Rapid quantification of malondialdehyde in plasma by high performance liquid chromatography–visible detection

Malondialdehyde (MDA) is one of the better-known secondary products of lipid peroxidation, and it is widely used as an indicator of cellular injury. The employment of the thiobarbituric acid reactive substances (TBARS) technique to measure MDA has received criticism over the years because of its lac...

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Bibliographic Details
Published inJournal of pharmaceutical and biomedical analysis Vol. 43; no. 2; pp. 619 - 624
Main Authors Grotto, D., Santa Maria, L.D., Boeira, S., Valentini, J., Charão, M.F., Moro, A.M., Nascimento, P.C., Pomblum, V.J., Garcia, S.C.
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 17.01.2007
Elsevier Science
Subjects
1-Butanol - chemistry
Aged
Alkaline hydrolysis
Analysis
Analytical, structural and metabolic biochemistry
Biological and medical sciences
Brazil
Chromatography, High Pressure Liquid - methods
Female
Fundamental and applied biological sciences. Psychology
General pharmacology
HPLC–VIS
Human plasma
Humans
Hydrolysis
Linear Models
Male
Malondialdehyde - blood
MDA
Medical sciences
n-Butanol extraction
Pharmacology. Drug treatments
Reference Values
Reproducibility of Results
Sensitivity and Specificity
Sodium Hydroxide - chemistry
Solvents - chemistry
Spectrophotometry - methods
Thiobarbiturates - chemistry
Time Factors
Brazil
Alkaline hydrolysis
HPLC–VIS
Human plasma
n-Butanol extraction
MDA
Human
Biological fluid
HPLC chromatography
Butanol
Detection
Quantitative analysis
Blood plasma
HPLC-VIS
Online AccessGet full text
ISSN0731-7085
1873-264X
DOI10.1016/j.jpba.2006.07.030

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Abstract Malondialdehyde (MDA) is one of the better-known secondary products of lipid peroxidation, and it is widely used as an indicator of cellular injury. The employment of the thiobarbituric acid reactive substances (TBARS) technique to measure MDA has received criticism over the years because of its lack of specificity. Thus, a specific and reliable method for MDA determination in plasma by high performance liquid chromatographic (HPLC)–VIS was validated; alkaline hydrolysis, n-butanol extraction steps and MDA stability were established. The plasma underwent alkaline hydrolysis, acid deproteinization, derivatization with TBA and n-butanol extraction. After this, MDA was determined at 532 nm by HPLC–VIS. The method was applied to 65-year-old subjects from a retirement home. The assay was linear from 0.28 to 6.6 μM. The reproducibility of intra-run was obtained with CV% < 4% and the inter run with CV% < 11%. The accuracy (bias) ranged from 2 to −4.1%, and the recovery was greater than 95%. The limit of detection (LOD) and limit of quantification (LOQ) were 0.05 and 0.17 μM, respectively. For the stability test, every sample was stored at −20 °C. The plasma MDA was not stable when stored after the alkaline hydrolysis step, remained stable for 30 days after TBA derivatization storage and was stable for 3 days when stored after n-butanol extraction. The elderly subjects had MDA plasma levels of 4.45 ± 0.81 μM for women and 4.60 ± 0.95 μM for men. The method is reproducible, accurate, stable, sensitive, and can be used in the routines in clinical laboratories. Besides, this technique presents advantages such as the complete release of protein bound MDA with the alkaline hydrolysis step, the removal of interferents with n-butanol extraction, mobile phase without phosphate buffer and rapid analytical processes and run times.
