SIST EN 12822:2014
(Main)Foodstuffs - Determination of vitamin E by high performance liquid chromatography - Measurement of α-, β-, γ- and δ-tocopherol
Foodstuffs - Determination of vitamin E by high performance liquid chromatography - Measurement of α-, β-, γ- and δ-tocopherol
This European Standard specifies a method for the determination of Vitamin E in food by high performance liquid chromatography (HPLC). The determination of Vitamin E content is carried out by measurement of alpha, beta-, gamma- and delta-tocopherol. This method has been validated in two interlaboratory studies. The first study was for the analysis of alpha-tocopherol in margarine and milkpowder ranging from 9,89 mg/100 g to 24,09 mg/100 g. The second study was for the analysis of alpha-, beta-, delta- and gamma-tocopherol in milkpowder and of alpha- and beta-tocopherol in oatspowder ranging from 0,057 mg/100g (beta tocopherol) to 10,2 mg/100 g (alpha-tocopherol). The vitamin E activity can be calculated from the tocopherol content assuming appropriate factors as given in the introduction.
Lebensmittel - Bestimmung von Vitamin E mit Hochleistungs-Flüssigchromatographie - Bestimmung von α-, β-, γ- und δ-Tocopherol
Diese Europäische Norm legt ein Verfahren zur Bestimmung von Vitamin E in Lebensmitteln mit Hochleistungs-Flüssigchromatographie (HPLC) fest. Die Bestimmung des Vitamin E-Gehalts erfolgt anhand der Bestimmung von -, -, - und -Tocopherol. Diese Bestimmung wurde in 2 Ringversuchen validiert. Im ersten Ringversuch wurde auf Tocopherol in Margarine und Milchpulver von 9,89 mg/100 g bis 24,09 mg/100 g untersucht. Im zweiten Ringversuch wurde -, -, - und -Tocopherol in Milchpulver und - und -Tocopherol in Haferpulver von 0,057 mg/100 g (-Tocopherol) bis 10,2 mg/100 g (-Tocopherol) untersucht.
Die Vitamin E-Aktivität kann aus den Tocopherolgehalten unter Verwendung geeigneter Faktoren, auf die in der Einleitung verwiesen wird, berechnet werden.
Produits alimentaires - Dosage de la vitamine E par chromatographie liquide haute performance - Dosage des α-, β-, γ- et δ-tocophérols
La présente Norme européenne spécifie une méthode de dosage de la vitamine E présente dans les produits alimentaires par chromatographie liquide haute performance (CLHP). La détermination de la teneur en vitamine E est effectuée par dosage des α-, β-, γ- et δ-tocophérols. Cette méthode a été validée lors de deux essais interlaboratoires. Le premier essai concernait l’analyse de l’-tocophérol dans la margarine et le lait en poudre, entre 9,89 mg/100 g et 24,09 mg/100 g. Le deuxième essai s’appliquait à l’analyse des -, -, γ- et δ tocophérols dans le lait en poudre et des - et β-tocophérols dans la poudre d’avoine, entre 0,057 mg/100 g (β tocophérol) et 10,2 mg/100 g (-tocophérol).
L'activité de la vitamine E peut être calculée à partir de la teneur en tocophérol, en utilisant les facteurs appropriés tels que mentionnés dans l'introduction.
Živila - Določevanje vitamina E s tekočinsko kromatografijo visoke ločljivosti - Merjenje α-, β-, γ- in δ-tokoferolov
Ta evropski standard določa metodo za določanje vitamina E v živilih s tekočinsko kromatografijo visoke ločljivosti (HPLC). Določanje vsebnosti vitamina E poteka z merjenjem α-, β-, γ- in δ-tokoferolov. Ta metoda je bila validirana z dvema medlaboratorijskima študijama. Prva študija je bila namenjena analizi α-tokoferolov v margarini in mleku v prahu, ki sta vsebovala od 9,89 mg/100 g do 24,09 mg/100 g α-tokoferolov. Druga študija je bila namenjena analizi α-, β-, γ- in δ-tokoferolov v mleku v prahu ter α- in β-tokoferolov v ovsu v prahu, ki sta vsebovala 0,057 mg/100 g β-tokoferolov do 10,2 mg/100 g α-tokoferolov. OPOMBA Aktivnost vitamina E je mogoče izračunati iz količine tokoferolov, če veljajo ustrezni dejavniki iz [1], [2], [3] in [4].
