SIST EN 14152:2014
(Main)Foodstuffs - Determination of vitamin B2 by high performance liquid chromatography
Foodstuffs - Determination of vitamin B2 by high performance liquid chromatography
EN 14152 specifies a method for the determination of vitamin B2 in food by high performance liquid chromatography (HPLC) and fluorescence detection of riboflavin in whole meal flour, milk powder, mixed vegetables, pig's liver, tube feeding solution, baby food, meal with fruits, yeast, cereal and chocolate powder. This method has been validated in two interlaboratory studies. The first study was for the analysis of samples of milk powder and pig's liver ranging from 1,45 mg/100 g to 10,68 mg/100 g. The second study was for the analysis of samples of tube feeding solution, baby food, powdered milk, meal with fruits, yeast, cereal and chocolate powder ranging from 0,21 mg/100 g to 87,1 mg/100 g. Vitamin B2 is the mass fraction of total riboflavin including its phosphorylated derivatives. For further information on the validation, see Clause 8 and Annex B.
Lebensmittel - Bestimmung von Vitamin B2 mit Hochleistungs-Flüssigchromatographie
Diese Europäische Norm legt ein Verfahren zur Bestimmung von Vitamin B2 in Lebensmitteln mit Hochleistungsflüssigchromatographie (HPLC) und Fluoreszenzdetektion von Riboflavin in Vollkornmehl, Milchpulver, Mischgemüse, Schweineleber, Krankenhausnahrung, Babynahrung, Fertiggerichten mit Früchten, Hefe, Getreide und Schokoladenpulver fest. Diese Bestimmung wurde in zwei Ringversuchen validiert. In dem ersten Ringversuch wurde Milchpulver und Schweineleber mit 1,45 mg/100 g bis 10,68 mg/100 g analysiert. Im zweiten Ringversuch wurde Krankenhausnahrung, Babynahrung, Milchpulver, Fertignahrung mit Früchten, Hefe, Getreide und Schokoladenpulver von 0,21 mg/100 g bis 87,1 mg/100 g untersucht. Vitamin B2 ist der Massenanteil an gesamt Riboflavin einschließlich phosphorylierte Derivate.
Weitere Informationen zur Validierung siehe Abschnitt 8 und Anhang B.
Produits alimentaires - Détermination de la teneur en vitamine B2 par chromatographie liquide haute performance
La présente Norme européenne spécifie une méthode de dosage de la vitamine B2 présente dans les produits alimentaires par chromatographie liquide à haute performance (CLHP) et par détection fluorimétrique de la riboflavine dans de la farine complète, du lait en poudre, des assortiments de légumes, du foie de porc, une solution pour alimentation entérale, un aliment pour bébé, un substitut de repas aux fruits, de la levure, une céréale et du chocolat en poudre. Cette méthode a été validée lors de deux essais interlaboratoires. Le premier essai concernait l’analyse d’échantillons de lait en poudre et de foie de porc allant de 1,45 mg/100 g à 10,68 mg/100 g. Le deuxième essai s’appliquait à l’analyse d’échantillons de solution pour alimentation entérale, d’aliment pour bébé, de lait en poudre, de substitut de repas aux fruits, de levure, de céréale, de chocolat en poudre allant de 0,21 mg/100 g à 87,1 mg/100 g. La vitamine B2 correspond à la fraction massique de riboflavine totale, y compris ses dérivés phosphorylés.
Pour toute information complémentaire concernant la validation, voir l'Article 8 et l'Annexe B.
Živila - Določevanje vitamina B2 s tekočinsko kromatografijo visoke ločljivosti
Standard EN 14152 določa metodo za določevanje vitamina B2 v živilih s tekočinsko kromatografijo visoke ločljivosti (HPLC) in fluorescentno detekcijo riboflavina v polnozrnati moki, mleku v prahu, mešani zelenjavi, prašičjih jetrih, raztopinah za krmljenje, formulah za dojenčke, grobi moki s sadjem, kvasu, žitaricah in čokoladi v prahu. Ta metoda je bila validirana z dvema medlaboratorijskima študijama. Prva študija je bila namenjena analizi vzorcev mleka v prahu in prašičjih jeter, ki vsebujejo od 1,45 mg/100 g to 10,68 mg/100 g vitamina B2. Druga študija je bila namenjena analizi vzorcev raztopin za krmljenje, formul za dojenčke, mleka v prahu, grobe moke s sadjem, kvasa, žitaric in čokolade v prahu, ki vsebujejo od 0,21 mg/100 g do 87,1 mg/100 g vitamina B2. Vitamin B2 je masni delež celotne vrednosti riboflavina, vključno z njegovimi fosforiliranimi derivati. Za več informacij glede validacije glejte točko 8 in dodatek B.
