Antimicrobial activity of different nanocellulose films embedded with thyme, cinnamon, and oregano essential oils for active packaging application on raspberries

The study focuses on the antimicrobial activity of nanocellulose films (NFC) embedded with thyme, cinnamon, and oregano essential oils for active packaging application. The activity against model pathogenic bacteria was first tested to obtain each oil's minimum inhibitory concentration (MIC). The tests showed that the surface area of the films and the quantity of essential oil strongly influenced the antimicrobial effect. Then, the different active packaging systems were tested directly on packed raspberries to study their actual commercial packaging conditions. Through 12 days of storage at 1 & DEG;C, it was observed that thyme and oregano essential oils were more effective in maintaining the firmness and reducing the weight loss of the fruits compared to cinnamon essential oil or the control; no significant effect was observed on the other quality parameters that were considered. The essential oils independently proved effective in preventing fungal growth. However, the combined impact of thyme+oregano (NAP_TO) demonstrated the best performance.COST ACTION 19124 CIRCULA-BILITYinfo:eu-repo/semantics/publishedVersio

Pleural tuberculosis: medical thoracoscopy greatly increases the diagnostic accuracy

Our objective was to evaluate the efficacy of a standardised work-up in the diagnosis of pleural tuberculosis (TB) that included fibreoptic bronchoscopy and medical thoracoscopy. A consecutive series of 52 pleural TB patients observed during the period 2001-2015 was evaluated retrospectively. 20 females, mean (range) age 39.7 (18-74) years, and 32 males, mean (range) age 45.75 (21-83) years, were included (28 non-EU citizens (53.8%)). The diagnosis of TB infections was established by identification (using stains, culture or molecular tests) of Mycobacterium tuberculosis in the pleura, sputum and/or bronchial specimens, or by evidence of caseous granulomas on pleural biopsies. Patients with and without lung lesions were considered separately. The diagnostic yield of the microbiological tests on pleural fluid was 17.3% (nine out of 52 patients). Among the 18 patients with lung lesions, bronchial samples (washing, lavage or biopsy) were positive in 50% of cases (nine patients). Cultures of pleural biopsies were positive in 63% of cases (29 out of 46 patients); pleural histology was relevant in all patients. Without pleural biopsy, a diagnosis would have been reached in 15 out of 52 patients (28.6%) and in four of them only following culture at 30-40 days. An integrated diagnostic work-up that includes all the diagnostic methods of interventional pulmonology is required for a diagnosis of pleural TB. In the majority of patients, a diagnosis can be reached only with pleural biopsy

Effect of Ethyl Ester L-Lysine Triisocyanate addition to produce reactive PLA/PCL bio-polyester blends for biomedical applications

This paper was accepted for publication in the journal Journal of the Mechanical Behavior of Biomedical Materials and the definitive published version is available at http://dx.doi.org/10.1016/j.jmbbm.2017.02.018We report in this paper the effects of Ethyl Ester L-Lysine Triisocyanate (LTI) on the physical-mechanical properties of Poly(lactide)/Poly(ε-caprolactone) (PLA/PCL) polyesters blends. The PLA/PCL ratios considered were 20/80, 50/50 and 80/20 (wt/wt %) and LTI was added in amounts of 0.0-0.5-1.0 phr. PLA and PCL reacted with LTI during processing in a Brabender twin screw internal mixer to produce block copolymers in-situ. The resulting blends have been characterized by torque measurements, uniaxial tensile tests, Differential Scanning Calorimeter, contact angle measurements with a Phosphate Buffered Saline (PBS) solution, ATR analysis and morphological SEM observations. Experimental results highlighted how LTI enhanced interaction and dispersion of the two components, resulting into a synergic effect in mechanical properties. Mechanical and physical properties can be tailored by changing the blend composition. The most noticeable trend was an increase in ductility of the mixed polymers. Besides, LTI decreased blend’s wet ability in PBS and lowered the starting of crystalline phase formation for both polymers, confirming an interaction among them. These reactive blends could find use as biomedical materials, e.g. absorbable suture threads or scaffolds for cellular growth

The use of essential oils in chitosan or cellulose-based materials for the production of active food packaging solutions: a review

In recent decades, interest in sustainable food packaging systems with additional functionality, able to increase the shelf life of products, has grown steadily. Following this trend, the present review analyzes the state of the art of this active renewable packaging. The focus is on antimicrobial systems containing nanocellulose and chitosan, as support for the incorporation of essential oils. These are the most sustainable and readily available options to produce completely natural active packaging materials. After a brief overview of the different active packaging technologies, the main features of nanocellulose, chitosan, and of the different essential oils used in the field of active packaging are introduced and described. The latest findings about the nanocellulose- and chitosan-based active packaging are then presented. The antimicrobial effectiveness of the different solutions is discussed, focusing on their effect on other material properties. The effect of the different inclusion strategies is also reviewed considering both in vivo and in vitro studies, in an attempt to understand more promising solutions and possible pathways for further development. In general, essential oils are very successful in exerting antimicrobial effects against the most diffused gram-positive and gram-negative bacteria, and affecting other material properties (tensile strength, water vapor transmission rate) positively. Due to the wide variety of biopolymer matrices and essential oils available, it is difficult to create general guidelines for the development of active packaging systems. However, more attention should be dedicated to sensory analysis, release kinetics, and synergetic action of different essential oils to optimize the active packaging on different food products

