Extraction kinetics of Brazilian green propolis and chemical characterization of its volatiles.

Propolis is a natural resinous product produced by Apis mellifera bees from the exudates of various plants. The color of propolis (green) is a consequence of its botanical origin, as bees collect young tissues and leaves of Baccaris dracunculifolia. This study evaluated the chemical composition and extraction kinetics of essential oils obtained from Brazilian green propolis by hydrodistillation. Hydrodistillation was performed for 360 min and analyzed at different times (30, 60, 120, 240, and 360 min), allowing the calculation of the accumulated content (% w/w) and the identification of the essential oil chemical profile. The GC/FID and GC/MS analysis led to the annotation of 60 compounds with estragole (13.30%), benzyl propanoate (14.59%), and (E)-nerolidol (13.57%) as the main compounds. The optimum conditions for extraction of phenylpropanoids (PP), hydrocarbons (HD), monoterpenes (MT), and oxygenated monoterpenes (OMT) are between 30 and 120 min. In comparison, sesquiterpenes (ST) and oxygenated sesquiterpenes (OST) are extracted more efficiently between 240 and 360 min. The optimal extraction speed determination is essential for industrial-scale processing to obtain components such as sesquiterpenes, which have a high economic value in the cosmetic/perfumery and pharmaceutical industries.

Ocimum gratissimum essential oil and eugenol against Ctenocephalides felis felis and Rhipicephalus sanguineus: In vitro activity and residual efficacy of a eugenol-based spray formulation.

Fleas and ticks are among the main ectoparasites that affect pets. The indiscriminate and incorrect use of chemical antiparasitics may be related to increased insect resistance and environmental contamination, requiring prospection for active ingredients that are less harmful to animals, humans and the environment. The use of essential oils and their isolated compounds has been reported as a potential alternative to synthetic antiparasitics, but there is a lack of studies involving the design and development of stable and safe natural products-based formulations. Therefore, the aim of this study was to establish LC50 and LC90 of Ocimum gratissimum essential oil and eugenol on immature stages and adults of Ctenocephalides felis felis and Rhipicephalus sanguineus; and to design and to determine the in vitro efficacy and residual effect of a natural product-based spray formulation for flea and tick control in pets. Bioassays were carried out according to the filter paper impregnation technique for fleas and through the larval packet test for ticks. O. gratissimum essential oil and eugenol presented pulicidal and acaricidal activity in vitro against immature stages and adults of C. felis felis and immature stages of R. sanguineus. The greater potency of eugenol against fleas and ticks led to the choice of eugenol as the active ingredient in the pharmaceutical form developed. The developed eugenol-based sprays presented adequate physical and chemical characteristics and stability, had pulicidal and acaricidal efficacy after 24 h and residual effect against fleas for up to 48 days.

Activity of Syzygium aromaticum essential oil and its main constituent eugenol in the inhibition of the development of Ctenocephalides felis felis and the control of adults.

The aim of this study was to evaluate the in vitro activity of Syzygium aromaticum essential oil (SAEO) and its main constituent eugenol (EG) against adult fleas and their action in the maturation of eggs into adults of Ctenocephalides felis felis. In order to evaluate the pulicidal activity, 10 adult fleas were exposed to a filter paper impregnated with SAEO and EG at increasing concentrations of 0.047; 0.094; 0.188; 0.375; 0.750; 1.50; 3.00; 6.00; 12.00 and 24.00 µg cm-2. Flea mortality was evaluated 24 and 48 h after exposure. In order to evaluate the inhibition of the maturation of eggs into adults, 10 eggs were exposed to filter paper impregnated with SAEO and EG at the same concentrations used in the pulicidal test, and the evaluation was performed 30 days after incubation. Untreated repetitions were maintained in both studies (control group). The lethal concentration 50 (LC50) of pulicidal activity to SAEO was 5.70 µg cm-2 in 24 h and 3.91 µg cm-2 in 48 h. The LC90 was 16.10 µg cm-2 and 15.80 µg cm-2 in 24 and 48 h, respectively. The LC50 of inhibition of the maturation of eggs into adults was 0.30 µg cm-2 and the LC90 3.44 µg cm-2. The LC50 of pulicidal activity to EG was 2.40 µg cm-2 in 24 h and 1.40 µg cm-2 in 48 h; the LC90 was 8.10 µg cm-2 and 3.70 µg cm-2 in 24 h and 48 h, respectively. The LC50 of inhibition of the maturation of eggs into adults was 0.10 µg cm-2 and the LC90 0.68 µg cm-2. Based on the results obtained, it is possible to conclude that the both SAEO and EG have in vitro pulicidal activity as well as acting as inhibitors of the maturation of eggs into adults of the flea C. felis felis.

In vitro activity of essential oils against adult and immature stages of Ctenocephalides felis felis.

Essential oils (EOs) are considered a new class of ecological products aimed at the control of insects for industrial and domestic use; however, there still is a lack of studies involving the control of fleas. Ctenocephalides felis felis, the most observed parasite in dogs and cats, is associated with several diseases. The aim of this study was to evaluate the in vitro activity, the establishment of LC50 and toxicity of EOs from Alpinia zerumbet (Pers.) B. L. Burtt & R. M. Sm, Cinnamomum spp., Laurus nobilis L., Mentha spicata L., Ocimum gratissimum L. and Cymbopogon nardus (L.) Rendle against immature stages and adults of C. felis felis. Bioassay results suggest that the method of evaluation was able to perform a pre-screening of the activity of several EOs, including the discriminatory evaluation of flea stages by their LC50. Ocimum gratissimum EO was the most effective in the in vitro assays against all flea stages, presenting adulticide (LC50 = 5.85 µg cm-2), ovicidal (LC50 = 1.79 µg cm-2) and larvicidal (LC50 = 1.21 µg cm-2) mortality at low doses. It also presented an excellent profile in a toxicological eukaryotic model. These findings may support studies involving the development of non-toxic products for the control of fleas in dogs and cats.