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2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Lebensmittel - Bestimmung von Vitamin B2 mit Hochleistungs-FlüssigchromatographieProduits alimentaires - Détermination de la teneur en vitamine B2 par chromatographie liquide haute performanceFoodstuffs - Determination of vitamin B2 by high performance liquid chromatography67.050Splošne preskusne in analizne metode za živilske proizvodeGeneral methods of tests and analysis for food productsICS:Ta slovenski standard je istoveten z:EN 14152:2014SIST EN 14152:2014en,fr,de01-september-2014SIST EN 14152:2014SLOVENSKI
STANDARDSIST EN 14152:2003/AC:2006SIST EN 14152:20031DGRPHãþD
SIST EN 14152:2014
EUROPEAN STANDARD NORME EUROPÉENNE EUROPÄISCHE NORM
EN 14152
June 2014 ICS 67.050 Supersedes EN 14152:2003English Version
Foodstuffs - Determination of vitamin B2 by high performance liquid chromatography
Produits alimentaires - Détermination de la teneur en vitamine B2 par chromatographie liquide haute performance Lebensmittel - Bestimmung von Vitamin B2 mit Hochleistungs-Flüssigchromatographie 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 14152:2014 ESIST EN 14152:2014
EN 14152:2014 (E) 2 Contents Page Foreword .3 1 Scope .4 2 Normative references .4 3 Principle .4 4 Reagents .4 5 Apparatus .6 6 Procedure .7 7 Calculation .8 8 Precision .9 9 Test report . 10 Annex A (informative)
Examples of HPLC chromatograms . 11 Annex B (informative)
Precision data . 12 Annex C (informative)
Alternatives HPLC systems . 14 Bibliography . 15
SIST EN 14152:2014
EN 14152:2014 (E) 3 Foreword This document (EN 14152:2014) 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 14152:2003. 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 14152:2014
EN 14152:2014 (E) 4 1 Scope This European Standard specifies a method for the determination of vitamin B2 in food by high performance liquid chromatography (HPLC) and fluorescence detection. This method has been validated in two interlaboratory studies. The first study was for the analysis of samples of milk powder and pig's liver ranging from 1,45 mg/100 g to 10,68 mg/100 g. The second study was for the analysis of samples of tube feeding solution, baby food, powdered milk, meal with fruits, yeast, cereal and chocolate powder ranging from 0,21 mg/100 g to 87,1 mg/100 g. Vitamin B2 is the mass fraction of total riboflavin including its phosphorylated derivatives. For further information on the validation, see Clause 8 and Annex B. 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 Riboflavin is extracted from food after acid hydrolysis followed by dephosphorylation using an enzymatic treatment, and separated by HPLC, and detected by fluorometric detection. An external standard is used for quantification. For further information see [1] to [11]. 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, or double distilled water. 4.1 Methanol, mass fraction w(CH3OH) ≥ 99,8 %, HPLC grade. 4.2 Sodium acetate trihydrate, w(CH3COONa · 3H2O) = 99 %. 4.3 Sodium acetate solution, substance concentration c(CH3COONa · 3H2O) = 0,1 mol/l. 4.4 Sodium acetate solution, c(CH3COONa · 3H2O) = 2,5 mol/l. 4.5 Glacial acetic acid, w(CH3COOH) = 99,8 %. 4.6 Acetic acid solution, c(CH3COOH) = 0,02 mol/l. 4.7 Hydrochloric acid, w(HCl) = 36 %. 4.8 Hydrochloric acid, c(HCl) = 0,1 mol/l. 4.9 Hydrochloric acid, c(HCl) = 0,01 mol/l. 4.10 Sulfuric acid, c(H2SO4) = 0,05 mol/l. 4.11 Sodium hydroxide, w(NaOH) ≥ 99 %. SIST EN 14152:2014
