The role of ethylenediamine tetraacetic acid (EDTA) as in vitro anticoagulant for diagnostic purposes

Abstract Anticoagulants are used to prevent clot formation both in vitro and in vivo. In the specific field of in vitro diagnostics, anticoagulants are commonly added to collection tubes either to maintain blood in the fluid state for hematological testing or to obtain suitable plasma for coagulation and clinical chemistry analyses. Unfortunately, no universal anticoagulant that could be used for evaluation of several laboratory parameters in a sample from a single test tube is available so far. Ethylenediamine tetraacetic acid (EDTA) is a polyprotic acid containing four carboxylic acid groups and two amine groups with lone-pair electrons that chelate calcium and several other metal ions. Calcium is necessary for a wide range of enzyme reactions of the coagulation cascade and its removal irreversibly prevents blood clotting within the collection tube. Historically, EDTA has been recommended as the anticoagulant of choice for hematological testing because it allows the best preservation of cellular components and morphology of blood cells. The remarkable expansion in laboratory test volume and complexity over recent decades has amplified the potential spectrum of applications for this anticoagulant, which can be used to stabilize blood for a variety of traditional and innovative tests. Specific data on the behavior of EDTA as an anticoagulant in hematology, including possible pitfalls, are presented. The use of EDTA for measuring cytokines, protein and peptides, and cardiac markers is described, with an outline of the protection of labile molecules provided by this anticoagulant. The use of EDTA in proteomics and in general clinical chemistry is also described in comparison with other anticoagulants and with serum samples. Finally, the possible uses of alternative anticoagulants instead of EDTA and the potential use of a universal anticoagulant are illustrated. Clin Chem Lab Med 2007;45:565–76.

[1]  Frank Vitzthum,et al.  Effects of preanalytical variables on peptide and protein measurements in human serum and plasma: implications for clinical proteomics , 2006, Expert review of proteomics.

[2]  Y. Ohno,et al.  Anticoagulant-induced pseudothrombocytopenia occurring after transcatheter arterial embolization for hepatocellular carcinoma. , 2006, Japanese journal of clinical oncology.

[3]  G. Lippi,et al.  Influence of physical exercise and relationship with biochemical variables of NT-pro-brain natriuretic peptide and ischemia modified albumin. , 2006, Clinica chimica acta; international journal of clinical chemistry.

[4]  H. S. Isaksson,et al.  Preanalytical aspects of quantitative TaqMan real-time RT-PCR: applications for TF and VEGF mRNA quantification. , 2006, Clinical biochemistry.

[5]  A. Lazzarin,et al.  The effects of the Roche AMPLICOR HIV-1 MONITOR UltraSensitive Test versions 1.0 and 1.5 viral load assays and plasma collection tube type on determination of response to antiretroviral therapy and the inappropriateness of cross-study comparisons. , 2006, Journal of clinical virology : the official publication of the Pan American Society for Clinical Virology.

[6]  G. Berglund,et al.  Reproducibility and accuracy of measurements of free and total prostate-specific antigen in serum vs plasma after long-term storage at -20 degrees C. , 2006, Clinical chemistry.

[7]  A. Grubb,et al.  Notable steps in obtaining improved estimates for glomerular filtration rate. , 2006, Clinical chemistry.

[8]  J. Cristol,et al.  Heparin plasma sampling as an alternative to EDTA for BNP determination on the Access-Beckman Coulter--effect of storage at -20 degrees C. , 2006, Clinical laboratory.

[9]  G. Lippi,et al.  Stability of blood cell counts, hematologic parameters and reticulocytes indexes on the Advia A120 hematologic analyzer. , 2005, The Journal of laboratory and clinical medicine.

[10]  J. Barrett,et al.  Influences of blood sample processing on low-molecular-weight proteome identified by surface-enhanced laser desorption/ionization mass spectrometry. , 2005, Clinical chemistry.

[11]  P. Twomey,et al.  Differences between serum and plasma for intact parathyroid hormone measurement in patients with chronic renal failure in routine clinical practice , 2005, Journal of Clinical Pathology.

[12]  T. Veenstra,et al.  Analytical and preanalytical biases in serum proteomic pattern analysis for breast cancer diagnosis. , 2005, Clinical chemistry.

