Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2018, Cilt: 3 Sayı: 4, 60 - 67, 31.12.2018

Öz

Kaynakça

  • 1. Latino-Martel P, Cottet V, Druesne-Pecollo N, Pierre FH, Touillaud M, Touvier M, et al. Alcoholic beverages, obesity, physical activity and other nutritional factors, and cancer risk: A review of the evidence. Critical reviews in oncology/hematology. 2016;99:308-23.
  • 2. Saracevic A, Simundic AM, Dukic L. The stability of ethanol in unstoppered tubes. Clinical biochemistry. 2014;47(1-2):92-5.
  • 3. Zamengo L, Frison G, Tedeschi G, Frasson S. Forensic-metrological considerations on assessment of compliance (or non-compliance) in forensic blood alcohol content determinations: A case study with software application. Forensic science international. 2016;265:144-52.
  • 4. Khiabani HZ, Christophersen AS, Morland J. [Routines upon suspicion of driving under influence]. Tidsskrift for den Norske laegeforening : tidsskrift for praktisk medicin, ny raekke. 2007;127(5):618-9.
  • 5. Sleet DA, Mercer SL, Cole KH, Shults RA, Elder RW, Nichols JL. Scientific evidence and policy change: lowering the legal blood alcohol limit for drivers to 0.08% in the USA. Global health promotion. 2011;18(1):23-6.
  • 6. Murphy B. Motor accidents and blood samples in New South Wales. Journal of law and medicine. 2008;15(4):644-53.
  • 7. Sklerov JH, Couper FJ. Calculation and verification of blood ethanol measurement uncertainty for headspace gas chromatography. Journal of analytical toxicology. 2011;35(7):402-10.
  • 8. Plebani M. Errors in clinical laboratories or errors in laboratory medicine? Clinical chemistry and laboratory medicine. 2006;44(6):750-9.
  • 9. Alsina MJ, Alvarez V, Barba N, Bullich S, Cortes M, Escoda I, et al. Preanalytical quality control program - an overview of results (2001-2005 summary). Clinical chemistry and laboratory medicine. 2008;46(6):849-54.
  • 10. Winek CL, Paul LJ. Effect of short-term storage conditions on alcohol concentrations in blood from living human subjects. Clinical chemistry. 1983;29(11):1959-60.
  • 11. Winek T, Winek CL, Wahba WW. The effect of storage at various temperatures on blood alcohol concentration. Forensic science international. 1996;78(3):179-85.
  • 12. Penetar DM, McNeil JF, Ryan ET, Lukas SE. Comparison among plasma, serum, and whole blood ethanol concentrations: impact of storage conditions and collection tubes. Journal of analytical toxicology. 2008;32(7):505-10.
  • 13. Kocak FE, Isiklar OO, Kocak H, Meral A. Comparison of blood ethanol stabilities in different storage periods. Biochemia medica. 2015;25(1):57-63.
  • 14. Mies GW, Verweij KJH, Treur JL, Ligthart L, Fedko IO, Hottenga JJ, et al. Polygenic risk for alcohol consumption and its association with alcohol-related phenotypes: Do stress and life satisfaction moderate these relationships? Drug and alcohol dependence. 2018;183:7-12.
  • 15. Zailer E, Diehl BW. Alternative determination of blood alcohol concentration by (1)H NMR spectroscopy. Journal of pharmaceutical and biomedical analysis. 2016;119:59-64.
  • 16. Brown GA, Neylan D, Reynolds WJ, Smalldon KW. The stability of ethanol in stored blood. I. Important variables and interpretation of results. Analytica chimica acta. 1973;66(2):271-83.
  • 17. Kristoffersen L, Stormyhr LE, Smith-Kielland A. Headspace gas chromatographic determination of ethanol: the use of factorial design to study effects of blood storage and headspace conditions on ethanol stability and acetaldehyde formation in whole blood and plasma. Forensic science international. 2006;161(2-3):151-7.
  • 18. Westland JL, Dorman FL. Comparison of SPME and static headspace analysis of blood alcohol concentration utilizing two novel chromatographic stationary phases. Forensic science international. 2013;231(1-3):e50-6.
  • 19. Orton DJ, Boyd JM, Affleck D, Duce D, Walsh W, Seiden-Long I. One-step extraction and quantitation of toxic alcohols and ethylene glycol in plasma by capillary gas chromatography (GC) with flame ionization detection (FID). Clinical biochemistry. 2016;49(1-2):132-8.
  • 20. Barnhill MT, Jr., Herbert D, Wells DJ, Jr. Comparison of hospital laboratory serum alcohol levels obtained by an enzymatic method with whole blood levels forensically determined by gas chromatography. Journal of analytical toxicology. 2007;31(1):23-30.
  • 21. Charlebois RC, Corbett MR, Wigmore JG. Comparison of ethanol concentrations in blood, serum, and blood cells for forensic application. Journal of analytical toxicology. 1996;20(3):171-8.
  • 22. Jones AW. Are changes in blood-ethanol concentration during storage analytically significant? Importance of method imprecision. Clinical chemistry and laboratory medicine. 2007;45(10):1299-304.

