Why Not Introducing the Third Dimension in Photodynamic Therapy Research?

Photodynamic therapy (PDT) is a clinically approved procedure for the treatment of diseases characterized by uncontrolled cell proliferation, particularly cancer. It involves the administration of a photosensitizer (PS) that is able to produce reactive oxygen species (ROS) upon irradiation with light, leading to the selective killing of neoplastic cells. A major challenge in PDT is the development of new PSs and drug-delivery systems that improve therapy efficacy and selectivity. To succeed in drug screening, it is crucial to use cellular systems that precisely reproduce the phenotype of the target tissue in order to obtain reliable biomedical data that correlate with in vivo tests. In this way, three-dimensional (3D) cultures are particularly attractive since they integrate chemical and mechanical signals that arise from extracellular matrix (ECM) and adjacent cells. Importantly, 3D models can mimic in vivo gene expression pattern and molecular gradients. These features significantly affect the outcome of PDT, enhancing the predictive power of 3D models. Therefore, PDT research should rely on the exploitation of this third dimension, guaranteeing a custom-tailor design depending on the tissue to be modeled, an easy applicability and reproducibility. The review summarizes progress in this emerging area

The Economic Impact of yacht charter tourism on the Balearic Economy

[eng] This paper evaluates the impact of yacht charter tourism on the economy of the Balearic Islands, one of the most popular yachting tourism destinations in the Mediterranean. Empirical evidence, from a sample of yacht charter tourists and a database on charter firms in the Balearics provided by the National Charter Federation, gives information on daily tourist expenditure, the number of charter tourists and firms’ turnover and employment. More than 100,000 tourists come annually to the Balearics to charter yachts. Average daily expenditure per tourist, including charter cost and other spending on hotel accommodation, bars and restaurants, shopping and other items, is €170; however, average daily expenditure varies depending on the typology of boat rented. When tourist spending in the country of origin is included, average daily expenditure rises to €203.90. Daily expenditure is higher than that of a traditional tourist (€105.20) and similar to that of a golf tourist (€211). Finally, yacht charter activity in the Balearics contributes to the generation of around 866 jobs in the archipelago

The Yachting Charter Tourism SWOT: A Basic Analysis to Design Marketing Strategies

[eng] The Balearics’ economy is heavily dependent on tourism, generating revenue and employment; nevertheless, nowadays the archipelago is considered a traditional destination that could be currently reaching its mature stage. In this context, the new marketing guidelines for tourism adopted by the Balearic Government in recent years are based on promoting the development of different tourism products. The aim of this new strategy is to promote high value added products, such as the yachting charter tourism, to explore new market segments and to improve the image of the destination according to the consumer behaviour.This paper identifies the strengths, weaknesses, opportunities and threats (SWOT) of the yacht charter sector, using empirical evidence on the demand and supply side. The results will be very useful for this sector to design and launch successfully new marketing and promotion strategies and policies in order to maintain tourism activity, increase tourist average expenditure, lengthen the tourist season and change the image of the islands

Emerging tumor spheroids technologies for 3D in vitro cancer modeling

"Article in Press, Available online 31 October 2017" ; "S0163-7258(17)30268-1"Cancer is a leading cause of mortality and morbidity worldwide. Around 90% of deaths are caused by metastasis and just 10% by primary tumor. The advancement of treatment approaches is not at the same rhythm of the disease; making cancer a focal target of biomedical research. To enhance the understanding and promts the therapeutic delivery; concepts of tissue engineering are applied in the development of in vitro models that can bridge between 2D cell culture and animal models, mimicking tissue microenvironment. Tumor spheroid represents highly suitable 3D organoid-like framework elucidiating the intra and inter cellular signaling of cancer, like that formed in physiological niche. However, spheroids are of limited value in studying critical biological phenomenon such as tumor-stroma interactons involving extra cellular matrix or immune system. Therefore, a compelling need of tailoring spheroid technologies with physiologically relevant biomaterials or in silico models, is ever emerging. The diagnostic and prognostic role of spheroids rearrangements within biomaterials or microfluidic channel is indicative of patient management; particularly for the decision of targated therapy. Fragmented information on available in vitro spheroid models and lack of critical analysis on transformation aspects of these strategies; pushes the urge to comprehensively overview the recent technological advancements (e.g. bioprinting, micro-fluidic technologies or use of biomaterials to attain the third dimension) in the shed of tranlationable cancer research. In present article, relationships between current models and their possible exploitation in clinical success is explored with the highlight of existing challenges in defining therapeutic targets and screening of drug efficacy.The authors are thankful to European Union (Horizon 2020) funded project FoReCaST (No. 668983), the FCT fellowship to J. Silva-Correia (Grant No. SFRH/BPD/100590/2014), distinctions to J.M.O. under the Investigator FCT program (IF/00423/2012) and V.M.C. under the Investigator FCT program (IF/01214/2014) for supporting this work financially.info:eu-repo/semantics/publishedVersio

Anti-cancer drug validation: the contribution of tissue engineered models

Abstract Drug toxicity frequently goes concealed until clinical trials stage, which is the most challenging, dangerous and expensive stage of drug development. Both the cultures of cancer cells in traditional 2D assays and animal studies have limitations that cannot ever be unraveled by improvements in drug-testing protocols. A new generation of bioengineered tumors is now emerging in response to these limitations, with potential to transform drug screening by providing predictive models of tumors within their tissue context, for studies of drug safety and efficacy. Considering the NCI60, a panel of 60 cancer cell lines representative of 9 different cancer types: leukemia, lung, colorectal, central nervous system (CNS), melanoma, ovarian, renal, prostate and breast, we propose to review current Bstate of art^ on the 9 cancer types specifically addressing the 3D tissue models that have been developed and used in drug discovery processes as an alternative to complement their studyThis article is a result of the project FROnTHERA (NORTE-01-0145-FEDER-000023), supported by Norte Portugal Regional Operational Programme (NORTE 2020), under the PORTUGAL 2020 Partnership Agreement, through the European Regional Development Fund (ERDF). This article was also supported by the EU Framework Programme for Research and Innovation HORIZON 2020 (H2020) under grant agreement n° 668983 — FoReCaST. FCT distinction attributed to Joaquim M. Oliveira (IF/00423/2012) and Vitor M. Correlo (IF/01214/2014) under the Investigator FCT program is also greatly acknowledged.info:eu-repo/semantics/publishedVersio