[13]  Mario Plebani,et al.  Proteomics: the next revolution in laboratory medicine? , 2005, Clinica chimica acta; international journal of clinical chemistry.

[14]  M. Siloaho,et al.  Pre‐analytical factors and measurement uncertainty , 2005, Scandinavian journal of clinical and laboratory investigation.

[15]  P. Stevens,et al.  Stability of Bio-Intact (1-84) parathyroid hormone ex vivo in serum and EDTA plasma from hemodialysis patients. , 2004, Clinical chemistry.

[16]  T. Mueller,et al.  Long-term stability of endogenous B-type natriuretic peptide (BNP) and amino terminal proBNP (NT-proBNP) in frozen plasma samples , 2004, Clinical chemistry and laboratory medicine.

[17]  P. Collinson,et al.  Multicenter analytical performance evaluation of the Elecsys® proBNP assay , 2004, Clinical chemistry and laboratory medicine.

[18]  A. Bernkop‐Schnürch,et al.  Synthesis and In Vitro Evaluation of Chitosan-EDTA-Protease-Inhibitor Conjugates Which Might Be Useful in Oral Delivery of Peptides and Proteins , 1998, Pharmaceutical Research.

[19]  Martial Saugy,et al.  Time and temperature dependant changes in red blood cell analytes used for testing recombinant erythropoietin abuse in sports. , 2004, Clinical laboratory.

[20]  A. Wu,et al.  Multicenter evaluation of the Roche NT-proBNP assay and comparison to the Biosite Triage BNP assay. , 2003, Clinica chimica acta; international journal of clinical chemistry.

[21]  G. Banfi,et al.  Preanalytical phase of sport biochemistry and haematology. , 2003, The Journal of sports medicine and physical fitness.

[22]  Y. Lo,et al.  Stability of endogenous and added RNA in blood specimens, serum, and plasma. , 2002, Clinical chemistry.

[23]  H. Wisser,et al.  Die Qualität diagnostischer Proben/The Quality of Diagnostic Samples , 2002 .

[24]  H. Wisser,et al.  Die Qualität diagnostischer Proben , 2002 .

[25]  M. Macey,et al.  Evaluation of the anticoagulants EDTA and citrate, theophylline, adenosine, and dipyridamole (CTAD) for assessing platelet activation on the ADVIA 120 hematology system. , 2002, Clinical chemistry.

[26]  D. Davidson,et al.  Effects of contamination of blood specimens with liquid potassium-EDTA anticoagulant , 2002, Annals of clinical biochemistry.

[27]  P. Glendenning,et al.  Parathyroid hormone is more stable in EDTA plasma than in serum. , 2002, Clinical chemistry.

[28]  R. Salomão,et al.  Influence of EDTA and heparin on lipopolysaccharide binding and cell activation, evaluated at single-cell level in whole blood. , 2002, Cytometry.

[29]  K. Melber,et al.  Measurement of hematological, clinical chemistry, and infection parameters from hirudinized blood collected in universal blood sampling tubes. , 2001, Seminars in thrombosis and hemostasis.

[30]  F. Kuralay,et al.  Effect of anticoagulants on plasma homocysteine determination. , 2001, Clinica chimica acta; international journal of clinical chemistry.

[31]  J. Livesey,et al.  Effect of anticoagulants and storage temperatures on stability of plasma and serum hormones. , 2001, Clinical biochemistry.

[32]  M. Busch,et al.  Quantitation of genomic DNA in plasma and serum samples: higher concentrations of genomic DNA found in serum than in plasma , 2001, Transfusion.

[33]  J. Horsti Use of EDTA samples for prothrombin time measurement in patients receiving oral anticoagulants. , 2001, Haematologica.

[34]  S. Humphries,et al.  Effects of sample handling on the stability of interleukin 6, tumour necrosis factor-alpha and leptin. , 2000, Cytokine.

[35]  H. Katus,et al.  Troponin T and I assays show decreased concentrations in heparin plasma compared with serum: lower recoveries in early than in late phases of myocardial injury. , 2000, Clinical chemistry.