AbstractList Malondialdehyde (MDA) is one of the better-known secondary products of lipid peroxidation, and it is widely used as an indicator of cellular injury. The employment of the thiobarbituric acid reactive substances (TBARS) technique to measure MDA has received criticism over the years because of its lack of specificity. Thus, a specific and reliable method for MDA determination in plasma by high performance liquid chromatographic (HPLC)-VIS was validated; alkaline hydrolysis, n-butanol extraction steps and MDA stability were established.BACKGROUNDMalondialdehyde (MDA) is one of the better-known secondary products of lipid peroxidation, and it is widely used as an indicator of cellular injury. The employment of the thiobarbituric acid reactive substances (TBARS) technique to measure MDA has received criticism over the years because of its lack of specificity. Thus, a specific and reliable method for MDA determination in plasma by high performance liquid chromatographic (HPLC)-VIS was validated; alkaline hydrolysis, n-butanol extraction steps and MDA stability were established.The plasma underwent alkaline hydrolysis, acid deproteinization, derivatization with TBA and n-butanol extraction. After this, MDA was determined at 532 nm by HPLC-VIS. The method was applied to 65-year-old subjects from a retirement home.METHODSThe plasma underwent alkaline hydrolysis, acid deproteinization, derivatization with TBA and n-butanol extraction. After this, MDA was determined at 532 nm by HPLC-VIS. The method was applied to 65-year-old subjects from a retirement home.The assay was linear from 0.28 to 6.6 microM. The reproducibility of intra-run was obtained with CV%<4% and the inter run with CV%<11%. The accuracy (bias) ranged from 2 to -4.1%, and the recovery was greater than 95%. The limit of detection (LOD) and limit of quantification (LOQ) were 0.05 and 0.17 microM, respectively. For the stability test, every sample was stored at -20 degrees C. The plasma MDA was not stable when stored after the alkaline hydrolysis step, remained stable for 30 days after TBA derivatization storage and was stable for 3 days when stored after n-butanol extraction. The elderly subjects had MDA plasma levels of 4.45+/-0.81 microM for women and 4.60+/-0.95 microM for men.RESULTSThe assay was linear from 0.28 to 6.6 microM. The reproducibility of intra-run was obtained with CV%<4% and the inter run with CV%<11%. The accuracy (bias) ranged from 2 to -4.1%, and the recovery was greater than 95%. The limit of detection (LOD) and limit of quantification (LOQ) were 0.05 and 0.17 microM, respectively. For the stability test, every sample was stored at -20 degrees C. The plasma MDA was not stable when stored after the alkaline hydrolysis step, remained stable for 30 days after TBA derivatization storage and was stable for 3 days when stored after n-butanol extraction. The elderly subjects had MDA plasma levels of 4.45+/-0.81 microM for women and 4.60+/-0.95 microM for men.The method is reproducible, accurate, stable, sensitive, and can be used in the routines in clinical laboratories. Besides, this technique presents advantages such as the complete release of protein bound MDA with the alkaline hydrolysis step, the removal of interferents with n-butanol extraction, mobile phase without phosphate buffer and rapid analytical processes and run times.CONCLUSIONThe method is reproducible, accurate, stable, sensitive, and can be used in the routines in clinical laboratories. Besides, this technique presents advantages such as the complete release of protein bound MDA with the alkaline hydrolysis step, the removal of interferents with n-butanol extraction, mobile phase without phosphate buffer and rapid analytical processes and run times.
Malondialdehyde (MDA) is one of the better-known secondary products of lipid peroxidation, and it is widely used as an indicator of cellular injury. The employment of the thiobarbituric acid reactive substances (TBARS) technique to measure MDA has received criticism over the years because of its lack of specificity. Thus, a specific and reliable method for MDA determination in plasma by high performance liquid chromatographic (HPLC)–VIS was validated; alkaline hydrolysis, n-butanol extraction steps and MDA stability were established. The plasma underwent alkaline hydrolysis, acid deproteinization, derivatization with TBA and n-butanol extraction. After this, MDA was determined at 532 nm by HPLC–VIS. The method was applied to 65-year-old subjects from a retirement home. The assay was linear from 0.28 to 6.6 μM. The reproducibility of intra-run was obtained with CV% < 4% and the inter run with CV% < 11%. The accuracy (bias) ranged from 2 to −4.1%, and the recovery was greater than 95%. The limit of detection (LOD) and limit of quantification (LOQ) were 0.05 and 0.17 μM, respectively. For the stability test, every sample was stored at −20 °C. The plasma MDA was not stable when stored after the alkaline hydrolysis step, remained stable for 30 days after TBA derivatization storage and was stable for 3 days when stored after n-butanol extraction. The elderly subjects had MDA plasma levels of 4.45 ± 0.81 μM for women and 4.60 ± 0.95 μM for men. The method is reproducible, accurate, stable, sensitive, and can be used in the routines in clinical laboratories. Besides, this technique presents advantages such as the complete release of protein bound MDA with the alkaline hydrolysis step, the removal of interferents with n-butanol extraction, mobile phase without phosphate buffer and rapid analytical processes and run times.
