Your search keyword '"Coelho, João"' showing total 32 results

1. Hybrid Renewable Systems for Small Energy Communities: What Is the Best Solution?

Author

Coelho, João S. T., Pérez-Sánchez, Modesto, Coronado-Hernández, Oscar E., Sánchez-Romero, Francisco-Javier, McNabola, Aonghus, and Ramos, Helena M.

Subjects

BATTERY storage plants, CLEAN energy, WIND power, PEAK load, ENERGY storage

Abstract

This research developed smart integrated hybrid renewable systems for small energy communities and applied them to a real system to achieve energy self-sufficiency and promote sustainable decentralized energy generation. It compares stand-alone (SA) and grid-connected (GC) configurations using a developed optimized mathematical model and data-driven optimization, with economic analysis of various renewable combinations (PV, Wind, PHS, BESS, and Grid) to search for the optimal solution. Four cases were developed: two stand-alone (SA1: PV + Wind + PHS, SA2: PV + Wind + PHS + BESS) and two grid-connected (GC1: PV + PHS + Grid, GC2: Wind + PHS + Grid). GC2 shows the most economical with stable cash flow (−€123.2 annually), low CO2 costs (€367.2), and 91.7% of grid independence, requiring 125 kW of installed power. While GC options had lower initial investments (between €157k to €205k), the SA configurations provided lower levelized costs of energy (LCOE) ranging from €0.039 to €0.044/kWh. The integration of pumped hydropower storage enhances energy independence, supporting peak loads for up to two days with a storage capacity of 2.17 MWh. [ABSTRACT FROM AUTHOR]

Published

2024

2. Combining Phototherapy and Gold-Based Nanomaterials: A Breakthrough in Basal Cell Carcinoma Treatment.

Author

Baioco, Karolyne Silva, Pereira, Raquel, Ferreira-Gonçalves, Tânia, Coelho, João M. P., Gaspar, Maria Manuela, and Reis, Catarina Pinto

Subjects

BASAL cell carcinoma, GOLD nanoparticles, TECHNOLOGICAL innovations, SKIN cancer, TUMOR microenvironment

Abstract

Basal cell carcinoma (BCC) is the most common type of skin carcinoma worldwide. BCC development is the result of a complex interaction between environmental, phenotypic, and genetic factors. While conventional treatments such as surgery and topical therapies have demonstrated variable efficacy (some of them with limited efficacy), they are not free of adverse side effects, most of them debilitating. Thus, there is a notable gap in the literature regarding alternative and non-invasive therapeutic options. This review aims to address this gap, exploring the potential of photothermal therapy (PTT) combined with metallic nanoparticles, namely gold nanoparticles (AuNPs), as a minimally invasive treatment approach. Through a comprehensive review of the literature in the period from 2014 to 2024, using experimental investigations, this review seeks to elucidate the intricate interplay between genetic factors, environmental influences, and the tumor microenvironment in BCC disease progression, with PTT as a potential therapeutic strategy. Those studies confirmed an enhanced targeting of cancer cells and selective ablation of tumor tissue, using emerging technologies like PTT. A significant tumor reduction, often exceeding 50%, was observed, with some studies reporting complete elimination of the tumor. The main adverse effects noted were localized skin irritation and transient hyperpigmentation, but these were generally minimal and manageable, highlighting the promise of PTT as an effective treatment. Thus, by leveraging the unique properties of AuNPs to enhance the effectiveness of PTT, the targeting of cancer cells can more precisely occur, reducing collateral damage to healthy tissues. This approach not only aims to achieve better clinical results, but also contributes to the broader knowledge base in the field of BCC research. Continued research and clinical trials will be crucial in refining those techniques and validating their efficacy, ultimately paving the way for more effective and less invasive treatments for BCC. [ABSTRACT FROM AUTHOR]

Published

2024

3. Multi-Objective and Multi-Variable Optimization Models of Hybrid Renewable Energy Solutions for Water–Energy Nexus.

Author

Coelho, João S. T., van de Loo, Maaike, Díaz, Juan Antonio Rodríguez, Coronado-Hernández, Oscar E., Perez-Sanchez, Modesto, and Ramos, Helena M.