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2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.67.050Splošne preskusne in analizne metode za živilske proizvodeGeneral methods of tests and analysis for food productsICS:Ta slovenski standard je istoveten z:EN 12822:2014SIST EN 12822:2014en,fr,de01-september-2014SIST EN 12822:2014SLOVENSKI
STANDARDSIST EN 12822:20001DGRPHãþD
SIST EN 12822:2014
EUROPEAN STANDARD NORME EUROPÉENNE EUROPÄISCHE NORM
EN 12822
June 2014 ICS 67.050 Supersedes EN 12822:2000
English Version
Foodstuffs - Determination of vitamin E by high performance liquid chromatography - Measurement of $-, ß-, - and /-tocopherol
Produits alimentaires - Détermination de la teneur en vitamine E par chromatographie liquide haute performance - Dosage des $-, ß-, - et /-tocophérols
Lebensmittel - Bestimmung von Vitamin E mit Hochleistungs-Flüssigchromatographie - Bestimmung von $-, ß-, - und /-Tocopherol This European Standard was approved by CEN on 17 April 2014.
CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this European Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC Management Centre has the same status as the official versions.
CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
CEN-CENELEC Management Centre:
Avenue Marnix 17,
B-1000 Brussels © 2014 CEN All rights of exploitation in any form and by any means reserved worldwide for CEN national Members. Ref. No. EN 12822:2014 E SIST EN 12822:2014
EN 12822:2014 (E) 2 Contents Page Foreword .3 Introduction .4 1 Scope .5 2 Normative references .5 3 Principle .5 4 Reagents .5 5 Apparatus .8 6 Procedure .9 7 Calculation . 11 8 Precision . 11 9 Test report . 12 Annex A (informative)
Examples of HPLC chromatograms . 14 Annex B (informative)
Precision data . 16 Annex C (informative)
Alternative HPLC systems . 18 Bibliography . 19
SIST EN 12822:2014
EN 12822:2014 (E) 3 Foreword This document (EN 12822:2014) has been prepared by Technical Committee CEN/TC 275 “Food analysis - Horizontal methods”, the secretariat of which is held by DIN. This European Standard shall be given the status of a national standard, either by publication of an identical text or by endorsement, at the latest by December 2014 and conflicting national standards shall be withdrawn at the latest by December 2014. Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights. CEN [and/or CENELEC] shall not be held responsible for identifying any or all such patent rights. This document supersedes EN 12822:2000. Annexes A, B and C are informative. According to the CEN-CENELEC Internal Regulations, the national standards organizations of the following countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and the United Kingdom. WARNING — The use of this standard can involve hazardous materials, operations and equipment. This standard does not purport to address all the safety problems associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use. SIST EN 12822:2014
EN 12822:2014 (E) 4 Introduction This European Standard provides the base for the analytical methods. It is intended to serve as a frame in which the analyst can define his own analytical work in accordance to the standard procedure. As the method in this European ptandard deals with the measurement of the mass fraction of .--- and i-tocopherol in food, reference is made to the literature for the calculation and expression of the vitamin E content in terms of biological activities. For further information see [1], [2], [3] and [4]. The differentiation of RRR-tocopherol and all racemic tocopherols is not possible with this method. SIST EN 12822:2014
EN 12822:2014 (E) 5 1 Scope This European Standard specifies a method for the determination of vitamin E in foods by high performance liquid chromatography (HPLC). The determination of vitamin E content is carried out by measurement of .-, -- and i-tocopherol. This method has been validated in two interlaboratory studies. The first study was for the analysis of .-tocopherol in margarine and milk powder ranging from 9,89 mg/100 g to 24,09 mg/100 g. The second study was for the analysis of .--- and i-tocopherol in milk powder and of .--tocopherol in oat powder ranging from 0,057 mg/100 -tocopherol) to 10,2 mg/100 g E.