[36]  M. Hino,et al.  DX-9065a, a specific factor Xa inhibitor, as a universal anticoagulant for blood collection tubes. , 2000, Clinica chimica acta; international journal of clinical chemistry.

[37]  R. Tedder,et al.  Effects of Handling and Storage of Blood on the Stability of Hepatitis C Virus RNA: Implications for NAT Testing in Transfusion Practice , 2000, Vox Sanguinis.

[38]  B. Strauer,et al.  Sudden onset of EDTA-dependent pseudothrombocytopenia after therapy with the glycoprotein IIb/IIIa antagonist c7E3 Fab , 2000, Annals of Hematology.

[39]  K. Ohta,et al.  Synthetic polymer sulphonated polyisoprene as a universal anticoagulant for laboratory testing , 2000, Journal of clinical laboratory analysis.

[40]  I. Sakurabayashi,et al.  Pseudoleukocytosis without pseudothrombocytopenia induced by the interaction of EDTA and IgG(2)-kappa M-protein. , 2000, Clinica chimica acta; international journal of clinical chemistry.

[41]  M. Yacoub,et al.  Cardiac peptide stability, aprotinin and room temperature: importance for assessing cardiac function in clinical practice. , 1999, Clinical science.

[42]  G. Siest,et al.  Stability of blood homocysteine and other thiols: EDTA or acidic citrate? , 1999, Clinical chemistry.

[43]  T. Hugli,et al.  Possible mechanism for in vitro complement activation in blood and plasma samples: futhan/EDTA controls in vitro complement activation. , 1999, Clinical chemistry.

[44]  M. Gheorghiade,et al.  Standards of laboratory practice: cardiac drug monitoring , 1998 .

[45]  J. Osterloh,et al.  Methodological considerations for the accurate determination of lead in human plasma and serum. , 1998, American journal of industrial medicine.

[46]  H. Itoh,et al.  Immunoradiometric assay for the N-terminal fragment of proatrial natriuretic peptide in human plasma. , 1998, Clinical chemistry.

[47]  S. Loening,et al.  Kind of sample as preanalytical determinant of matrix metalloproteinase 2 and 9 and tissue inhibitor of metalloproteinase 2 in blood. , 1998, Clinical chemistry.

[48]  S. P. Lin,et al.  Effects of anticoagulants in amino acid analysis: comparisons of heparin, EDTA, and sodium citrate in vacutainer tubes for plasma preparation. , 1998, Clinical chemistry.

[49]  M. Privitera,et al.  Standards of laboratory practice: antiepileptic drug monitoring , 1998 .

[50]  Y. Bryson,et al.  Optimization of Specimen-Handling Procedures for Accurate Quantitation of Levels of Human Immunodeficiency Virus RNA in Plasma by Reverse Transcriptase PCR , 1998, Journal of Clinical Microbiology.

[51]  J. Ribera,et al.  Essential monoclonal gammopathy with an IgM paraprotein that is a cryoglobulin with cold agglutinin and EDTA‐dependent platelet antibody properties , 1998, British journal of haematology.

[52]  M. Emdin,et al.  Circulating levels of cardiac natriuretic peptides (ANP and BNP) measured by highly sensitive and specific immunoradiometric assays in normal subjects and in patients with different degrees of heart failure , 1998, Journal of endocrinological investigation.

[53]  M. Lucena,et al.  Variations in blood levels of aminoglycosides related to in vitro anticoagulant usage. , 1998, Therapeutic drug monitoring.

[54]  H. Blom,et al.  Acidic citrate stabilizes blood samples for assay of total homocysteine. , 1998, Clinical chemistry.

[55]  G. Banfi Praanalytik des prostata-spezifischen antigens , 1998 .

[56]  I. Shiojima,et al.  Aminoglycosides prevent and dissociate the aggregation of platelets in patients with EDTA‐dependent pseudothrombocytopenia , 1997, British journal of haematology.

[57]  H. Yasuda,et al.  An EDTA‐associated anti‐B agglutinin: the role of ionized calcium , 1997, Transfusion.

[58]  P. Bartels,et al.  Screening for EDTA-dependent deviations in platelet counts and abnormalities in platelet distribution histograms in pseudothrombocytopenia. , 1997, Scandinavian journal of clinical and laboratory investigation.