Subjects

RENEWABLE energy sources, ENERGY consumption, WIND power, WATER rights, PYTHON programming language

Abstract

A new methodology, called HY4RES models, includes hybrid energy solutions (HESs) based on the availability of renewable sources, for 24 h of water allocation, using WaterGEMS 10.0 and PVGIS 5.2 as auxiliary calculations. The optimization design was achieved using Solver, with GRG nonlinear/evolutionary programming, and Python, with the non-dominated sorting genetic algorithm (NSGA-II). The study involves the implementation of complex multi-objective and multi-variable algorithms with different renewable sources, such as PV solar energy, pumped hydropower storage (PHS) energy, wind energy, grid connection energy, or battery energy, and also sensitivity analyses and comparisons of optimization models. Higher water allocations relied heavily on grid energy, especially at night when solar power was unavailable. For a case study of irrigation water needs of 800 and 1000 m3/ha, the grid is not needed, but for 3000 and 6000 m3/ha, grid energy rises significantly, reaching 5 and 14 GWh annually, respectively. When wind energy is also integrated, at night, it allows for reducing grid energy use by 60% for 3000 m3/ha of water allocation, yielding a positive lifetime cashflow (EUR 284,781). If the grid is replaced by batteries, it results in a lack of a robust backup and struggles to meet high water and energy needs. Economically, PV + wind + PHS + grid energy is the most attractive solution, reducing the dependence on auxiliary sources and benefiting from sales to the grid. [ABSTRACT FROM AUTHOR]

Published

2024

4. Hybrid Energy Solution to Improve Irrigation Systems: HY4RES vs. HOMER Optimization Models.

Author

Coelho, João S. T., Alves, Afonso B., Morillo, Jorge G., Coronado-Hernández, Oscar E., Perez-Sanchez, Modesto, and Ramos, Helena M.

Subjects

*OPTIMIZATION algorithms, *MATHEMATICAL optimization, *SOLAR energy, *RENEWABLE energy sources, *INDUSTRIAL efficiency

Abstract

A new methodology for hybrid energy systems (HESs) was developed, namely the HY4RES model, tailored for the water sector, covering hybrid energy objective functions and grid or battery support using optimization algorithms in Solver, MATLAB, and Python, with evolutionary methods. HOMER is used for hybrid microgrids and allows for comparison with HY4RES, the newly developed model. Both models demonstrated flexibility in optimizing hybrid renewable solutions. This study analyzed an irrigation system for 3000 m3/ha (without renewables (Base case) and the Proposed system—with PV solar and pumped-hydropower storage to maximize cash flow over 25 years). Case 1—3000 m3/ha presented benefits due to PV supplying ~87% of energy, reducing grid dependency to ~13%. Pumped-hydropower storage (PHS) charges with excess solar energy, ensuring 24 h irrigation. Sensitivity analyses for Case 2—1000—and Case 3—6000 m3/ha—highlighted the advantages and limitations of water-energy management and system optimization. Case 2 was the most economical due to lower water-energy needs with noteworthy energy sales (~73.4%) and no need for the grid. Case 3 led to increased operating costs relying heavily on grid energy (61%), with PV providing only 39%. PHS significantly lowered operating costs and enhanced system flexibility by selling excess energy to the grid. [ABSTRACT FROM AUTHOR]

Published

2024

5. A Step Forward for the Treatment of Localized Prostate Cancer Using Gold Nanoparticles Combined with Laser Irradiation.

Author

Pinho, Sara, Ferreira-Gonçalves, Tânia, Lopes, Joana, Amaral, Mariana Neves, Viana, Ana S., Coelho, João M. P., Gaspar, Maria Manuela, and Reis, Catarina Pinto

Subjects

HIGH-intensity focused ultrasound, GOLD nanoparticles, PROSTATE cancer, SURFACE plasmon resonance, LASERS, ZETA potential