Storage Conditions for Blood Samples, for Later Analysis in Criminal Prosecution

Yıl 2018, Cilt: 3 Sayı: 4, 60 - 67, 31.12.2018

Öz

Backround: Aim
of this study was to demonstrate the stability of blood–ethanol concentration
over a storage period. The precise storage time during which ethanol can be
reliably measured in frozen blood samples is unknown. 

Materials and Methods: In study A, samples were thawed and reanalyzed for ethanol
content; their storage time since the first analysis ranged from one to 295
days. The percent difference between the first and second ethanol measurements
was calculated as lost ethanol (%). For study B, the ethanol concentrations of
34 samples were measured within 180 days of, and at a randomly selected
interval from, the working day. 

Results: In
study A, the calculated lost ethanol values ranged from 1% to 30%. There was no
correlation between the calculated ethanol values and the measures on the
second ethanol analysis day. A significant difference was detected between the
two analyses in study B (p: 0.01).







Conclusions: It
was concluded that blood samples to be analyzed for ethanol concentration can
be stored at –80°C for many months, with no loss of concentration provided that
analysis is undertaken as promptly as possible and blood samples are frozen as
soon after collection as possible.

Kaynakça

  • 1. Latino-Martel P, Cottet V, Druesne-Pecollo N, Pierre FH, Touillaud M, Touvier M, et al. Alcoholic beverages, obesity, physical activity and other nutritional factors, and cancer risk: A review of the evidence. Critical reviews in oncology/hematology. 2016;99:308-23.
  • 2. Saracevic A, Simundic AM, Dukic L. The stability of ethanol in unstoppered tubes. Clinical biochemistry. 2014;47(1-2):92-5.
  • 3. Zamengo L, Frison G, Tedeschi G, Frasson S. Forensic-metrological considerations on assessment of compliance (or non-compliance) in forensic blood alcohol content determinations: A case study with software application. Forensic science international. 2016;265:144-52.
  • 4. Khiabani HZ, Christophersen AS, Morland J. [Routines upon suspicion of driving under influence]. Tidsskrift for den Norske laegeforening : tidsskrift for praktisk medicin, ny raekke. 2007;127(5):618-9.
  • 5. Sleet DA, Mercer SL, Cole KH, Shults RA, Elder RW, Nichols JL. Scientific evidence and policy change: lowering the legal blood alcohol limit for drivers to 0.08% in the USA. Global health promotion. 2011;18(1):23-6.
  • 6. Murphy B. Motor accidents and blood samples in New South Wales. Journal of law and medicine. 2008;15(4):644-53.
  • 7. Sklerov JH, Couper FJ. Calculation and verification of blood ethanol measurement uncertainty for headspace gas chromatography. Journal of analytical toxicology. 2011;35(7):402-10.
  • 8. Plebani M. Errors in clinical laboratories or errors in laboratory medicine? Clinical chemistry and laboratory medicine. 2006;44(6):750-9.
  • 9. Alsina MJ, Alvarez V, Barba N, Bullich S, Cortes M, Escoda I, et al. Preanalytical quality control program - an overview of results (2001-2005 summary). Clinical chemistry and laboratory medicine. 2008;46(6):849-54.
  • 10. Winek CL, Paul LJ. Effect of short-term storage conditions on alcohol concentrations in blood from living human subjects. Clinical chemistry. 1983;29(11):1959-60.
  • 11. Winek T, Winek CL, Wahba WW. The effect of storage at various temperatures on blood alcohol concentration. Forensic science international. 1996;78(3):179-85.
  • 12. Penetar DM, McNeil JF, Ryan ET, Lukas SE. Comparison among plasma, serum, and whole blood ethanol concentrations: impact of storage conditions and collection tubes. Journal of analytical toxicology. 2008;32(7):505-10.
  • 13. Kocak FE, Isiklar OO, Kocak H, Meral A. Comparison of blood ethanol stabilities in different storage periods. Biochemia medica. 2015;25(1):57-63.
  • 14. Mies GW, Verweij KJH, Treur JL, Ligthart L, Fedko IO, Hottenga JJ, et al. Polygenic risk for alcohol consumption and its association with alcohol-related phenotypes: Do stress and life satisfaction moderate these relationships? Drug and alcohol dependence. 2018;183:7-12.
  • 15. Zailer E, Diehl BW. Alternative determination of blood alcohol concentration by (1)H NMR spectroscopy. Journal of pharmaceutical and biomedical analysis. 2016;119:59-64.
  • 16. Brown GA, Neylan D, Reynolds WJ, Smalldon KW. The stability of ethanol in stored blood. I. Important variables and interpretation of results. Analytica chimica acta. 1973;66(2):271-83.
  • 17. Kristoffersen L, Stormyhr LE, Smith-Kielland A. Headspace gas chromatographic determination of ethanol: the use of factorial design to study effects of blood storage and headspace conditions on ethanol stability and acetaldehyde formation in whole blood and plasma. Forensic science international. 2006;161(2-3):151-7.
  • 18. Westland JL, Dorman FL. Comparison of SPME and static headspace analysis of blood alcohol concentration utilizing two novel chromatographic stationary phases. Forensic science international. 2013;231(1-3):e50-6.
  • 19. Orton DJ, Boyd JM, Affleck D, Duce D, Walsh W, Seiden-Long I. One-step extraction and quantitation of toxic alcohols and ethylene glycol in plasma by capillary gas chromatography (GC) with flame ionization detection (FID). Clinical biochemistry. 2016;49(1-2):132-8.
  • 20. Barnhill MT, Jr., Herbert D, Wells DJ, Jr. Comparison of hospital laboratory serum alcohol levels obtained by an enzymatic method with whole blood levels forensically determined by gas chromatography. Journal of analytical toxicology. 2007;31(1):23-30.
  • 21. Charlebois RC, Corbett MR, Wigmore JG. Comparison of ethanol concentrations in blood, serum, and blood cells for forensic application. Journal of analytical toxicology. 1996;20(3):171-8.
  • 22. Jones AW. Are changes in blood-ethanol concentration during storage analytically significant? Importance of method imprecision. Clinical chemistry and laboratory medicine. 2007;45(10):1299-304.
Toplam 22 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Klinik Tıp Bilimleri
Bölüm Araştırma Makaleleri
Yazarlar

