Your search keyword '"Pronzato, R"' showing total 4 results

1. Natural collagenic skeleton of marine sponges in pharmaceutics: Innovative biomaterial for topical drug delivery.

Author

Langasco R, Cadeddu B, Formato M, Lepedda AJ, Cossu M, Giunchedi P, Pronzato R, Rassu G, Manconi R, and Gavini E

Subjects

Administration, Topical, Alginates pharmacology, Animals, Collagen ultrastructure, Cysteine analysis, Glucuronic Acid pharmacology, Glycosaminoglycans analysis, Hexuronic Acids pharmacology, Microscopy, Electron, Scanning, Permeability, Powders, Sterilization, Water chemistry, Aquatic Organisms chemistry, Biocompatible Materials pharmacology, Collagen pharmacology, Drug Delivery Systems, Inventions, Porifera chemistry, Skeleton chemistry

Abstract

The growing interest in the use of recyclable and biodegradable natural materials has become a relevant topic in pharmaceutics. In this work, we suggest the use and valorization of natural horny skeleton of marine sponges (Porifera, Dictyoceratida) as bio-based dressing for topical drug delivery. Biomaterial characterization focusing on morpho-functional traits, swelling behavior, fluid uptake performances, glycosaminoglycans content and composition and microbiological quality assessment was carried out to investigate the collagenic skeleton properties. After grinding and sieving processes, l-cysteine hydrochloride-loaded formulations were designed in form of powder or polymeric film by testing various drug concentrations and different drying parameters. Drug content, SEM analyses and in vitro permeation studies were performed to test the suitability of skeleton-based formulations. To this respect, drying time and temperature are key parameters for skeleton-mediated drug crystallization. Consequently, this behavior seems to influence drug loading and permeation profiles of formulations. The high percentages of drug are found after absorption into sponge powder and in vitro permeation studies demonstrate that cysteine is released more slowly than the pure drug within 1h. Such a system is attractive because it combines the known healing properties of cysteine with the advantageous potentials of the collagen/proteoglycan network, which can act as biocompatible carrier able to absorb the excess of the wound exudate while releasing the drug. Furthermore, due to its glycosaminoglycans content, natural sponge skeletal scaffold might act as bioactive-biomimetic carrier regulating the wound healing processes., (Copyright © 2016. Published by Elsevier B.V.)

Published

2017

2. Swimming speed alteration in the early developmental stages of Paracentrotus lividus sea urchin as ecotoxicological endpoint.

Author

Morgana S, Gambardella C, Falugi C, Pronzato R, Garaventa F, and Faimali M

Subjects

Animals, Behavior, Animal drug effects, Life Cycle Stages drug effects, Ecotoxicology methods, Paracentrotus drug effects, Swimming, Water Pollutants, Chemical toxicity

Abstract

Behavioral endpoints have been used for decades to assess chemical impacts at concentrations unlikely to cause mortality. With recently developed techniques, it is possible to investigate the swimming behavior of several organisms under laboratory conditions. The aims of this study were: i) assessing for the first time the feasibility of swimming speed analysis of the early developmental stage sea urchin Paracentrotus lividus by an automatic recording system ii) investigating any Swimming Speed Alteration (SSA) on P. lividus early stages exposed to a chemical reference; iii) identifying the most suitable stage for SSA test. Results show that the swimming speed of all the developmental stages was easily recorded. The swimming speed was inhibited as a function of toxicant concentration. Pluteus were the most appropriate stage for evaluating SSA in P. lividus as ecotoxicological endpoint. Finally, swimming of sea urchin early stages represents a sensitive endpoint to be considered in ecotoxicological investigations., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

3. Sustainable production of biologically active molecules of marine based origin.

Author

Murray PM, Moane S, Collins C, Beletskaya T, Thomas OP, Duarte AW, Nobre FS, Owoyemi IO, Pagnocca FC, Sette LD, McHugh E, Causse E, Pérez-López P, Feijoo G, Moreira MT, Rubiolo J, Leirós M, Botana LM, Pinteus S, Alves C, Horta A, Pedrosa R, Jeffryes C, Agathos SN, Allewaert C, Verween A, Vyverman W, Laptev I, Sineoky S, Bisio A, Manconi R, Ledda F, Marchi M, Pronzato R, and Walsh DJ

Subjects

Europe, Aquatic Organisms, Biotechnology economics, Biotechnology methods, Biotechnology organization & administration, Biotechnology trends

Abstract

The marine environment offers both economic and scientific potential which are relatively untapped from a biotechnological point of view. These environments whilst harsh are ironically fragile and dependent on a harmonious life form balance. Exploitation of natural resources by exhaustive wild harvesting has obvious negative environmental consequences. From a European industry perspective marine organisms are a largely underutilised resource. This is not due to lack of interest but due to a lack of choice the industry faces for cost competitive, sustainable and environmentally conscientious product alternatives. Knowledge of the biotechnological potential of marine organisms together with the development of sustainable systems for their cultivation, processing and utilisation are essential. In 2010, the European Commission recognised this need and funded a collaborative RTD/SME project under the Framework 7-Knowledge Based Bio-Economy (KBBE) Theme 2 Programme 'Sustainable culture of marine microorganisms, algae and/or invertebrates for high value added products'. The scope of that project entitled 'Sustainable Production of Biologically Active Molecules of Marine Based Origin' (BAMMBO) is outlined. Although the Union is a global leader in many technologies, it faces increasing competition from traditional rivals and emerging economies alike and must therefore improve its innovation performance. For this reason innovation is placed at the heart of a European Horizon 2020 Strategy wherein the challenge is to connect economic performance to eco performance. This article provides a synopsis of the research activities of the BAMMBO project as they fit within the wider scope of sustainable environmentally conscientious marine resource exploitation for high-value biomolecules., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2013

4. The marine sponge Chondrilla nucula Schmidt, 1862 as an elective candidate for bioremediation in integrated aquaculture.

Author

Milanese M, Chelossi E, Manconi R, Sarà A, Sidri M, and Pronzato R

Subjects

Animals, Biodegradation, Environmental, Feasibility Studies, Marine Biology methods, Systems Integration, Aquaculture methods, Escherichia coli isolation & purification, Porifera microbiology

Abstract

The use of sponges for marine bioremediation in a farming scenario has been investigated focusing on Chondrilla nucula. We report experiments examining clearance and retention rates of the bacterium Escherichia coli. Despite low values expressed for clearance tests, C. nucula exhibited a marked ability to retain high quantities of bacteria. One square meter patch of this sponge can filter up to 14 l/h of sea water retaining up to 7 x 10(10) bacterial cells/h. This suggests that C. nucula is a suitable species for marine environmental bioremediation.

Published

2003