Malondialdehyde (MDA) is one of the better-known secondary products of lipid peroxidation, and it is widely used as an indicator of cellular injury. The employment of the thiobarbituric acid reactive substances (TBARS) technique to measure MDA has received criticism over the years because of its lack of specificity. Thus, a specific and reliable method for MDA determination in plasma by high performance liquid chromatographic (HPLC)-VIS was validated; alkaline hydrolysis, n-butanol extraction steps and MDA stability were established. The plasma underwent alkaline hydrolysis, acid deproteinization, derivatization with TBA and n-butanol extraction. After this, MDA was determined at 532 nm by HPLC-VIS. The method was applied to 65-year-old subjects from a retirement home. The assay was linear from 0.28 to 6.6 microM. The reproducibility of intra-run was obtained with CV%<4% and the inter run with CV%<11%. The accuracy (bias) ranged from 2 to -4.1%, and the recovery was greater than 95%. The limit of detection (LOD) and limit of quantification (LOQ) were 0.05 and 0.17 microM, respectively. For the stability test, every sample was stored at -20 degrees C. The plasma MDA was not stable when stored after the alkaline hydrolysis step, remained stable for 30 days after TBA derivatization storage and was stable for 3 days when stored after n-butanol extraction. The elderly subjects had MDA plasma levels of 4.45+/-0.81 microM for women and 4.60+/-0.95 microM for men. The method is reproducible, accurate, stable, sensitive, and can be used in the routines in clinical laboratories. Besides, this technique presents advantages such as the complete release of protein bound MDA with the alkaline hydrolysis step, the removal of interferents with n-butanol extraction, mobile phase without phosphate buffer and rapid analytical processes and run times.
Author Santa Maria, L.D.
Charão, M.F.
Nascimento, P.C.
Moro, A.M.
Garcia, S.C.
Pomblum, V.J.
Grotto, D.
Valentini, J.
Boeira, S.
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  givenname: L.D.
  surname: Santa Maria
  fullname: Santa Maria, L.D.
  organization: Department of Clinical and Toxicological Analysis, Federal University of Santa Maria, Santa Maria, C.P. 5061, Campus Universitário, 97110-970 RS, Brazil
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  surname: Boeira
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  organization: Department of Clinical and Toxicological Analysis, Federal University of Santa Maria, Santa Maria, C.P. 5061, Campus Universitário, 97110-970 RS, Brazil
– sequence: 4
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  surname: Valentini
  fullname: Valentini, J.
  organization: Department of Clinical and Toxicological Analysis, Federal University of Santa Maria, Santa Maria, C.P. 5061, Campus Universitário, 97110-970 RS, Brazil
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  surname: Charão
  fullname: Charão, M.F.
  organization: Department of Clinical and Toxicological Analysis, Federal University of Santa Maria, Santa Maria, C.P. 5061, Campus Universitário, 97110-970 RS, Brazil
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  givenname: A.M.
  surname: Moro
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  organization: Department of Clinical and Toxicological Analysis, Federal University of Santa Maria, Santa Maria, C.P. 5061, Campus Universitário, 97110-970 RS, Brazil
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  surname: Nascimento
  fullname: Nascimento, P.C.
  organization: Department of Chemistry, Federal University of Santa Maria, Santa Maria, RS, Brazil
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  fullname: Pomblum, V.J.
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BackLink http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=18429333$$DView record in Pascal Francis
https://www.ncbi.nlm.nih.gov/pubmed/16949242$$D View this record in MEDLINE/PubMed
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Keywords Alkaline hydrolysis
HPLC–VIS
Human plasma
n-Butanol extraction
MDA
Human
Biological fluid
HPLC chromatography
Butanol
Detection
Quantitative analysis
Blood plasma
HPLC-VIS
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Snippet Malondialdehyde (MDA) is one of the better-known secondary products of lipid peroxidation, and it is widely used as an indicator of cellular injury. The...
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SubjectTerms 1-Butanol - chemistry
Aged
Alkaline hydrolysis
Analysis
Analytical, structural and metabolic biochemistry
Biological and medical sciences
Brazil
Chromatography, High Pressure Liquid - methods
Female
Fundamental and applied biological sciences. Psychology
General pharmacology
HPLC–VIS
Human plasma
Humans
Hydrolysis
Linear Models
Male
Malondialdehyde - blood
MDA
Medical sciences
n-Butanol extraction
Pharmacology. Drug treatments
Reference Values
Reproducibility of Results
Sensitivity and Specificity
Sodium Hydroxide - chemistry
Solvents - chemistry
Spectrophotometry - methods
Thiobarbiturates - chemistry
Time Factors
Title Rapid quantification of malondialdehyde in plasma by high performance liquid chromatography–visible detection
URI https://dx.doi.org/10.1016/j.jpba.2006.07.030
https://www.ncbi.nlm.nih.gov/pubmed/16949242
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