-tocopherol). NOTE The vitamin E activity can be calculated from the tocopherol content assuming appropriate factors as given in [1], [2], [3] and [4]. 2 Normative references The following documents, in whole or in part, are normatively referenced in this document and are indispensable for its application. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. EN ISO 3696, Water for analytical laboratory use - Specification and test methods (ISO 3696) 3 Principle .--- and i-tocopherol are determined in a sample solution by HPLC separation and subsequent photometric (UV-range) or preferably fluorometric detection. In most cases a saponification of the test material followed by an extraction is necessary. Identification is carried out on the basis of retention times and quantitative determination by the external standard method using peak areas of peak heights. Internal standard methods can also be used if the corresponding recovery tests have proven the same behaviour of the internal standard during the analysis as the analyte itself, for more information see [4] to [14]. NOTE Using normal phase columns, the separation of tocopherols and tocotrienols is also feasible. 4 Reagents During the analysis, unless otherwise stated, use only reagents of recognized analytical grade and water of at least grade 1 according to EN ISO 3696. 4.1 Methanol. 4.2 Ethanol absolute, volume fraction 3(C2H5OH) = 100 %. 4.3 Ethanol, 3(C2H5OH) = 96 %. 4.4 Sodium sulfate, anhydrous. 4.5 KOH solution, for saponification, in suitable mass concentrations, for example (KOH) = 50 g/100 ml or (KOH) = 60 g/100 ml or alcoholic solutions, for example 28 g of KOH in 100 ml of a mixture of 9 parts per volume of ethanol and 1 part per volume of water. 4.6 Antioxidants, such as ascorbic acid (AA), sodium ascorbate, pyrogallol, sodium sulfide (Na2S), hydroquinone or butylated hydroxytoluene (BHT). SIST EN 12822:2014
EN 12822:2014 (E) 6 4.7 Solvents and extraction solvents, such as diethyl ether (peroxide free), dicholormethane, light petroleum (boiling range of 40 °C to 60 °C), n-hexane, ethylacetate or appropriate mixtures thereof. 4.8 HPLC mobile phase, appropriate mixtures expressed as volume fractions of for example 3 % 1,4-dioxane or 0,5 % 2-propanol, 3 % tert-butyl methyl ether in n-hexane or n-heptane for normal phase chromatography (NP) or 1 % to 10 % water in methanol for reversed phase chromatography (RP). For alternative HPLC systems, see Annex C. 4.9 Standard substances 4.9.1 General -- and i-tocopherol can be obtained from Calbiochem1) .-tocopherol can be obtained from various suppliers. The purity of the tocopherol standards can vary between 90 % and 100 %. It is therefore necessary to determine the concentration of the calibration solution by UV spectrometry (for purity tests, see 4.10.5). 4.9.2 .-tocopherol, M(C29H50O2) = 430,7 g/mol, with a known mass fraction of at least 95 %. .-tocopherol acetate, M(C31H52O3) = 472,7 g/mol, may also be used as standard after saponification. 4.9.3 -tocopherol, M(C28H48O2) = 416,7 g/mol, with a known mass fraction of at least 90 %. 4.9.4 -tocopherol, M(C28H48O2) = 416,7 g/mol, with a known mass fraction of at least 90 %. 4.9.5 i-tocopherol, M(C27H46O2) = 402,6 g/mol, with a known mass fraction of at least 90 %. 4.10 Stock solutions 4.10.1 .-tocopherol stock solution teighf to the nearest milligramf an amount of the .-tocopherol standard substance (4.9.2), e.g. approximately 10 mg, and dissolve it in a defined volume, e.g. 100 ml, of an appropriate solvent, e.g. n-hexane for a NP system or methanol for a RP system. 4.10.2 -tocopherol stock solution -tocopherol standard substance (4.9.3), e.g. approximately 10 mg, and dissolve it in a defined volume, e.g. 100 ml, of an appropriate solvent, e.g. n-hexane for a NP system or methanol for a RP system. 4.10.3 -tocopherol stock solution -tocopherol standard substance (4.9.4), e.g. approximately 10 mg, and dissolve it in a defined volume, e.g. 100 ml, of an appropriate solvent, e.g. n-hexane for a NP system or methanol for a RP system. 4.10.4 i-tocopherol stock solution teighf to the nearest milligramf an amount of the i-tocopherol standard substance (4.9.5), e.g. approximately 10 mg, and dissolve it in a defined volume, e.g. 100 ml, of an appropriate solvent, e.g. n-hexane for a NP system or methanol for a RP system.
