ANALYSIS
We offer a complete portfolio of qualitative and quantitative analyzes for botanical assets, using various analytical techniques.
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Essential oil analysis
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Technique used: gas chromatography coupled to mass spectrometry (GC-MS).
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The Kovats retention index (RI) and an internal database are used to identify the substances present in the essential oil.
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The IR is obtained from a standard mixture of hydrocarbons (C9-C24).
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It is possible to determine which substances are present in the essential oil (qualitative analysis), as well as the content of each one in the sample (quantitative analysis).
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Determination of fatty acids
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Technique used: gas chromatography coupled to mass spectrometry (GC-MS) and/or nuclear magnetic resonance (NMR).
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It is possible to determine which are the saturated and unsaturated fatty acids (qualitative analysis), as well as the content of each one in the vegetable or oil sample (quantitative analysis).
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Isoflavon determinationto the
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Technique used: high performance liquid chromatography coupled to a diode array detector (HPLC-DAD).
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Analytical standard of the isoflavone (purity ≥ 98%) of interest is used for quantification.
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Examples of isoflavones: daidzein, genistein, daidzin, genistin, among others.
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Determination of carotenoids
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Technique used: high performance liquid chromatography coupled to a diode array detector (HPLC-DAD).
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An analytical standard of the carotenoids (purity ≥ 98%) of interest is used for quantification.
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Examples of carotenoids: beta-carotene, bixin, lycopene, among others.
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Determination of the content of total phenolic compounds
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Determination in equivalents of gallic acid, chlorogenic acid, quercetin, among others.
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Analytical standard (purity ≥ 98%) is used for quantification.
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Technique used: spectrophotometry
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Determination of ta contentkids
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Technique used: spectrophotometry
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Determination of total tannins; condensed and/or hydrolyzable.
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Analytical standard (purity ≥ 98%) is used for quantification.
We also offer customized Research and Development analyzes to meet the unique demands of each client.
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Bioprospecting medicinal plants with biological potential
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Preparation of extracts for biological assays;
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Fractionation of extracts for biological assays;
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Chemical characterization of the substance(s) responsible for the biological activity.
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Method development and validation by HPLC
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Development and validation of method for analysis of botanical extracts and phytomedicines.
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Optimization of chromatographic conditions based on the following parameters: column type, solvent type, injection volume, analysis time, temperature, elution type, mobile phase pH, buffer selection, among others.
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Validation of the chromatographic method for quantification of markers based on figures of merit: specificity/selectivity, linearity, limit of detection, limit of quantification, accuracy, precision and robustness, in accordance with RDC RESOLUTION No. 166, OF JULY 24, 2017 .
REFERENCES:
HTTPS://WWW.IN.GOV.BR/MATERIA/-/ASSET_PUBLISHER/KUJRW0TZC2MB/CONTENT/ID/19194581/DO1-2017-07-25-RESOLUCAO-RDC-N-166-DE-24-DE-JULHO- DE-2017-19194412
HTTP://STATIC.SITES.SBQ.ORG.BR/QUIMICANOVA.SBQ.ORG.BR/PDF/VOL27NO5_771_16-RV03165.PDF
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Development of a protocol for the preparation of ashows
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Technique used: multifactorial model as design of experiments (Design of Experiments - DOE).
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Development of environmentally friendly analytical processes
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Development of extraction and analysis protocols according to the 12 principles of Green Chemistry and use of green metrics to evaluate process performance.
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Ideal for companies looking to replace routine protocols with a high environmental impact, for new protocols with environmentally friendly processes.
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Scaling of analytical methods for the preparative scale
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Item Description
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Isolation of substances from plant matrices
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Technique used: liquid chromatography and medium pressure liquid chromatography on a preparative scale.
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Ability to isolate compounds with purity≥ 90%.
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Identification and characterization of molecules
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Technique used: HPLC-DAD-MS, high resolution mass spectrometry (HRMS) and nuclear magnetic resonance.
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Metabolomic analysis of plants
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Design and planning of experiments for target and untargetted metabolomics analysis.
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Sample analysis by nuclear magnetic resonance and LC-DAD-MS.
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Analysis of data generated through multivariate and univariate analysis.
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Identification of target substances through the use of databases.
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Development of protocols for isolation of the target substance.