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GB/T 43809-2024 PDF English

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GB/T 43809-2024: Technical requirements for establishing characteristic spectra of plant extracts feed Additives
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GB/T 43809-2024: Technical requirements for establishing characteristic spectra of plant extracts feed Additives


---This is an excerpt. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.), auto-downloaded/delivered in 9 seconds, can be purchased online: https://www.ChineseStandard.net/PDF.aspx/GBT43809-2024
GB NATIONAL STANDARD OF THE PEOPLE’S REPUBLIC OF CHINA ICS 65.120 CCS B 46 Technical requirements for establishing characteristic spectra of plant extracts feed additives ISSUED ON: MARCH 15, 2024 IMPLEMENTED ON: OCTOBER 01, 2024 Issued by: State Administration for Market Regulation; National Standardization Administration.

Table of Contents

Foreword ... 3 1 Scope ... 4 2 Normative references ... 4 3 Terms and definitions ... 4 4 Technical requirements ... 6 Appendix A (Informative) Application of characteristic spectra ... 12 Appendix B (Informative) Characteristic spectra report example - Characteristic spectra of licorice extract ... 13 References ... 16 Technical requirements for establishing characteristic spectra of plant extracts feed additives

1 Scope

This document defines the terms and definitions of the characteristic spectra of plant extract feed additives, specifies the technical requirements for the formulation of characteristic spectra. This document is applicable to the formulation of characteristic spectra of plant extract feed additives, by high performance liquid chromatography and gas chromatography.

2 Normative references

This document has no normative references.

3 Terms and definitions

The following terms and definitions apply to this document. 3.1 Plant extracts feed additives Use specific parts or whole plants of a single plant as raw materials, through extraction and (or) separation and purification processes, to acquire targeted and concentrate one or more components in the plant, which generally does not change the structural characteristics of the original components of the plant; a small amount or trace amount of substances are added during feed processing, production, use. Note 1: Include purified extracts, component extracts, simple extracts. Note 2: The product form is solid, liquid or paste. 3.2 Purified extracts Single-component products obtained from plants through extraction, separation, purification. retention time of the characteristic peak in the characteristic spectra.

4 Technical requirements

4.1 Establishment of characteristic spectra 4.1.1 General requirements The establishment of characteristic spectra shall include requirements such as source, selection of determination method, preparation of specimen solution, preparation of reference solution, chromatographic conditions and system suitability test, verification of analytical method, determination, characteristic spectra, technical parameters. 4.1.2 Source Include the origin of plant raw materials, the parts used, the preparation process of plant extracts. The plant extracts for the development of characteristic spectra shall be of reliable and representative sources and meet the following requirements: a) The number of sample batches shall not be less than 15; b) Products of the same specifications as produced continuously by the same raw materials, using the same process or the same batch shall be considered as one batch; c) Plant extract raw materials shall generally cover the compliant varieties, origins, harvesting time, primary processing methods of the source plants; d) For plant extract feed additives developed based on plant raw materials from specific sources, the raw material sources shall cover the specific varieties, origins, harvesting time, parts, primary processing methods of the source plants. 4.1.3 Selection of determination method According to the physicochemical properties of the chemical components contained in plant extract feed additives, select high performance liquid chromatography or gas chromatography. 4.1.4 Preparation of specimen solution Establish dissolution and extraction methods according to the physicochemical properties of the components contained in the specimen. The main influencing factors, including the type and amount of solvent, extraction method and temperature, shall be investigated to determine the appropriate preparation method, to ensure that the main components and characteristic components in the specimen are transferred to the solution. If necessary, other treatment methods such as hydrolysis and derivatization can be added. 4.1.5 Preparation of reference substance solution A reference substance shall be set up for the formulation of characteristic spectra. Generally, one or more easily accessible main effective ingredients, unique ingredients, secondary effective ingredients or main labeled ingredients are selected as reference substances; if necessary, the reference substance of the characteristic peak of the trace component other than the main effective ingredient can be selected as a reference substance for the purified extract. According to the composition of the plant extract, select an appropriate reference as a reference substance; write down the name, CAS number, purity of the reference substance. Accurately weigh an appropriate amount of the reference substance and prepare a solution of a certain concentration with an appropriate solvent. 4.1.6 Chromatographic conditions and system suitability test 4.1.6.1 Determination of chromatographic conditions Within the appropriate time range, the chromatogram shall obtain as many chromatographic peaks as possible, to ensure that the main components are well separated by chromatography and meet the principle of maximizing effective information. High performance liquid chromatography: Examine the detector type and parameters, the type and specifications of the chromatographic column packing, the type and elution method of the mobile phase, the data acquisition time, the column temperature, the flow rate, the injection volume, etc. Gas chromatography method: Examine the detector type and parameters, the type and specifications of the chromatographic column packing, the heating method (such as programmed heating), the data acquisition time, the injection port temperature, the split ratio, the carrier gas flow rate, the injection volume, etc. 4.1.6.2 Determination of the measurement time The characteristic spectrum is formulated by high performance liquid chromatography and gas chromatography; the measurement time of the characteristic spectra is usually not more than 1 h. According to the measurement time t under the chromatographic conditions determined in 4.1.6.1, continue to elute with the strongest elution conditions after the determination time t; examine the chromatographic peaks after the measurement time t; obtain a spectra which has a recording time of 2 times the measurement time (2t), to ensure that the main components contained in the specimen are reflected in the spectra and meet the principle of maximizing the amount of effective information. value; issue a validation test report. 4.1.8 Determination Take the specimen solution and the reference solution respectively. Inject them into the chromatograph. Perform the determination according to the determined chromatographic conditions (see 4.1.6.1). Record the chromatogram. 4.1.9 Characteristic spectra and technical parameters 4.1.9.1 Selection of characteristic peaks Use the similarity evaluation system software of Chinese medicine chromatographic fingerprints or other appropriate analysis software, to superimpose the chromatograms of 15 batches or more samples; select the common chromatographic peaks in the chromatograms of each batch of samples; use Arabic numerals to mark each common chromatographic peak. Generally, select 4 ~ 8 common chromatographic peaks as characteristic peaks. The characteristic peaks shall be distributed in different positions of the chromatogram as much as possible. The characteristic peaks shall include unique ingredients, effective ingredients or labeled ingredients. For extracts with fewer components, the number of characteristic peaks can be determined according to actual conditions. If necessary, trace components other than the main effective ingredients can be selected as characteristic peaks for purified extracts. The signal-to-noise ratio of the selected characteristic peaks is ≥ 3. 4.1.9.2 Identification of characteristic peaks The characteristic spectra shall clarify the chemical structure and chemical name of its characteristic peaks as much as possible; generally use reference substances for confirmation. If necessary, for unknown characteristic peaks that cannot obtain reference substance, liquid chromatography-mass spectrometry (LC-MS) or gas chromatography-mass spectrometry (GC-MS) can be used to speculate the possible compound structure according to the actual situation, so as to determine the specificity of the established spectra based on the confirmed or speculated characteristic peak components. 4.1.9.3 Selection of S peak Select a reference chromatographic peak as the S peak in the order of main effective ingredients, unique ingredients, secondary effective ingredients, labeled ingredients that exist in large quantities or have relatively stable content in each batch. If there is no reference material for a suitable reference substance, a stable chromatographic peak with a large peak area can be selected as the S peak. 4.1.9.4 Requirements for relative retention time of characteristic peaks Take the retention time of S peak as 1, to calculate the relative retention time of each characteristic peak and S peak. Take the average value of the relative retention time of each characteristic peak among all samples as the specified value. The relative standard deviation RSD of the relative retention time of each batch of samples shall not be greater than 3%. Relative retention time is used as the basis for identifying characteristic spectra. 4.1.9.5 Requirements for relative peak area of characteristic peaks If necessary, the relative peak area between the designated characteristic peak and the S peak or characteristic peaks shall be specified. The peak area ratio between the designated characteristic peak and the S peak or characteristic peak shall be calculated based on the chromatograms of more than 15 batches of samples, to determine the relatively stable ratio range. 4.1.9.6 Generation of characteristic spectra Based on the chromatograms of more than 15 batches of samples, the Chinese medicine chromatographic fingerprint similarity evaluation system software or other appropriate analysis software shall be used for data processing; the selected characteristic peaks shall be matched to generate characteristic spectra. When the component categories differ greatly and one spectra is difficult to reflect all its characteristic components, multiple characteristic spectra can be established according to the properties of the characteristic components and the measurement results under multiple chromatographic conditions. If necessary, trace components of purified extracts can be selected to establish characteristic spectra. For the application of characteristic spectra, see Appendix A. 4.1.9.7 Characteristic spectra information The number of characteristic peaks in the characteristic spectra shall be displayed; the positions of the S peak and each characteristic peak shall be marked with Arabic numerals. The specified value of the relative retention time of each characteristic peak and the S peak in the characteristic spectra shall be stated; the allowable deviation range between the measured value and the specified value shall be specified. If necessary, the relative peak area value between the specified characteristic peaks can be specified to be within a certain range. The characteristic spectra "graph" shall contain the following information: a) The abscissa of the "graph" is the retention time, in minutes (min); b) The ordinate of the "graph" is the chromatographic peak response, the unit is