Abstract

Prostate cancer (PCA) is the second most common cancer diagnosis in men and the fifth leading cause of death worldwide. The conventional treatments available are beneficial to only a few patients and, in those, some present adverse side effects that eventually affect the quality of life of most patients. Thus, there is an urgent need for effective, less invasive and targeted specific treatments for PCA. Photothermal therapy (PTT) is a minimally invasive therapy that provides a localized effect for tumour cell ablation by activating photothermal agents (PTA) that mediate the conversion of the light beam's energy into heat at the site. As tumours are unable to easily dissipate heat, they become more susceptible to temperature increases. In the PTT field, gold nanoparticles (AuNPs) have been attracting interest as PTA. The aim of this study was to formulate AuNPs capable of remaining retained in the tumour and subsequently generating heat at the tumour site. AuNPs were synthesized and characterized in terms of size, polydispersity index (PdI), zeta potential (ZP), morphology and the surface plasmon resonance (SPR). The safety of AuNPs and their efficacy were assessed using in vitro models. A preliminary in vivo safety assessment of AuNPs with a mean size lower than 200 nm was confirmed. The morphology was spherical-like and the SPR band showed good absorbance at the laser wavelength. Without laser, AuNPs proved to be safe both in vitro (>70% viability) and in vivo. In addition, with laser irradiation, they proved to be relatively effective in PCA cells. Overall, the formulation appears to be promising for use in PTT. [ABSTRACT FROM AUTHOR]

Published

2024

6. The Cardiometabolic Impact of Rebaudioside A Exposure during the Reproductive Stage.

Author

Bracchi, Isabella, Morais, Juliana, Coelho, João Almeida, Ferreira, Ana Filipa, Alves, Inês, Mendes, Cláudia, Correia, Beatriz, Gonçalves, Alexandre, Guimarães, João Tiago, Pires, Inês Falcão, Keating, Elisa, and Negrão, Rita

Subjects

HEART size, FOOD safety, LIFE cycles (Biology), BLOOD sugar, INSULIN sensitivity, HYPERGLYCEMIA

Abstract

Simple Summary: Since foods rich in refined sugars promote obesity, the use of non-caloric sweeteners has gained popularity, and their consumption by pregnant women has increased. Stevia (a non-caloric sweetener) consumption was considered safe for humans by the European Food Safety Authority in a dose of up to 4 mg/kg body weight/day. However, the World Health Organization recommended in 2023 the restraint of these sweeteners at any life stage, highlighting the need for research on pregnant women and early stages of development. So, we aimed to study the effects of chronic consumption of the main sweetener compound of stevia (Rebaudioside A) during the reproductive stage. Female rats were treated with Rebaudioside A (4 mg steviol equivalents/kg body weight/day) in the drinking water from 4 weeks before mating until weaning. Food and water consumption, blood glucose and lipids, as well as heart structure, function and mitochondrial function, were assessed. Rebaudioside A decreased heart size, cardiomyocyte area and fibrosis without repercussions on cardiac or mitochondrial function. Both fasting blood glucose and cholesterol decreased. This work suggests that stevia consumption at this dose may be safe for females during the reproductive stage. However, more studies are mandatory to explore the effects of stevia consumption on offspring's health. The consumption of non-sugar sweeteners (NSS) has increased during pregnancy. The European Food Safety Agency suggested that steviol glycosides, such as Rebaudioside A (RebA), the major sweetener component of stevia, are safe for humans up to a dose of 4 mg/kg body weight/day. However, the World Health Organization recommended in 2023 the restraint of using NSS, including stevia, at any life stage, highlighting the need to study NSS safety in early periods of development. We aimed to study the mitochondrial and cardiometabolic effects of long-term RebA consumption during the reproductive stage of the life cycle. Female rats were exposed to RebA (4 mg steviol equivalents/kg body weight/day) in the drinking water from 4 weeks before mating until weaning. Morphometry, food and water consumption, glucose and lipid homeostasis, heart structure, function, and mitochondrial function were assessed. RebA showed an atrophic effect in the heart, decreasing cardiomyocyte cross-sectional area and myocardial fibrosis without repercussions on cardiac function. Mitochondrial and myofilamentary functions were not altered. Glucose tolerance and insulin sensitivity were not affected, but fasting glycemia and total plasma cholesterol decreased. This work suggests that this RebA dose is safe for female consumption during the reproductive stage, from a cardiometabolic perspective. However, studies on the effects of RebA exposure on the offspring are mandatory. [ABSTRACT FROM AUTHOR]

Published

2024

7. Vitiligo-like Lesions as a Predictor of Response to Immunotherapy in Non-Small Cell Lung Cancer: Comprehensive Review and Case Series from a University Center.

