood. After 24, 48, and 72 hours respectively from time of collection, one tube was taken for centrifuging and tested for international normalised ratio, activated partial thromboplastin time, and fibrinogen. In addition, centrifuged tubes were retested for international normalised ratio and fibrinogen after 24, 48, and 72 hours respectively (centrifuged fibrinogen after 96 hours) from time of collection. All specimens were kept at room temperature. Results: The mean bias of international normalised ratio, activated partial thromboplastin time, and fibrinogen at after 24h, 48h, and 72h (centrifuged fibrinogen after 96h) were calculated and compared with specific allowable limits of performance. For both centrifuged and uncentrifuged specimens, international normalised ratio variations up to 72h all passed Royal College of Pathologists of Australasia allowable limits of performance ([+ or -]0.3); fibrinogen variations up to 72h (centrifuged fibrinogen up to 96h) all passed European Federation of Clinical Chemistry and Laboratory Medicine allowable limits of performance ([+ or -]10.7%). Activated partial thromboplastin time had a clear increasing trend, and all of its variations failed the European Federation of Clinical Chemistry and Laboratory Medicine allowable limits of performance ([+ or -]2.7%). Conclusion: Evidence supports extension of maximum acceptable age of uncentrifuged specimens for international normalised ratio and fibrinogen tests to 72h. Changing the maximum allowable age of activated partial thromboplastin time is not recommended. For centrifuged specimens, we can extend maximum acceptable age for international normalised ratio to 72h and fibrinogen to 96h. Key words: International normalised ratio (INR), activated partial thromboplastin time (APTT), Fibrinogen, specimen age, result stability. Objectives: Extending the maximum acceptable specimen age for testing/retesting some routine coagulation parameters has many benefits (e.g., reagent evaluation, fibrinogen add-on for disseminated intravascular coagulation, or addressing sample delay during snow in Otago/Southland). This study assessed such possibility, where stability of international normalised ratio, activated partial thromboplastin time and Fibrinogen results were examined in relation to storage time. Methods: From each participating individual (50 total), four citrate tubes were collected. A baseline tube was centrifuged and tested for international normalised ratio, activated partial thromboplastin time and fibrinogen at time of arrival. The other three tubes were kept as whole blood. After 24, 48, and 72 hours respectively from time of collection, one tube was taken for centrifuging and tested for international normalised ratio, activated partial thromboplastin time, and fibrinogen. In addition, centrifuged tubes were retested for international normalised ratio and fibrinogen after 24, 48, and 72 hours respectively (centrifuged fibrinogen after 96 hours) from time of collection. All specimens were kept at room temperature. Results: The mean bias of international normalised ratio, activated partial thromboplastin time, and fibrinogen at after 24h, 48h, and 72h (centrifuged fibrinogen after 96h) were calculated and compared with specific allowable limits of performance. For both centrifuged and uncentrifuged specimens, international normalised ratio variations up to 72h all passed Royal College of Pathologists of Australasia allowable limits of performance (+-0.3); fibrinogen variations up to 72h (centrifuged fibrinogen up to 96h) all passed European Federation of Clinical Chemistry and Laboratory Medicine allowable limits of performance (+-10.7%). Activated partial thromboplastin time had a clear increasing trend, and all of its variations failed the European Federation of Clinical Chemistry and Laboratory Medicine allowable limits of performance (+-2.7%). Conclusion: Evidence supports extension of maximum acceptable age of uncentrifuged specimens for international normalised ratio and fibrinogen tests to 72h. Changing the maximum allowable age of activated partial thromboplastin time is not recommended. For centrifuged specimens, we can extend maximum acceptable age for international normalised ratio to 72h and fibrinogen to 96h. ABSTRACT Objectives: Extending the maximum acceptable specimen age for testing/retesting some routine coagulation parameters has many benefits (e.g., reagent evaluation, fibrinogen add-on for disseminated intravascular coagulation, or addressing sample delay during snow in Otago/Southland). [...]the original aim of this study was to examine whether we can extend the maximal acceptable time frame of INR testing. [...]the laboratory can only send specimens away after the requested tests are done, resulting in them all being centrifuged. [...]we evaluated the stability of INR from spun citrate tubes over time. [...]the original aim of this study is to examine whether we can extend the maximal acceptable time frame of INR testing. [...]the laboratory can only send specimens away after the requested tests are done, resulting in them all being centrifuged. [...]we evaluated the stability of INR from spun citrate tubes over time. Among those, 24 subjects were on warfarin, one on dabigatran, and 25 subjects not on any anticoagulation. 34 subjects had their whole blood APTT variation measured, and 39 subjects had their whole blood fibrinogen variation measured. Since APTT and fibrinogen tests were not included in this study initially, the amounts of subjects tested were less than total amount of participants. |
| Audience | Academic |
| Author | Richard M Chen Rhonda Lucas Yii Sen Wee |
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| Snippet | Objectives: Extending the maximum acceptable specimen age for testing/retesting some routine coagulation parameters has many benefits (e.g., reagent... ABSTRACT Objectives: Extending the maximum acceptable specimen age for testing/retesting some routine coagulation parameters has many benefits (e.g., reagent... |
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| SubjectTerms | Age Anticoagulants Blood Blood coagulation factors Care Coagulation Enzymatic analysis Fibrin Fibrinogen Hematology Medical examination Medical laboratories Patients Reagents Thromboplastin |
| Title | Influence of storage time on stability of routine coagulation parameters (international normalised ratio, activated partial thromboplastin time and fibrinogen) at room temperature |
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