178 

P

oitevin

:

J

ournal of

AOAC I

nternational

V

ol

. 95, N

o

. 1, 2012

Robustness study

.—Analysis of spiking elements in eight

food-grade salts with and without ion buffer, and through

repeatability and reproducibility tests on six reference materials

with different ICP-OES equipments (axial and radial grating

configurations), and with open- and closed-vessel microwave-

based digestions.

Ring trial

.—With nine independent and experienced food

industry laboratories on five in-house and certified reference

materials using this method.

Statistic results of performed SLV tests show that the method

developed for the determination of nine nutritional minerals by

ICP-OES is fit-for-purpose in terms of specificity, sensitivity,

linearity, trueness, and precision according to ISO 17025.AOAC

acceptability criteria (recovery, precision, and HorRat values)

are also fulfilled for all food matrixes covering the nine sectors

of the AOAC food triangle. Improvements to AOAC Method

984.27

(e.g., microwave digestion, internal standardization,

ion buffering, and extension to all food matrixes) provide

global satisfactory ruggedness results for all matrixes tested.

Robustness and efficiency of the method was proved through a

successful ring trial.

This full validation, using well-characterized reference

materials, demonstrated that the method is a cost-efficient

(multielemental), time-saving (high-throughput sample

digestion), accurate, and fit-for-purpose analytical method for

all laboratories in the food industry, and is well established and

harmonized within 25 Nestlé laboratories.

AOAC

Official Method

2011.14

Calcium, Copper, Iron, Magnesium, Manganese,

Potassium, Phosphorus, Sodium, and Zinc in

Fortified Food Products

Microwave Digestion and Inductively Coupled

Plasma-Optical Emission Spectrometry

First Action 2011

(Applicable to analysis of calcium, copper, iron, potassium,

magnesium, manganese, phosphorus, sodium, and zinc in

fortified food products.)

Upper limits (mg/kg): Ca (24000); Cu (210); Fe (850);

K (32000); Mg (7500); Mn (20); Na (16 000); P (16 000); and

Zn (320). LOQ (mg/kg): Ca (150); Cu (2); Fe (10); K (200); Mg

(50); Mn (0.05); Na (100); P (100); and Zn (5).

See

Tables

2011.14A

—

I

for results of the interlaboratory

study supporting acceptance of the method. These results are

slightly different from those shown previously in

J. AOAC Int.

(1) due to the application of classical rather than robust statistics.

Digestion

A. Principle

Test portion is heated at 200°C either with nitric acid in a

closed-vessel microwave digestion system (MDC) or with a

combination of hydrogen peroxide, nitric acid, and hydrochloric

acid in an open-vessel microwave digestion system (MDO).

B. Apparatus

Microwave

.—Commercial MDC or MDO designed for

laboratory use at 200 ± 20°C, up to 600 psi and controlled

temperature or pressure ramping capability. It is recommended

that vessel design be selected

that will withstand the maximum

possible pressure (600 psi), since organic residues of rich-fat

or rich-carbohydrate samples, if not given sufficient time to

predigest, will generate significant pressure during digestion.

C. Reagents

(

a

)

 High-grade water

,

H

2

O (18MΩ)

.—For slurry preparation

and/or dilution.

(

b

)

 Nitric acid (HNO

3

), 65% (w/v)

.—Trace metal grade

throughout.

(

c

)

 Hydrochloric acid (HCl), 37%

(

w

/

v)

.—Trace metal grade

throughout.

(

d

)

 Hydrogen peroxide (H

2

O

2

), 97% (w/v)

.—Trace metal

grade throughout.

D. Determination

Caution

: Before using chemicals, refer to the supplier guide

for chemical safety and/or other adequate manuals or safety

data sheets approved by local authorities. Use fume hood, and

wear full personal laboratory protective clothing, gloves, and

appropriate eye protection (safety glasses) when using glassware

and preparing standards or test portions with acid solutions.

(

a

) 

Sample preparation

.—(

1

)

Test sample preparation

.—

Homogenize a representative sample by grinding as finely

as possible and/or by preparing a slurry with H

2

O. For infant

cereals and fortified milk powders,

preheat water at 50°C.

Prepare slurry by weighing 10.0 ± 0.1 g test sample, and place

into a 100 mL Erlenmeyer flask; add 90.0 ± 0.1 g H

2

O. Mix well

with stopper.

(

2

) 

Test

portion

preparation

.—Accurately

weigh

0.50 ± 0.01 g test portion or sample mass on a dry weight

basis in the prepared slurry to MDC vessel (1.00 ± 0.01 g

into a 100 mL volumetric flask for MDO).

Note

: An optimal

analytical test portion mass of 0.5 g (1.0 g for MDO) is based

on an empirical maximum energy release by the food of 3 kcal

and 90–110% recovery.

Line the MDC vessel walls or Pasteur pipet with weighing

paper during sample transfer to keep sample from adhering to

sides of vessel, or use a Pasteur pipet to transfer liquid samples.

Weigh fluid samples or test portion from slurry test sample

directly after mixing.

Note:

Remove weighing paper from

sample prior to placing MDC vessels in oven.

Carefully add 5.0 ± 0.1 mL HNO

3

into MDC/MDO vessel,

then 5 mL H

2

O

2

only into MDO vessel. Loosely cap MDC

vessel without sealing.

Predigest for at least 10 min at room

temperature or until vigorous foaming subsides.

Close MDC

vessels and distribute onto microwave carousel to ensure

uniform microwave power application on all samples.

(

3

) 

Food-grade

salt

sample

preparation

.—Weigh

0.20 ± 0.01 g food-grade salt (a minimum dilution factor of 500

is recommended) into a 100 mL volumetric flask. Add deionized

water and 10 mL HNO

3

. Dissolve salt and dilute to volume with

deionized water.

(

b

) 

Test portion digestion

.—

Caution

: Application of MDS

involves hot pressurized acid solutions and concentrated acids.

Use fume hood and wear full personal laboratory protective

clothing, gloves, and appropriate eye protection (safety glasses)

2011.14 (MTE-01) MLT

FOR ERP USE ONLY

DO NOT DISTRIBUTE