Ethnobotanical notes about some uses of medicinal plants in Alto Tirreno Cosentino area (Calabria, Southern Italy)

<p>Abstract</p> <p>Background</p> <p>The present paper contributes to enrich the ethnobotanical knowledge of Calabria region (Southern Italy). Research was carried out in Alto Tirreno Cosentino, a small area lying between the Tyrrhenian coast and the Pollino National Park. In the area studied medicinal plants still play a small role among farmers, shepherds and other people who live far from villages and built-up areas.</p> <p>Methods</p> <p>Information was collected by interviewing native people, mainly elderly – engaged in farming and stock-raising activities – and housewives. The plants collected, indicated by the locals, have been identified according to "Flora d'Italia". The <it>exsiccata </it>vouchers are preserved in the authors' own <it>herbaria</it>.</p> <p>Results</p> <p>52 medicinal species belonging to 35 families are listed in this article. The family, botanical and vernacular name, part of the plant used and respective manipulation are reported there and, when present, similar or identical uses in different parts of Calabria or other Italian regions are also indicated.</p> <p>Conclusion</p> <p><it>Labiatae</it>, <it>Rosaceae </it>and <it>Leguminosae </it>are the families most frequently present, whilst <it>Compositae </it>and <it>Brassicaceae </it>are almost absent. The uses of the recorded species relate to minor ailments, mainly those of the skin (15 species), respiratory apparatus diseases (11), toothache, decay etc. (10) and rheumatic pains (8). The easy availability of these remedies provides a quick way of curing various minor complaints such as tooth-ache, belly and rheumatic pain and headaches and can also serve as first aid as cicatrizing, lenitive, haemostatic agents etc. The role in veterinary medicine is, on the contrary, more important: sores, ulcers, tinea, dermatitis, gangrenous wounds of cattle, and even respiratory ailments are usually cured by resort to plants.</p

Monitoring and predicting the risk of violence in residential facilities. No difference between patients with history or with no history of violence

none34noopende Girolamo, Giovanni; Buizza, Chiara; Sisti, Davide; Ferrari, Clarissa; Bulgari, Viola; Iozzino, Laura; Boero, Maria Elena; Cristiano, Giuseppe; De Francesco, Alessandra; Giobbio, Gian Marco; Maggi, Paolo; Rossi, Giuseppe; Segalini, Beatrice; Candini, Valentina; Andreose, Suor; Basso, Pasquale; Beneduce, Rossella; Bertolotti, Pietro; Braida, Vanda; Bonelli, Marina; Bongiorno, Fanny; Bussi, Riccardo; Castagno, Elisa; Dominicis, Fabio; Ghersi, Loredana; Greppo, Stefania; Sodano, Alessandro Jaretti; Leporatti, Massimo; Presti, Eleonora Lo; Milone, Valeria; Panigada, Fausto; Pasquadibisceglie, Livia; Rigamonti, Danilo; Rillosi, Lucianade Girolamo, Giovanni; Buizza, Chiara; Sisti, Davide; Ferrari, Clarissa; Bulgari, Viola; Iozzino, Laura; Boero, Maria Elena; Cristiano, Giuseppe; De Francesco, Alessandra; Giobbio, Gian Marco; Maggi, Paolo; Rossi, Giuseppe; Segalini, Beatrice; Candini, Valentina; Andreose, Suor; Basso, Pasquale; Beneduce, Rossella; Bertolotti, Pietro; Braida, Vanda; Bonelli, Marina; Bongiorno, Fanny; Bussi, Riccardo; Castagno, Elisa; Dominicis, Fabio; Ghersi, Loredana; Greppo, Stefania; Sodano, Alessandro Jaretti; Leporatti, Massimo; Presti, Eleonora Lo; Milone, Valeria; Panigada, Fausto; Pasquadibisceglie, Livia; Rigamonti, Danilo; Rillosi, Lucian

In vitro targeting and imaging the translocator protein TSPO 18-kDa through G(4)-PAMAM-FITC labeled dendrimer

Mitochondria represent an attractive subcellular target due to its function particularly important for oxidative damage, calcium metabolism and apoptosis. However, the concept of mitochondrial targeting has been a neglected area so far. The translocator protein (TSPO) represents an interesting subcellular target not only to image disease states overexpressing this protein, but also for a selective mitochondrial drug targeting. Recently, we have delivered in vitro and in vivo small molecule imaging agents into cells overexpressing TSPO by using a family of high-affinity conjugable ligands characterized by 2-phenyl-imidazo[1,2-a]pyridine acetamide structure. As an extension, in the present work we studied the possibility to target and image TSPO with dendrimers. These nano-platforms have unique features, in fact, are prepared with a level of control not reachable with most linear polymers, leading to nearly monodisperse, globular macromolecules with a large number of peripheral groups. As a consequence, they are an ideal delivery vehicle candidate for explicit study of the effects of polymer size, charge, composition, and architecture on biologically relevant properties such as lipid bilayer interactions, cytotoxicity, cellular internalization, and subcellular compartments and organelles interactions. Here, we present the synthesis, characterization, cellular internalization, and mitochondria labeling of a TSPO targeted fourth generation [G(4)-PAMAM] dendrimer nanoparticle labeled with the organic fluorescent dye fluorescein. We comprehensively studied the cellular uptake behavior of these dendrimers, into glioma C6 cell line, under the influence of various endocytosis inhibitors. We found that TSPO targeted-G(4)-PAMAM-FITC dendrimer is quickly taken up by these cells by endocytosis pathways, and moreover specifically targets the mitochondria as evidenced from subcellular fractionation experiments and co-localization studies performed with CAT (Confocal-AFM-TIRF) microscopy