EN 14152:2014 (E) 5 4.12 Sodium hydroxide solution, c(NaOH) = 0,5 mol/l. 4.13 Phosphorous pentoxide, w(P2O5) = 98 %. 4.14 Enzyme or enzyme mixture, with the ability to liberate vitamin B2 from foods as free riboflavin. NOTE For the precision data in Table B.1, Taka-Diastase from Pfaltz and Bauer1) has been used. For the precision data in Table B.2 and Table B.3 -amylase from barley and Taka-Diastase from Serva1) have been used. 4.15 HPLC Mobile phase Examples of appropriate mixtures of e.g. 10 % to 50 % methanol (4.1) in water or using phosphate or acetate buffer are given in Annex A and Annex C. The possibility of using ion-pairing agents is also given. 4.16 Phosphate buffer (pH = 3,5), c(KH2PO4) = 9,0 mmol/l. 4.17 Tetraethylammoniumchloride, w(C8H20ONCl) ≥ 98 %. 4.18 Sodium heptanesulfonate, w(C7H15NaO3S) ≥ 98 %. 4.19 Standard substances 4.19.1 Riboflavin, w(C17H20N4O6) = 98 %. Vitamin B2 can be obtained as riboflavin from various suppliers. The purity of the riboflavin standard may vary. It is therefore necessary to determine the concentration of the calibration solution by UV-spectrometry (see concentration test in 4.20.3). 4.19.2 Riboflavin-5’-phosphate, w(C17H20N4NaO9P) = 95 %. Riboflavin-5’-phosphate sodium salt (for check of enzyme and retention time in chromatogram). 4.20 Stock solution 4.20.1 Precautions Vitamin B2 is very sensitive to light. Measures shall be taken to protect the vitamin B2 and the corresponding solutions during the whole sample preparation procedure e.g. by using generally brown glassware. 4.20.2 Riboflavin stock solution, M = 376,36, (C17H20N4O6) ≈ 100
Dissolve an amount of riboflavin standard substance (4.19.1) previously dried and stored in dark in a desiccator possibly under vacuum and/or over phosphorous pentoxide (4.13), weighed to the nearest milligram, e.g. approximately 50 mg in a defined volume, e.g. 500 ml in an appropriate solvent e.g. diluted acetic acid (4.6) using brown volumetric flasks. This solution can be stored at 4 °C in the dark for 2 months. Riboflavin is sparingly soluble. To facilitate dissolution warm with approximately 300 ml diluted acetic acid (4.6), on a steam bath with constant stirring until dissolved, cool and add diluted acetic acid (4.6) to make 500 ml. Alternatively add 5 ml of sodium hydroxide solution (4.12) to the standard substance in a 500 ml volumetric flask. Due to the instability in alkaline solutions immediately after dissolution add 1,5 ml of glacial acetic acid (4.5) and dilute to volume with diluted acetic acid (4.6), or another appropriate acid. The concentration of the freshly prepared and if necessary also stored solution should be tested (4.20.3).
