Improving plant physiological performance and growth by increasing the efficiency of lighting systems

Plant cultivation in controlled environment has been grown considerably for commercial vegetable production in addition to research purposes in plant science. In a controlled environment, as well as in nature, light is a main factor affecting plant growth, development, and photosynthetic performance. Therefore, the yield and the quality of plant products are highly dependent on the amount of available light and its spectral composition. Light interaction with plants is not limited to photosynthesis. In addition to light intensity and quality, plants perceive also light direction which is essential in phototropic responses. Light is a major influential stimulus on plant tropisms, together with gravity force, and both compete and interact with each other. Considering plant cultivation in altered-gravity environment such as on the ISS, the moon or mars, light plays an unique role as an external stimulus in shaping the plant in a three-dimensional space through photomorphogenesis and phototropism. However, little is known about the interaction between plant tropisms, especially considering tropic responses of roots, and only recently advances in knowledge have been made thanks to the opportunities to experiment in absence of gravity on the ISS combining the use of LED technology. In this context, a deep understanding of plant responses to the different characteristics of light is needed and the peculiarities of LED technology provide promising opportunities for study and research in the field of plant science. The study and research activities carried out during this Ph.D. program were focused on plant responses to spectral composition of light by using LED technology. More specifically, the studies considered species suitable for plant production in controlled environment, with particular attention to red-leaf or reddish-leaf plants due to their contribution of antioxidant compounds to plant food. Given that the general aim of this Ph.D. was to improve plant cultivation in Space, in addition to studies specifically focused on the effect of light on plant growth, part of the research was dedicated to interactions between light and altered gravity. To perform experiments in altered-gravity conditions it was necessary to use specific facilities such as the International Space Station (ISS), the Large Diameter Centrifuge, and the Random Positioning Machine

The Prostacyclin Analogue Iloprost as an Early Predictor of Successful Revascularization in Diabetic Patients Affected by Critical Limb Ischemia and Foot Ulcers

Abstract Purpose The aim of this study is to evaluate the role of Iloprost as an early predictor of successful revascularization in patients affected by ischemic diabetic foot ulcers (DFUs). Methods Consecutive patients with ischemic DFUs with persistent low TcPO2 ( All patients underwent Iloprost infusion and TcPO2 has been recorded at days 3, 14 and 30. According to the TcPO2 reported at day 3, patients were divided into two groups: group A (patients with TcPO2 ≥30mmHg) and group B (patients with TcPO2  Results Twenty-five patients have been included, 12/25 (48%) in Group A and 13/25 (52%) in Group B. There were no significant differences at the baseline and one day after PTA between the two groups while TcPO2 values recorded in Group A at days 3, 14 and 30 after Iloprost infusion were significant higher in comparison to the Group B (χ = 0.005). The rate of re-PTA were respectively 33,3% (Group A) and 53,8% (Group B) (p = 0.03). Conclusions Iloprost may be an early predictor of successful revascularization in patients affected by critical limb ischemia (CLI) and DFUs

High Temperature and Humidity Affect Pollen Viability and Longevity in Olea europaea L.

Olea europaea L. is a crop typical of the Mediterranean area that has an important role in economy, society, and culture of this region. Climate change is expected to have significant impact on this crop, which is typically adapted to certain pedo-climatic characteristics of restricted geographic areas. In this scenario, the aim of this study was to evaluate the time-course response of pollen viability to different combinations of temperature and humidity. The study was performed comparing flowering time and pollen functionality of O. europaea from twelve cultivars growing at the same site belonging to the Campania olive collection in Italy. Pollen was incubated at 12 °C, 22 °C, and 36 °C in combination with 50% RH or 100% RH treatments for 5 days. The results highlighted that a drastic loss of pollen viability occurs when pollen is subjected to a combination of high humidity and high temperature, whereas 50% RH had less impact on pollen thermotolerance, because most cultivars preserved a high pollen viability over time. In the ongoing climate change scenario, it is critical to assess the effect of increasing temperatures on sensitive reproductive traits such as pollen viability to predict possible reduction in crop yield. Moreover, the results highlighted that the effect of temperature increase on pollen thermotolerance should be evaluated in combination with other environmental factors such as humidity conditions. The screening of olive cultivars based on pollen thermotolerance is critical in the ongoing climate change scenario, especially considering that the economic value of this species relies on successful fertilization and embryo development, and also that production cycle of Olea europaea can be longer than a hundred years

Carotid body tumors: radioguided surgical approach

This is an Open Access article distributed under the terms of the Creative Commons Attribution Licens

Short-Term Effects of Radiotherapy Postquadrantectomy on Internal Mammary Artery and Vein