1) This information is given for convenience of users of this European Standard and does not and does not constitute and endorsement by CEN. Equivalent products may be used if they can be shown to lead to the same results. SIST EN 12822:2014
EN 12822:2014 (E) 7 4.10.5 Concentration and purity tests Measure the absorbance of the stock solutions (4.10.1 to 4.10.4) at the appropriate wavelength using an UV spectrometer (5.1). If the solvent used is n-hexane, pipette 10 ml of the stock solution into an amber glass round bottomed flask and remove the solvent using a rotary evaporator (5.2) under reduced pressure at a temperature not higher than 50 °C. After restoring atmospheric pressure with nitrogen, remove the flask and dissolve the residue in 10 ml of methanol by swirling. Take this solution for the spectrometric measurement. Calculate the mass concentration of vitamin E, f of the respective of .-, -- and i-tocopherol, in micrograms per millilitre by using Formula (1): ερ0001⋅⋅=MA (1) where A is the absorption value of each tocopherol in the respective stock solution in methanol; 0 is the molar absorption coefficient in methanol in l x mol−1 x cm−1 at the specific wavelength as given in Table 1; M is the molar mass, in grams per mol, of each tocopherol as given in Table 1. Table 1 — Examples for %11cmEvalues and calculated 0 Substance Wavelength (in methanol) %11cnE Molar mass (in g ∙ mol−1) 0 Ein l ∙ mol−1 ∙ cm−1) Reference .-tocopherol 292 nm 76 430,7 3 273,3 [12], [13], [15] -tocopherol 296 nm 89 416,7 3 708,6 [12], [13], [15] -tocopherol 298 nm 91 416,7 3 782 [12], [13], [15] i-tocopherol 298 nm 87 402,6 3 502,6 [12], [13], [15] fn addition to the value for .-tocopherol obtained at a wavelength of 292 nm, the absorbance at 255 nm (minimum) should also be measured. The ratio at this wavelength should not exceed E255/E292 = 0,18. Otherwise the substance has degraded (for more information see [15]). 4.11 Standard solutions 4.11.1 .-tocopherol standard solution Pipette 10 ml of the .-tocopherol stock solution (4.10.1) into a one-mark 100 ml volumetric flask and dilute to the mark with the appropriate solvent (for NP e.g. n-hexane, for RP e.g. methanol). The standard solution should have a mass concentration of 1
-tocopherol. If an UV-detector is used to monitor the chromatography, a more concentrated solution shall be used. The standard solution shall be stored protected from light and at a temperature below 4 °C and should be checked as described in 4.10.5. 4.11.2 ptandard solution of a mixture of .--- and i-tocopherol Pipette e.g. 10 ml of each of the stock solutions (4.10) into a one-mark 100 ml volumetric flask and dilute to the mark with the appropriate solvent (for NP e.g. n-hexane, for RP e.g. methanol). The standard solution should have a mass concentration of 1
SIST EN 12822:2014
EN 12822:2014 (E) 8 The standard solution shall be stored protected from light and at a temperature below 4 °C and should be checked as described in 4.10.5. 5 Apparatus Usual laboratory apparatus and, in particular, the following. 5.1 UV spectrometer, capable of measuring absorbances at defined wavelengths, with appropriate cells, e.g. of 1 cm path length. 5.2 Rotary evaporator, with water bath and vacuum unit. The use of nitrogen is recommended for releasing the vacuum. 5.3 HPLC system HPLC system consisting of a pump, a sample injecting device, a fluorescence detector with an excitation wavelength set at 295 nm and an emission wavelength set at 330 nm and an evaluation system such as an integrator. An UV detector may be used. The wavelength shall be set at 292 nm. In this case the standard and the sample solution should be more concentrated. In addition, the possibility of the detection of interfering compounds is increased. 