1) The information of the suppliers of Taka-Diastase, Pfaltz & Bauer, Waterbury, CT 06708, USA (No T00040), and Serva is given for the convenience of users of this European standard and does not constitute an endorsement by CEN of the product named. Equivalent products may be used if they can be shown to lead to the same results. SIST EN 14152:2014
EN 14152:2014 (E) 6 4.20.3 Concentration test Mix 20 ml of the riboflavin stock solution, (4.20.2) in a 200 ml volumetric flask with 3,5 ml sodium acetate solution (4.3) and dilute with water to the mark. For the preparation of the blank solution, mix 20 ml of acetic acid solution (4.6) with 3,5 ml of sodium acetate solution (4.3) in a 200 ml volumetric flask and dilute to the mark with water. Take these solutions for the spectrometric measurement. Measure the absorbance of the riboflavin solution at the maximum wavelength of about 444 nm (A444) in a 1 cm cell with a spectrometer (5.1) against the blank solution as reference. Calculate the mass concentration, , of riboflavin in micrograms per millilitre, of the stock solution (4.20.2) according to Formula (1): ερ0001A444⋅⋅=M (1) where 0 is the molar absorption coefficient of riboflavin at the maximum wavelength of about 444 nm. The value is 12 340 l · mol−1 · cm−1. This value is calculated from the extinction coefficient, 1%1cmE = 328, in acetate buffer (pH = 3,8) at 444 nm [9] and the molar mass, M = 376,36. The value is given with four significant figures; M is the molar mass, in grams per mol. The value is 376,36; A444 is the absorption value of the riboflavin solution. 4.21 Standard solutions 4.21.1 Riboflavin standard solution, (C17H20N4O6) ≈ 10
Prepare a 1:10 dilution of the riboflavin stock solution (4.20.2), e.g. pipette 10 ml of the riboflavin stock solution, into a 100 ml brown volumetric flask and add diluted acetic acid (4.6) or another appropriate solvent to make 100 ml. Prepare this solution fresh every day. 4.21.2 Riboflavin standard test solution, (C17H20N4O6) ≈ 0,1
Pipette corresponding volumes e.g. 1,0 ml to 10,0 ml of the standard solution (4.21.1), into brown volumetric flasks e.g. 100 ml and dilute with the mobile phase (4.15) to the mark. Prepare this solution fresh every day. 5 Apparatus Use laboratory apparatus, glassware, and, in particular, the following: 5.1 UV spectrometer, UV spectrometer capable of measuring absorption at defined wavelengths (444 nm), with appropriate cells, e.g. of 1 cm length. 5.2 Autoclave or heating device, autoclave for extraction purpose, e.g. pressure cooker type, with pressure or temperature reading device, electrical heating device or water bath. 5.3 HPLC system, consisting of a pump, a sample injecting device, a fluorescence detector with an excitation and emission wavelength set at e.g. 468 nm and 520 nm, respectively (see Annex C), and an evaluation system such as an integrator. 5.4 HPLC column Analytical reversed phase column, e.g. of diameter 4,0 mm to 4,6 mm, length 100 mm to 250 mm, filled with particle size 3
A) can be used providing that a satisfactory separation of riboflavin from other co-extractives is achieved. SIST EN 14152:2014
EN 14152:2014 (E) 7 Other particle sizes or column dimensions than those specified in this European Standard may be used. Separation parameters shall be adapted to such materials to guarantee equivalent results. 5.5 Filter device Filtering of the mobile phase as well as of the sample solution through a membrane filter, e.g. a pore size of 0,45 µm, prior to use or injection will increase longevity of the columns. 6 Procedure 6.1 Precautions Vitamin B2 is very sensitive to light. Measures shall be taken to protect the sample and the corresponding solutions during the whole procedure e.g. by using generally brown glassware. 6.2 Preparation of the test sample Homogenize the test sample. Grind coarse material with an appropriate mill and mix again. Measures such as pre-cooling shall be taken to avoid exposing to high temperature for long periods of time. 6.3 Preparation of the sample test solution 6.3.1 Extraction Weigh an appropriate amount of the sample to the nearest mg, e.g. 2 g to 10 g in a beaker or a conical flask. Add a defined volume ranging from 50 ml to 200 ml of hydrochloric acid (4.8), or sulfuric acid (4.10). The pH of the solution should not be more than 2,0. Cover the container with a watch glass and either autoclave the test portion at 121 °C for 30 min, or heat it at 100 °C for 60 min. The data from the BCR study have shown that a wide range of conditions for the acid hydrolysis can be applied (temperature 95 °C to 130 °C, time 15 min to 60 min). The higher the temperature is, the shorter the time should be. However, prolonged heating of riboflavin and riboflavin-5’-phosphate can cause losses. It has been shown that, notably for chocolate foods, the extraction efficiency could drop when pH was above 2. 6.3.2 Enzyme treatment After cooling to room temperature adjust the extract to the optimal pH for the enzyme used with sodium acetate solution (4.4) and add a suitable amount of dephos
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