[59]  D. Inthorn,et al.  Tumor necrosis factor measurement and use of different anticoagulants: Possible interference in plasma samples and supernatants from endotoxin-stimulated monocytes , 1997, Inflammation Research.

[60]  J. Nielsen,et al.  Plasma malondialdehyde as biomarker for oxidative stress : reference interval and effects of life-style factors , 1996 .

[61]  G. Maurer,et al.  Documented sudden onset of pseudothrombocytopenia , 1997, Annals of Hematology.

[62]  M. Macey,et al.  The Q-Prep system: effects on the apparent expression of leucocyte cell surface antigens. , 1997, Cytometry.

[63]  B. Osterud,et al.  Modulation of Blood Cell Activation by Four Commonly Used Anticoagulants , 1997, Thrombosis and Haemostasis.

[64]  J. Guerrero,et al.  EDTA inhibits in vitro substrate adherence capacity of macrophages: endodontic implications. , 1997, Journal of endodontics.

[65]  A. Lyon,et al.  Use of thrombin inhibitors ex vivo allows critical care clinical chemistry and hematology testing on common specimens. , 1997, Clinical biochemistry.

[66]  O. Heine,et al.  Blood glutathione status following distance running. , 1997, International journal of sports medicine.

[67]  A. Simon,et al.  Plasma and erythrocyte vitamin E content in asymptomatic hypercholesterolemic subjects. , 1997, Clinical chemistry.

[68]  M. Meisner,et al.  Procalcitonin - Influence of Temperature, Storage, Anticoagulation and Arterial or Venous Asservation of Blood Samples on Procalcitonin Concentrations , 1997, European journal of clinical chemistry and clinical biochemistry : journal of the Forum of European Clinical Chemistry Societies.

[69]  J. Oesterling,et al.  In vitro stability of free prostate-specific antigen (PSA) and prostate-specific antigen (PSA) complexed to alpha 1-antichymotrypsin in blood samples. , 1996, Urology.

[70]  I. Cavill,et al.  In vitro stability of the reticulocyte count. , 1996, Clinical and Laboratory Haematology.

[71]  T. Pietrucha,et al.  Molecular insights into the anticoagulant-induced spontaneous activation of platelets in whole blood-various anticoagulants are not equal. , 1996, Thrombosis research.

[72]  G. Barillari,et al.  More on False Thrombocytopenias: EDTA‐Dependent Pseudothrombocytopenia Associated with a Congenital Platelet Release Defect , 1996, Vox sanguinis.

[73]  R. Gräsbeck,et al.  Preanalytical factors and the measurement of cytokines in human subjects , 1996, International journal of clinical & laboratory research.

[74]  T. Eriksson,et al.  Rapid degradation of 3,4-dihydroxyphenylalanine in plasma samples containing ethylenediaminetetraacetic acid. , 1995, Clinica chimica acta; international journal of clinical chemistry.

[75]  W. Fraser,et al.  Differences in the Stability of Intact Osteocalcin in Serum, Lithium Heparin Plasma and EDTA Plasma , 1995, Annals of clinical biochemistry.

[76]  A. Lyon,et al.  D-phenylalanyl-L-prolyl-L-arginine chloromethyl ketone (PPACK): alternative anticoagulant to heparin salts for blood gas and electrolyte specimens. , 1995, Clinical chemistry.

[77]  D. Jacobs,et al.  Stability of carotenoids and alpha-tocopherol during blood collection and processing procedures. , 1995, Clinical chemistry.

[78]  J. Butler Negative interference in immunoassays. , 1995, Clinical chemistry.

[79]  G. Banfi State of the art of preanalysis in laboratories in Italy performing endocrinological tests. , 1995, European journal of clinical chemistry and clinical biochemistry : journal of the Forum of European Clinical Chemistry Societies.

[80]  M. Baccarani,et al.  Incidence and Diagnosis of EDTA‐Dependent Pseudothrombocytopenia in a Consecutive Outpatient Population Referred for Isolated Thrombocytopenia , 1995, Vox sanguinis.

[81]  J. Jespersen,et al.  The protein concentration of blood coagulation factor VII can be measured equally well in plasma and serum. , 1995, Scandinavian journal of clinical and laboratory investigation.