5.4 HPLC column Analytical normal phase column, e.g. diameter of 4,0 mm to 4,6 mm, length of 100 mm to 250 mm, filled with silica, particle size 5 Standard may be used. Separation parameters shall be adapted to such materials to guarantee equivalent results. The performance criterion for suitable analytical columns is the baseline resolution of the analytes concerned. Suitable silica column packaging materials are Lichrosorb® Si 602), Spherisorb® Si2), Hypersil® Si2) and Lichrospher® 100 DIOL2). Analytical reversed phase columns, e.g. C18, particle size of 5 er of 4,0 mm to 4,6 mm, length of 100 mm to 250 mm may also be used. Suitable RP column packaging materials are Spherisorb® ODS2) and Hypersil® ODS2)--tocopherol. However, these columns may be used for the quantification of .- and i-- + -tocopherol. 5.5 Filter device Large and small scale filter devices to filter HPLC mobile phases and sample solutions respectively, e.g. of pore size of 0,45 te. NOTE Filtering of the mobile phase as well as of the sample test solution through a membrane filter prior to use or injection usually increases longevity of the columns. 5.6 Phase separation filter (optional).
2) Lichrosorb® Si 60, Spherisorb® Si, Hypersil® Si, Lichrospher® 100 DIOL, Spherisorb® ODS and Hypersil® ODS are examples of suitable products available commercially. This information is given for the convenience of users of this European Standard and does not constitute an endorsement by CEN. SIST EN 12822:2014
EN 12822:2014 (E) 9 6 Procedure 6.1 Preparation of the test sample Homogenize the test sample. Grind coarse material with an appropriate mill and mix again. Measures shall be taken to avoid exposing the sample to high temperatures for longer periods of time. 6.2 Preparation of the sample test solution 6.2.1 Precautions It is important that the sample test solutions are protected from light prior to analysis. 6.2.2 Oil and fat samples with low water content containing unesterified tocopherols 6.2.2.1 Oil and fat with low water content This procedure is applicable only to samples containing unesterified tocopherols. If this is not the case, proceed according to 6.2.3. Weigh 2 g of the test sample to the nearest 1 mg into a one-mark 25 ml volumetric flask. Add n-hexane or another appropriate solvent (4.7) and dissolve the test portion by swirling. Sonication of the solution can support the dissolution process. Dilute to the mark with the same solvent. This sample test solution shall be used only on NP systems. It may be necessary to dilute this solution further prior to chromatography or to use a smaller sample mass. 6.2.2.2 Margarine and butter The isolation of fat is necessary for margarine and butter prior to the dilution step. It can be performed e.g. by mixing the sample with anhydrous sodium sulfate (4.4), adding n-hexane (4.7) and treating the mixture in an ultrasonic bath. Filter off the solids and wash at least two times with n-hexane. Remove the solvent using a rotary evaporator (5.2) and reduced pressure, dissolve the residue in a defined volume of n-hexane and quantify by NP HPLC. 6.2.3 Other samples 6.2.3.1 Saponification Saponify 2 g to 10 g of the test sample by refluxing preferably under nitrogen using suitable amounts of ethanol (4.3) or methanol (4.1), water, an antioxidant such as ascorbic acid, hydroquinone, pyrogallol or BHT (4.6) and potassium hydroxide solution (4.5). Add alcohol and antioxidants to the sampl
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