The composition of the essential oils from the needles, branches and female cones of four species of Pinaceae, Pinus pinea, P. halepensis, P. pinaster and P. nigra, has been analysed and comparative chemical evaluations were obtained. In P. pinea the major compound of the essential oils of all the three plant parts is limonene (58.9–62.5%), in P. halepensis α‐pinene (18.1%–53.6%) and myrcene (13.7–42.1%), in P. pinaster α‐pinene (24.7–40.4%) and β‐pinene (21.7–29.2%), and in P. nigra α‐pinene (28.4–61.7%). Copyright © 2003 John Wiley & Sons, Ltd.
Many volatile oils are known to possess antifungal properties and are potentially applicable as antimycotic agents. By studying the efficacy of essential oils against different pathogenic mycetes, we have evaluated the in-vitro inhibiting activity of some essential oils and their main constituents against a strain of Candida albicans. Sixteen commercial essential oils and forty-two pure constituents (alcohols, aldehydes, ketons, phenols and hydrocarbons), were tested by using a semisolid agar antifungal susceptibility (SAAS) method. Gas chromatography/mass spectroscopy analyses of the oils tested were performed. The essential oils of Origanum vulgare, Satureja montana, Mentha piperita, Cinnamomum verum, Cymbopogon flexuosus showed maximum inhibitory activity (MIC = 500 ppm) after 7 days. According to the results of the examination of pure constituents, beta-phellandrene proved to be the most interesting component among cyclic monoterpenic hydrocarbons as it showed a strong activity (MIC = 50 ppm). The most active of phenols was carvacrol (MIC 100 ppm). The open-chain alcohol 1-decanol was the most active of alcohols at 50 ppm. Finally, among aldehydes, a strong activity was shown by trans-cynnamaldehyde (MIC 50 ppm).
A parasitologic study on 129 red foxes (Vulpes vulpes) from Tuscany (central Italy) was carried out in 2004-2006. Five intestinal species were found at necropsy: Dipylidium caninum (prevalence 57.3%), Mesocestoides lineatus (45.4%), Uncinaria stenocephala (39.1%), Toxocara canis (9.1%), and Toxascaris leonina (5.4%). Other parasites not associated with the intestine included Crenosoma vulpis (14.7%), Capillaria aerophila (7.0%), Angiostrongylus vasorum (7.0%), and filarial parasites (17.8%). Coprologic tests were less sensitive and less specific in identifying parasites than direct examinations at necropsy. Trichinella larvae were not found in muscles submitted to artificial digestion. By immunologic assay, antigens of Echinococcus spp. were detected in fecal samples of 20 foxes, but results could not be confirmed by fecal examination or molecular tests.
Extraintestinal nematodes of the red fox (Vulpes vulpes) are a wide group of parasites that infect wild and domestic carnivores and occasionally humans. Nematodes in the cardiopulmonary system, stomach, urinary apparatus and muscle tissue of 165 red foxes (Vulpes vulpes) from north-west Italy (Liguria and Piedmont) were investigated between 2009 and 2012. Of the cardiopulmonary nematodes, a high prevalence of Angiostrongylus vasorum and Eucoleus aerophilus (syn. Capillaria aerophila) was found, 78.2% and 41.8% respectively; Crenosoma vulpis (15.8%) and Filaroides spp. (4.8%) were also found. Spirocerca lupi (23.5%), Aonchotheca putorii (syn. Capillaria putorii) (8.6%) and Physaloptera spp. (2.5%) were detected in the stomach and Pearsonema plica (syn. Capillaria plica) (56.8%) in the bladder. Eucoleus boehmi (syn. Capillaria boehmi) was also detected in the nasal cavities of one of the two foxes examined. A coprological examination revealed eggs of E. aerophilus, A. putorii, S. lupi, Physaloptera spp. and eggs of intestinal parasites. Filarial worms were absent in all the 165 animals examined, nor was there evidence of Trichinella spp. in any of the foxes. The foxes were found to host a high prevalence of many species of extraintestinal nematodes. The prevalence of A. vasorum in foxes found in the present study is among the highest in Europe. In addition, to the best of our knowledge, E. boehmi and Filaroides spp. have never been reported before in this host in Italy.
Foxes (Vulpes vulpes, n = 132) killed during the hunting seasons 2005-2006 in Central Italy (Tuscany region) were examined in order to investigate the possible importance of this animal as a wild reservoir for zoonotic filariae. In each specimen adult worms of Dirofilaria immitis and hematic microfilariae were searched for. Species identification was performed by morphology, morphometry, the Barka staining technique applied to pulmonary and splenic blood smears, and, finally, by molecular diagnostics -- polymerase chain reaction (PCR) and sequencing. Twenty-three subjects (17.4%) proved to be positive for filarial parasites. Infection by Acanthocheilonema was more widespread than by Dirofilaria. Briefly, 8 foxes harbored mature adults of D. immitis; two of them (25%) also had microfilariae that in one case were mixed with the microfilariae of D. repens. Twelve subjects had microfilariae of Acanthocheilonema reconditum, and 3 harbored microfilariae of A. dracunculoides. Molecular diagnostics confirmed all results. Our findings, drawn by the examination of a few microliters of blood obtained from foxes approximately <2 years of age, support the hypothesis that this animal may be an abundant source of infection for ticks that transmit Acanthocheilonema parasites and for mosquitoes that act as vectors for dirofilarial nematodes. Therefore foxes, contributing to the parasite circulation in areas where dogs usually undergo prophylactic treatment, have to be considered an important wild reservoir for filarial parasites that can be transmitted to companion animals and people.
HighlightsWolves are considered as definitive hosts for Echinococcus granulosus in Liguria, Italy.Scats were examinated and taeniid eggs isolated.Molecular species identification was performed through PCR analysis and sequencing.Taeniid species diagnosed document domestic, semi-domestic and wildlife cycles.
Saprolegnia parasitica Coker is the main agent of saprolegniosis, one of the most important causes of economic losses in the fish farming industry, affecting all developmental stages. In this work the activity of some essential oils are compared with the activity of their isolated chemical constituents (alcohols, aldehydes, ketones, phenols, and hydrocarbons) to evaluate molecular classes active against S. parasitica. This suggests potential new products to use against saprolegniosis. Sixteen commercial essential oils and 37 pure constituents were tested against a strain of Saprolegnia parasitica from cutaneous lesions of Perca fluviatilis Linnaeus, using a continuously agitated broth technique that allows both the Minimum Inhibitory Concentration (MIC) and the Minimum Lethal Concentration (MLC) to be evaluated. It was possible to evaluate the efficacy of each essential oil against S. parasitica in relation to its specific composition and the efficacy of its main constituents. Carvacrol (MIC of 50 ppm and a MLC of 100 ppm) and pcymene (MIC and MLC = 200 ppm) are the main constituents of Origanum vulgare L. and Thymus vulgaris L. (MIC = 100 ppm, MLC = 200 ppm) and are the primarly responsible for the efficacy of these two essential oils against S. parasitica. The structure of the constituents was also evaluated in relation to their activities against S. parasitica. Besides monoterpenic aromatic compounds, the acyclic mono-and sesquiterpenic primary alcohols and aldehydes seem to be the most active compounds. The open chain alcohol 1-decanol [CH 3 -(CH 2 ) 8 -CH 2 -OH] proved to be the most active agent with a MLC = 50 ppm.
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