Appendix B

(Informative) Characteristic spectra report example - Characteristic spectra of licorice extract B.1 Source Dry powder made by extracting and processing, through 70% ethanol, the dried roots and rhizomes of Glycyrrhiza uralensis Fisch., Glycyrrhiza inflata Bat. or Glycyrrhiza glabra L. of the leguminous plants. B.2 Determination method Determined in accordance with the high performance liquid chromatography method (General Rule 0512) of the Veterinary Pharmacopoeia of the People's Republic of China. B.3 Preparation of specimen solution Weigh about 0.2 g of licorice extract. Place in a stoppered conical flask. Accurately add 25 mL of 70% ethanol solution. Ultrasonically treat (power 250 W, frequency 40 kHz) for 10 min. Let it cool naturally. Weigh the mass. Make up the lost mass with 70% ethanol. Shake well. Let it stand. Take the supernatant and filter through a 0.45 μm organic membrane. Take the filtrate as the specimen solution. B.4 Preparation of reference solution Weigh 5 mg (accurate to 0.01 mg) of apigenin (CAS No.: 74639-14-8, purity not less than 98.0%), liquiritin (CAS No.: 551-15-5, purity not less than 98.0%), glycyrrhizic acid (CAS No.: 1405-86-3, purity not less than 98.0%) respectively. Place them in a 25 mL brown volumetric flask. Add methanol to ultrasonically dissolve and dilute to the mark, to prepare a reference stock solution containing 0.2 mg of reference substance per 1 mL. B.5 Chromatographic conditions and system suitability test Use octadecylsilane bonded silica gel as filler (column length 25 cm, inner diameter 4.6 mm, particle size 5 μm). Use acetonitrile as mobile phase A; use 0.05% phosphoric acid solution as mobile phase B; perform gradient elution according to the provisions in Table B.1: the flow rate is 1.0 mL/min, the column temperature is 30 °C, the detection wavelength is 276 nm. The theoretical plate number calculated based on the glycyrrhizin peak shall be no less than 50000. ......
Source: Above contents are excerpted from the full-copy PDF -- translated/reviewed by: www.ChineseStandard.net / Wayne Zheng et al.


      

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