GC MS Analysis of the Volatile Constituents of Essential Oil and Aromatic Waters of Artemisia Annua L. at Different Developmental Stages

Artemisia annua L. (Asteraceae) still represents the only source of artemisinin, considered as one of the most important drugs for the treatment of malaria and which, more recently, has been shown to be effective against numerous types of tumors. The foliage and inflorescence of A. annua also yield an essential oil upon hydrodistillation. This oil has been evaluated at different development stages (pre-flowering and flowering) by GC/MS. The volatile oil from plants at full blooming showed numerous constituents, with germacrene D (21.2%), camphor (17.6%), β-farnesene (10.2%), β-caryophyllene (9%), and bicyclogermacrene (4.2%) among the main ones. Aromatic waters, after extraction with n-hexane, showed the presence, among others, of camphor (27.7%), 1,8-cineole (14%), artemisia ketone (10.1%), α-terpineol (6.1%), trans-pinocarveol (5.4%), and artemisia alcohol (2%). From plants at the pre-flowering stage, aromatic waters were obtained with camphor (30.7%), 1,8-cineole (12.8%), artemisia alcohol (11.4%), artemisia ketone (9.5%), alpha-terpineol (5.8%), and trans-pinocarveol (3.0%) as the main constituents. The qualitative and quantitative profiles of the two aromatic waters were similar. These results permitted the conclusion to be made that A. annua could be harvested a long time before the onset of flowering to obtain higher yields of artemisinin or could be allowed to attain maturity to obtain valuable yields of volatiles

Determination of myricetin derivatives in Chrysobalanus icaco L. (Chrysobalanaceae)

RESUMO: "Determinação de derivados de miricetina em Chrysobalanus icaco L. (Chrysobalanaceae)". A fração fl avonoídica do extrato hidroalcoólico de folhas de Chrysobalanus icaco L. (Chrysobalanaceae), que são largamente utilizadas na medicina tradicional do Norte do Brasil para controlar a glicemia de pacientes diabéticos, foi caracterizada. Miricetina-3-Oglucuronídeo (miricitrina) e quercitrina, entre outros derivados de miricetina minoritários, foram evidenciados por análises com sistemas CLAE/DAD e CLAE/EM. Unitermos: Chrysobalanus icaco, Chrysobalanaceae, miricetina, medicina tradicional, diabetes. ABSTRACT: The fl avonoidic fraction composition of the hydroalcoholic extract of Chrysobalanus icaco L. (Chrysobalanaceae) leaves, which are largely used in the traditional medicine in Northern Brazil to control the glycaemia of diabetic patients, was characterised. Myricetin 3-O-glucuronide (miricitrin) and quercitrin, among other minor myricetin derivatives, were evidenced by HPLC/ DAD and HPLC/MS analysis

Formation of inclusion complex between the non-steroidal anti-inflammatory drug (RS)-2-(4-isobutylphenyl)-propiohydroxamic acid and beta\u2013cyclodextrin

(RS)-2-(4-isobutylphenyl)-propiohydroxamic acid is a non-steroidal anti-inflammatory drug, which forms a equimolecular complex with beta\u2013cyclodextrin, thus increasing the solubilization and the rate of dissolutono f the drug. The inclusion complex in aqueous solution and in solid phase, was studied by solubility methods, spectroscopy (UV, IR, 1H NMR), thermal analysis (DSC, TG). X-ray diffractometry and paper chromatography (PC). Rsults confirmed the formation of this comple

GC-MS analysis of the volatile constituents of the essential oil and aromatic waters of Artemisia annua L. at different developmental stages

Artemisia annua L. (Asteraceae) still represents the only source of artemisinin, considered as one of the most important drugs for the treatment of malaria and which, more recently, has been shown to be effective against numerous types of tumors. The foliage and inflorescence of A. annua also yield an essential oil upon hydrodistillation. This oil has been evaluated at different development stages (pre-flowering and flowering) by GC/MS. The volatile oil from plants at full blooming showed numerous constituents, with germacrene D (21.2%), camphor (17.6%), β-farnesene (10.2%), β-caryophyllene (9%), and bicyclogermacrene (4.2%) among the main ones. Aromatic waters, after extraction with n-hexane, showed the presence, among others, of camphor (27.7%), 1,8-cineole (14%), artemisia ketone (10.1%), α-terpineol (6.1%), trans-pinocarveol (5.4%), and artemisia alcohol (2%). From plants at the pre-flowering stage, aromatic waters were obtained with camphor (30.7%), 1,8-cineole (12.8%), artemisia alcohol (11.4%), artemisia ketone (9.5%), alpha-terpineol (5.8%), and trans-pinocarveol (3.0%) as the main constituents. The qualitative and quantitative profiles of the two aromatic waters were similar. These results permitted the conclusion to be made that A. annua could be harvested a long time before the onset of flowering to obtain higher yields of artemisinin or could be allowed to attain maturity to obtain valuable yields of volatile

GC-MS analysis of essential oil of some commercial Fennel teas

Fennel teas were prepared by classical infusion or microwave decoction of unbroken and crushed fruits, three pre-packaged teabags and two instant teas. Their volatile constituents were obtained by extraction with n-hexane and analysed by gas chromatography (GC) and gas chromatography/mass spectrometry (GC–MS), using two columns with stationary phases of different polarity. Of the constituents 85–95% were identified on the basis of their GC retention times and their mass spectra in relation to authentic compounds. No volatile constituents were detected in one sample of instant tea. Conventional teas from crushed fruits and teas prepared from the other instant tea showed the highest levels of volatile constituents. Anethole (30–90%) and/or anisaldehyde (0.7–51%) were the main constituents of all the samples. Methychavicol (0.8–4.1%), eugenol (1.5–11.3%) and fenchone (0.5–47%) were detected in most samples. Carvone (2.1–6.1%) was presenting only some teabags and camphor (2.3–2.6%) in others. The volatile constituents of only one instant tea included limonene (1.4%) and α-terpineol (0.4%)