Silvia Siag Oigman scite author profile

A new gas chromatography method using pulsed split injector (PS-GC) was validated to quantify thermolabile diterpenes cafestol, kahweol and isokahweol in methanolysed Arabica coffee oils. Linearity was 0.99 from 8 to 69mgmL(-1), recovery ranged from 99% to 101% and precision of less than 4% was obtained. Besides, Soxhlet extraction time was evaluated and Tukey׳s test indicated that the mass of diterpenes obtained in 4h is equivalent to a 16h period, which represents a space-time yield four times higher. The microwave assisted methanolysis proved to be efficient to quantitatively convert the natural diterpene esters in their respective alcohols and fatty acid methyl esters, accompanied by PS-GC. Also, the intact diterpene esters were analyzed by GC for the first time by the comparison between cold on-column (COC) and PS injection techniques. In all these stages, the molecular integrity of the thermolabile furokaurane diterpenes was maintained. The methanolysed oils from 13 samples of green Brazilian Arabica coffees were analyzed by PS-GC and the diterpenes composition varied from 8 to 12% w/w in oil and 0.7-1% in coffee beans. The ratio between cafestol and kahweol was successfully used to predict the quality of coffee even before the roasting and brewing processes.

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Microwave-assisted methanolysis of green coffee oil

Oigman

Souza

Júnior

et al. 2012

Food Chemistry

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Optimisation of a microwave-assisted methanolysis was performed to obtain cafestol and kahweol directly from green coffee oil (Coffea arabica). A two-factor (the methanolysis period and temperature), three-level, factorial experimental design (3(2)) was adopted. The methanolysis procedure was performed under microwave irradiation, using closed vessel and accurate fast responding internal fibre-optic temperature probe. The effects on the responses were measured by HPLC. After 3 min of microwave irradiation (hold time) at 100°C, with 500 mg of green coffee oil, a yield higher than 99% was obtained. The yield of this reaction is 26% after 2h when working under conventional heating. The methods described in the literature lead to long reaction times, poor yields and formation of side products. The microwave-assisted technique proved to be faster, avoided undesired side products and gave better conversion, when compared to conventional heating process.

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Isolation of two bioactive diterpenic acids from Copaifera glycycarpa oleoresin by high‐speed counter‐current chromatography

Souza¹,

Rangel²,

Oigman³

et al. 2010

Phytochemical Analysis

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Oil Green Coffee Beans: Diterpenes Cafestol and Kahweol

Tsukui¹,

Oigman²,

Rezende³

2014

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The kaurane diterpenes cafestol and kahweol are significant chemical constituents of the green coffee oil. Studies reveal their potential as antitumor and antioxidant agents; in addition they are recognizably as being hypercholesterolemic. This review focuses on the upgrading of the research conducted on these diterpenes, mainly in biological aspects, extraction techniques and quantification procedures.

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Brazilian gorgonians: a source of odoriferous compounds?

Oigman

Fernandes

Teles

et al. 2015

Revista Brasileira de Farmacognosia

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Promising antifungal activity of Croton tricolor stem essential oil against Candida yeasts

Miranda

Nascimento

Aguiar

et al. 2018

Journal of Essential Oil Research

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