Nanocellulose films activated with essential oils for active packaging applications

The study focused on the analysis of the state of the art of active packaging and on the development of an innovative active packaging system for food application based on the use of nanocellulose matrix embedded with essential oils. The solubility and diffusivity of thyme, cinnamon and oregano essential oils in three nanocellulose films, endowed with different carboxymethylation degree, were analysed. The antimicrobial and antioxidant activity of those films was also analyzed. Firstly, the activity against model pathogenic bacteria was tested and the minimum inhibitory concentration of each oil was determined (0.37 – 0.68 mg/mg of matrix). This initial validation was then followed by experimental settings aimed at testing the system directly on clamshell type packed raspberries. It was observed that thyme and oregano essential oils were more effective in maintaining firmness and reduce weight loss than cinnamon essential oil or controls, through 12 days storage at 1ºC. From the results obtained, it is possible to conclude that the dispersion of thyme and oregano essential oils in nanocellulose matrix is a promising technology to improve shelf-life of raspberries or other fresh fruits

Cutaneous nerve sheath tumours, non‐infectious polycystic kidney disease, renal granulomas, nephrocalcinosis and crystals: Incidental pathological findings in pond‐living goldfish ( Carassius auratus , Linnaeus)

In an adult male goldfish (Carassius auratus, Linnaeus), an unusual combination of diseases was detected. The owner noted a bilateral, asymmetrical distention of the abdomen, multiple cutaneous masses and an altered swimming behaviour over the course of time; diagnostic work-up was not requested and euthanasia elected. Grossly, the cutaneous masses were whitish, discrete, extremely friable. Histologically, the dermis was multifocally expanded by moderately cellular, unencapsulated neoplastic tissue, composed of dermal spindle cells. The celomic cavity opening revealed a gelatinous multicystic mass, corresponding to the kidney, which replicated several cysts compressing the residual parenchyma. Histologically, sparse, late-stage granulomas, basophilic intratubular deposits and crystals were also detected. No mycobacterial DNA was detected in tissue with granulomas. No parasites were detected in the histological sections examined. Diagnoses of cutaneous nerve sheath tumours, polycystic kidney disease, renal late-stage granulomas, nephrocalcinosis and crystals were formulated. The authors had proposed to recapitulate each single condition

Diffusion of Thyme, Cinnamon and Oregano essential oils in different nanocellulose matrices

Solubility and diffusivity of Thyme, Cinnamon and Oregano essential oils in nanocellulose films, with different carboxymethylation degree, were investigated in view of potential use in active packaging applications.Solubility of liquid essential oils resulted to increase with the carboxymethylation degree for both Oregano and Thyme, while it was non-monotonous for Cinnamon. Thyme showed the higher solubility (about 20%wt) followed by Cinnamon and Oregano.The sorption kinetics of liquid essential oils was substantially Fickian. The diffusivity also increased with the increase of the carboxymethylation degree, going from 9.6 × 10−9 cm2⁄s, observed for oregano in pure nanocellulose, to 2.0 × 10−8 cm2⁄s, measured for Cinnamon in the most charged one.The release in vapor phase showed two different kinetics: a faster one dominating at short times and a slower one visible at long times. Fickian diffusion described the behaviour of most of the samples even if in some case data were better fitted by using exponential functions. In general, Diffusivities values ranged from 10−9 to 10−11 cm2⁄s for the fast process and from 10−11 to 10−13 cm2⁄s, for the slow one.Carboxymethylation degree also affected the release kinetics of antimicrobial essential oils, which therefore can be tuned by appropriate choice of the nanocellulose material

87Sr/86Sr isotopes in grapes of different cultivars: A geochemical tool for geographic traceability of agriculture products

87Sr/86Sr was determined on fresh red and white grapes, soils and rocks from three selected vineyards to verify the isotopic relationships between the fruit of the vine and geologic substrata of vineyards.87Sr/86Sr were determined on sampled grapes of four different harvest years and different grape varieties, on bioavailable fraction of soils, on whole soils, and on bedrocks from the geo-pedological substratum of the vineyards. The vineyards chosen for the experimental works belong to an organic farming winery and thus cultivation procedures were strictly controlled. Grapes were sampled during the harvests of four different but consecutive years with87Sr/86Sr that does not change reflecting the values of the soil bioavailable fraction. No variations among grapes from different vine cultivars were observed. A strict isotope relationship with soil bio-available fraction was observed. These findings demonstrate the reliability of87Sr/86Sr, even at a very small scale, for food products geographic origin assessment

Signal amplification properties of Electrolyte-Gated Organic Field-Effect Transistors

Electrolyte-gated organic field-effect transistors (EGOFETs) are key enabling elements for the development of bio-electronic devices, therefore it is imperative to increase the knowledge on how EGOFETs work, not only in stationary conditions but also in the time and frequency domain. In this framework, the EGOFET small-signal circuit is presented and the recording of action potentials (APs) is simulated by analyzing EGOFETs as trans-conductance amplifiers as well as voltage amplifiers. It is shown that when operating as a trans-conductance amplifier, EGOFETs ideally allow to well preserve the shape of the recorded AP but they amplify high-frequency noise thus heavily worsening the signal-to-noise ratio (SNR). Whereas, when implemented in a voltage amplifier, EGOFETs allow a substantial SNR improvement, but introduce some distortion in the recorded signal.Peer reviewe