[82]  J. Eckfeldt,et al.  EDTA-plasma vs serum differences in cholesterol, high-density-lipoprotein cholesterol, and triglyceride as measured by several methods. , 1994, Clinical chemistry.

[83]  G. Banfi,et al.  Association of pseudothrombocytopenia and pseudoleukopenia: evidence for different pathogenic mechanisms. , 1994, Scandinavian journal of clinical and laboratory investigation.

[84]  G. Banfi,et al.  In vitro stability of osteocalcin. , 1994, Clinical chemistry.

[85]  C. Brugnara,et al.  Effects of subcutaneous recombinant human erythropoietin in normal subjects: development of decreased reticulocyte hemoglobin content and iron-deficient erythropoiesis. , 1994, The Journal of laboratory and clinical medicine.

[86]  K. Inouye,et al.  Stabilization of human brain natriuretic peptide in blood samples. , 1994, Clinical chemistry.

[87]  R. Verwilghen,et al.  Recommendations of the International Council for Standardization in Haematology for Ethylenediaminetetraacetic Acid Anticoagulation of Blood for Blood Cell Counting and Sizing: International Council for Standardization in Haematology: Expert Panel on Cytometry , 1993 .

[88]  S. Kinlay,et al.  Choice of anticoagulant affects measurement of plasma fibrinogen. , 1993, Clinical chemistry.

[89]  D. Todd,et al.  Apparent heparin interference with restriction enzyme digestion of genomic DNA. , 1993, Clinical chemistry.

[90]  G. Di Maro,et al.  Evidence of a cold immunoglobulin M autoantibody against 78-kD platelet glycoprotein in a case of EDTA-dependent pseudothrombocytopenia. , 1993, American journal of clinical pathology.

[91]  W. Davis ABNORMAL PLATELET AGGREGATION IN ELONGATED SAMPLE BOTTLES , 1993 .

[92]  C. Litz,et al.  Inhibition of restriction endonucleases by common clinical anticoagulants. , 1992, Analytical biochemistry.

[93]  B. Millar,et al.  Influence of collection and separation of blood samples on plasma IL-1, IL-6 and TNF-alpha concentrations. , 1992, Journal of immunological methods.

[94]  R. McLennan,et al.  Clumping of lymphoma cells in peripheral blood induced by EDTA. , 1992, Journal of clinical pathology.

[95]  M. Pandian,et al.  Modified immunoradiometric assay of parathyroid hormone-related protein: clinical application in the differential diagnosis of hypercalcemia. , 1992, Clinical chemistry.

[96]  M. Blajchman,et al.  Pseudopolycythemia, pseudothrombocytopenia, and pseudoleukopenia due to overfilling of blood collection vacuum tubes. , 1992, Archives of pathology & laboratory medicine.

[97]  K. Kario,et al.  Clinical Application of the Synthetic Thrombin Inhibitor, Argatroban (MD-805) , 1992, Seminars in thrombosis and hemostasis.

[98]  G. Marti,et al.  Flow cytometric analysis of whole blood lysis, three anticoagulants, and five cell preparations. , 1992, Cytometry.

[99]  R. Verwilghen,et al.  K2- or K3-EDTA: the anticoagulant of choice in routine haematology? , 2008, Clinical and laboratory haematology.

[100]  H. Lindner,et al.  In vitro stability of human atrial natriuretic peptide (h-ANP). , 1991, Clinica chimica acta; international journal of clinical chemistry.

[101]  J. Sealey Plasma renin activity and plasma prorenin assays. , 1991, Clinical chemistry.

[102]  P. Fottrell,et al.  Osteocalcin concentrations in plasma prepared with different anticoagulants. , 1991, Clinical chemistry.

[103]  E A Trowbridge,et al.  EDTA, the traditional anticoagulant of haematology: with increased automation is it time for a review? , 1991, Medical laboratory sciences.

[104]  C. Hillyer,et al.  EDTA-dependent leukoagglutination. , 1990, American journal of clinical pathology.

[105]  J. Cohen,et al.  Optimal collection of blood samples for the measurement of tumor necrosis factor alpha. , 1990, Cytokine.