When a tumor local recurrence occurs a possible approach can be a mastectomy with simultaneous breast reconstruction with autologous tissue. The area involved by tangential radiation portals includes also the internal mammary artery and veins, considered by the most part of plastic surgeons to be the best recipient vessels for a free flap in breast reconstruction. Internal mammary vessels receives low but not necessary insignificant doses during whole breast irradiation; arteries and veins are traditionally considered quietly resistant to the irradiation but limited data on the flux in mammary vessels after radiotherapy are available. The goal of our study (37 patients from September 2011 to February 2012) was to evaluate modifications in vascular parameters of the flux at ultrasonography in the internal mammary chain after adjuvant radiotherapy that could influence the choice of the autologous surgical technique (free or pedicled flap) and the choice of the recipient vessels in breast reconstruction. Based on the results of our study, we would recommend avoiding an irradiated recipient site when no irradiated recipient vessels are available; a preoperative ultrasound evaluation is recommended in patients underwent whole breast irradiation

Analysis of Polyphenolic Compounds in Water-Based Extracts of Vicia faba L.: A Potential Innovative Source of Nutraceutical Ingredients

The water-based extract of broad bean hulls contains several bioactive molecules, including polyphenols well-known to exert antioxidant activity, which could justify its use in nutraceutical formulations. Hence, the current investigation aimed to establish the polyphenolic profile of water-based extracts from broad bean hulls through UHPLC-Q-Orbitrap HRMS analysis. The findings highlighted that p-coumaric acid, chlorogenic acid, and epicatechin were the most common compounds found in the tested extracts, being quantified at a mean concentration of 42.1, 32.6, and 31.2 mg/100 g, respectively. Moreover, broad bean hull extracts were encapsulated into a nutraceutical formulation, after which the antioxidant properties and the bioaccessibility of phenolic compounds during the simulated gastrointestinal (GI) process were investigated and compared with the digested non-encapsulated extract. The data highlighted that following the GI process, the capsules were able to preserve active compounds from the adverse effects of digestion, resulting in a greater antioxidant capacity and polyphenol bioaccessibility in the duodenal and colonic phases, compared with the non-encapsulated extract. Our results showed that the water extract from broad bean hulls may be considered a valuable source of natural polyphenolic compounds; in addition, the use of a gastric-resistant capsule could be a suitable alternative to transport these bioactive compounds to the target tissues

Report of a rare case of colon cancer complicated by anomalies of intestinal rotation and fixation: a case report

Introduction: The Situs viscerum inversus associated with anomalies of intestinal rotation and fixation is an extremely rare condition. To the authors' knowledge, this is the first report of colon cancer associated with intestinal malrotation and mesenterium ileocolicum commune. Case presentation: A 34-year-old man with a 2-month history of diarrhea associated with abdominal pain and weight loss underwent abdominal ultrasonography, colonscopy with biopsies and abdominal computed tomography scan with intravenous contrast. A right colonic neoplasm was diagnosed, observed only at surgery, as neither computed tomography or ultrasonography showed the intestinal malrotation. Particularly, the third and the fourth part of the duodenum descended vertically, without Treitz's ligament in support to the duodeno-jejunal flexure. The small bowel and the colon were located in the right and left side of the abdominal cavity, respectively. Conclusion: The anomaly of situs viscerum inversus influenced the surgical strategy in this case because of the vascular and lymphatic anomalies. Lymphatic vessels were therefore marked with subserosal injection of patent blue in the proximity of the tumor. Subsequently, right colectomy was performed. Colectomy extended from the distal ileum to the descending colon, by ligature of the right colic artery and vein at the origin from the superior mesenteric vessels. Patent blue guided lymphadenectomy was also performed with curative intent. Finally, a mechanical ileo-colic anastomosis was carried out. After right colectomy and ileo-descending anastomosis, the Ladd's procedure for intestinal malrotation was unnecessary. The authors believe that this strategy, despite the anatomical difficulties, represents an effective procedure for the radical surgical treatment of the right colon cancer associated with anomalies of intestinal rotation and fixatio

Effect of Phenolic Extract from Red Beans (Phaseolus vulgaris L.) on T-2 Toxin-Induced Cytotoxicity in HepG2 Cells

Red beans contain human bioactive compounds such as polyphenols. Several in vitro studies have proposed the natural compounds as an innovative strategy to modify the toxic effects produced by mycotoxins. Hence, in this work, a complete investigation of the polyphenolic fraction of red beans was performed using a Q-Orbitrap high-resolution mass spectrometry analysis. Notably, epicatechin and delphinidin were the most detected polyphenols found in red bean extracts (3.297 and 3.108 mg/Kg, respectively). Moreover, the red bean extract was evaluated against the T-2 toxin (T-2) induced cytotoxicity in hepatocarcinoma cells (HepG2) by direct treatment, simultaneous treatment, and pre-treatment assays. These data showed that T-2 affected the cell viability in a dose-dependent manner, as well as observing a cytotoxic effect and a significant increase in ROS production at 30 nM. The simultaneous treatment and the pre-treatment of HepG2 cells with red bean extract was not able to modify the cytotoxic T-2 effect. However, the simultaneous treatment of T-2 at 7.5 nM with the red bean extract showed a significant decrease in ROS production, with respect to the control. These results suggest that the red bean extract could modulate oxidative stress on HepG2 cells