Serpil Erdogan 0000-0002-4234-8094

Ozcan Erel

Orhan Sen Bu kişi benim

Gamze Avcioglu Bu kişi benim

Ceylan Bal

Pervin Baran

Yayımlanma Tarihi 31 Aralık 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 3 Sayı: 4

Kaynak Göster

APA Erdogan, S., Erel, O., Sen, O., Avcioglu, G., vd. (2018). Storage Conditions for Blood Samples, for Later Analysis in Criminal Prosecution. Journal of Immunology and Clinical Microbiology, 3(4), 60-67.
AMA Erdogan S, Erel O, Sen O, Avcioglu G, Bal C, Baran P. Storage Conditions for Blood Samples, for Later Analysis in Criminal Prosecution. J Immunol Clin Microbiol. Aralık 2018;3(4):60-67.
Chicago Erdogan, Serpil, Ozcan Erel, Orhan Sen, Gamze Avcioglu, Ceylan Bal, ve Pervin Baran. “Storage Conditions for Blood Samples, for Later Analysis in Criminal Prosecution”. Journal of Immunology and Clinical Microbiology 3, sy. 4 (Aralık 2018): 60-67.
EndNote Erdogan S, Erel O, Sen O, Avcioglu G, Bal C, Baran P (01 Aralık 2018) Storage Conditions for Blood Samples, for Later Analysis in Criminal Prosecution. Journal of Immunology and Clinical Microbiology 3 4 60–67.
IEEE S. Erdogan, O. Erel, O. Sen, G. Avcioglu, C. Bal, ve P. Baran, “Storage Conditions for Blood Samples, for Later Analysis in Criminal Prosecution”, J Immunol Clin Microbiol, c. 3, sy. 4, ss. 60–67, 2018.
ISNAD Erdogan, Serpil vd. “Storage Conditions for Blood Samples, for Later Analysis in Criminal Prosecution”. Journal of Immunology and Clinical Microbiology 3/4 (Aralık 2018), 60-67.
JAMA Erdogan S, Erel O, Sen O, Avcioglu G, Bal C, Baran P. Storage Conditions for Blood Samples, for Later Analysis in Criminal Prosecution. J Immunol Clin Microbiol. 2018;3:60–67.
MLA Erdogan, Serpil vd. “Storage Conditions for Blood Samples, for Later Analysis in Criminal Prosecution”. Journal of Immunology and Clinical Microbiology, c. 3, sy. 4, 2018, ss. 60-67.
Vancouver Erdogan S, Erel O, Sen O, Avcioglu G, Bal C, Baran P. Storage Conditions for Blood Samples, for Later Analysis in Criminal Prosecution. J Immunol Clin Microbiol. 2018;3(4):60-7.

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