[106]  J. Maraganore,et al.  Design and characterization of hirulogs: a novel class of bivalent peptide inhibitors of thrombin. , 1990, Biochemistry.

[107]  G. Wild,et al.  NAFAMOSTAT TO STABILISE PLASMA SAMPLES TAKEN FOR COMPLEMENT MEASUREMENTS , 1989, The Lancet.

[108]  G. Banfi,et al.  EDTA-dependent pseudothrombocytopaenia: a 12-month epidemiological study. , 1988, Scandinavian journal of clinical and laboratory investigation.

[109]  M. Kruskall,et al.  Spurious leukopenia due to in vitro granulocyte aggregation. , 1988, American journal of clinical pathology.

[110]  Z. Zeigler,et al.  Evidence of an anti‐A1 inhibited by EDTA , 1988, Transfusion.

[111]  S. J. Smith,et al.  Standardization of lipid, lipoprotein, and apolipoprotein measurements. , 1988, Clinical chemistry.

[112]  E. Trowbridge,et al.  Automated haematology: a comparative study of cell counting and sizing using aperture impedance and flow cytometric systems. , 1987, Medical laboratory sciences.

[113]  L. Demers,et al.  Critical issues in cyclosporine monitoring: report of the Task Force on Cyclosporine Monitoring. , 1987, Clinical Chemistry.

[114]  E. Trowbridge,et al.  The routine measurement of platelet volume: a comparison of light-scattering and aperture-impedance technologies. , 1985, Clinical physics and physiological measurement : an official journal of the Hospital Physicists' Association, Deutsche Gesellschaft fur Medizinische Physik and the European Federation of Organisations for Medical Physics.

[115]  R. Berninger,et al.  α1-Antitrypsin: The Effect of Anticoagulants on the Trypsin Inhibitory Capacity, Concentration and Phenotype , 1985, Journal of clinical chemistry and clinical biochemistry. Zeitschrift fur klinische Chemie und klinische Biochemie.

[116]  Roger A. Renfrew,et al.  Lipid Research Clinics Program. , 1984, JAMA.

[117]  C. E. Becker The Lipid Research Clinics Coronary Primary Prevention Trial results. I. Reduction in incidence of coronary heart disease. , 1984, JAMA.

[118]  R. Savage Pseudoleukocytosis due to EDTA-induced platelet clumping. , 1984, American journal of clinical pathology.

[119]  R. Pierre,et al.  Pseudothrombocytopenia: a laboratory artifact with potentially serious consequences. , 1984, Mayo Clinic proceedings.

[120]  M. Lapins,et al.  The role of anticoagulation in the measurement of platelet volumes. , 1983, American journal of clinical pathology.

[121]  L. J. Williams,et al.  Platelet size in health and hematologic disease. , 1982, American journal of clinical pathology.

[122]  Borne,et al.  Pseudothrombocytopenia: an immunologic study on platelet antibodies dependent on ethylene diamine tetra-acetate. , 1982, Blood.

[123]  R. Manthorpe,et al.  Pseudothrombocytopenia. In vitro studies on the underlying mechanism. , 2009, Scandinavian journal of haematology.

[124]  M. Hørder,et al.  The stability of blood, plasma and serum constituents during simulated transport. , 1981, Scandinavian journal of clinical and laboratory investigation.

[125]  E. Bruck,et al.  National Committee for Clinical Laboratory Standards. , 1980, Pediatrics.

[126]  L. Hoyer,et al.  Pseudothrombocytopenia caused by platelet agglutinins that are reactive in blood anticoagulated with chelating agents. , 1980, Blood.

[127]  M. R. Halie,et al.  Pseudothrombocytopenia due to agglutinins. , 1979, American journal of clinical pathology.

[128]  S. Karpatkin,et al.  Hypersplenic thrombocytopenia differentiated from increased peripheral destruction by platelet volume. , 1978, Annals of internal medicine.

[129]  M. Mant,et al.  Pseudothrombocytopenia due to platelet aggregation and degranulation in blood collected in EDTA. , 2009, Scandinavian journal of haematology.

[130]  W. Bayer,et al.  A Serum Haemagglutinating Property Dependent upon Polycarboxyl Groups , 1975, British journal of haematology.