Author

Coelho, João Queirós, Romão, Raquel, Sousa, Maria João, Azevedo, Sérgio Xavier, Fidalgo, Paula, and Araújo, António

Subjects

*NON-small-cell lung carcinoma, *IMMUNE checkpoint inhibitors, *LITERATURE reviews, *IMMUNOTHERAPY

Abstract

The reference to vitiligo-like lesions (VLLs) induced by immune checkpoint inhibitors (ICIs) as a valuable predictive marker of treatment success of immunotherapy with ICIs in melanoma has been mentioned in the literature. Its role in non-small cell lung cancer (NSCLC)-treated patients remains a poorly recognized phenomenon with uncertain significance regarding its predictive value. A retrospective, observational, single-center report was performed, with descriptive analysis of clinicopathological and treatment characteristics of patients with stage IV NSCLC who developed ICI-induced VLL between January 2018 and December 2022, contextualized in a comprehensive review of the literature and reported cases regarding this phenomenon. During the first 5 years' experience of ICI use in stage IV NSCLC treatment, three cases of ICI-induced VLLs were diagnosed. In line with the previous reports, two of the three presented cases exhibited treatment response and favorable prognosis. The recognition and understanding of the pathophysiological processes underlying ICI-induced VLLs may represent a promising opportunity to identify a predictive marker of tumor response to ICIs, with impact in treatment selection and patient management. It also may contribute to the recognition of new patterns of molecular expression that could lead to improvements in therapeutic development. [ABSTRACT FROM AUTHOR]

Published

2024

8. Blue Light of the Digital Era: A Comparative Study of Devices.

Author

Hipólito, Vladimiro and Coelho, João M. P.

Subjects

BLUE light, DIGITAL technology, SOLAR spectra, MACBOOK (Computer), OPHTHALMIC lenses, BIOLOGICAL rhythms, EYE tracking, MODERN society

Abstract

The prevalence of digital devices in modern society has raised concerns about the potential negative effects of blue-light emissions on eye health and biological rhythms. Research into blue light emissions from digital devices and their potential impact on eye health emphasizes the importance of understanding and quantifying the extent and scope of blue light emissions produced by commonly used screens (smartphones, tablets, and computers). The goal of this study was to implement a set of methodologies to analyze this emission. A comparative study specifically evaluated three popular Apple devices: the iPhone 12 mini®, iPad Pro 12.9®, and the MacBook Pro®. The devices' spectral power was measured using a spectroradiometer while displaying text and a game at different brightness levels. The laboratory measurements are compared to known solar irradiance, and all devices tested show blue wavelength peaks between 445 nm and 455 nm, with no expected immediate photobiological risk. We quantified the spectral emission from the three device categories and concluded that blue light levels should not significantly affect eye health. The measurements carried out indicated that the blue irradiance received by the human eye during one minute outdoors is greater than the blue light received by digital devices in approximately 24 h. This study also examines the effectiveness of blue-blocking lenses from well-known brands. The research highlights the importance of quantifying blue light emissions and understanding their potential impact on eye health, so appropriate measures can be developed to mitigate, if needed, adverse effects on ocular structures. A need to clarify the efficacy and usefulness of blue-blocking ophthalmic lenses still remains. [ABSTRACT FROM AUTHOR]

Published

2024

9. Pancreas Rejection in the Artificial Intelligence Era: New Tool for Signal Patients at Risk.

Author

Vigia, Emanuel, Ramalhete, Luís, Ribeiro, Rita, Barros, Inês, Chumbinho, Beatriz, Filipe, Edite, Pena, Ana, Bicho, Luís, Nobre, Ana, Carrelha, Sofia, Sobral, Mafalda, Lamelas, Jorge, Coelho, João Santos, Ferreira, Aníbal, and Marques, Hugo Pinto

Subjects

ARTIFICIAL pancreases, ARTIFICIAL intelligence, CLINICAL decision support systems, RECEIVER operating characteristic curves, PANCREAS transplantation

Abstract

Introduction: Pancreas transplantation is currently the only treatment that can re-establish normal endocrine pancreatic function. Despite all efforts, pancreas allograft survival and rejection remain major clinical problems. The purpose of this study was to identify features that could signal patients at risk of pancreas allograft rejection. Methods: We collected 74 features from 79 patients who underwent simultaneous pancreas–kidney transplantation (SPK) and used two widely-applicable classification methods, the Naive Bayesian Classifier and Support Vector Machine, to build predictive models. We used the area under the receiver operating characteristic curve and classification accuracy to evaluate the predictive performance via leave-one-out cross-validation. Results: Rejection events were identified in 13 SPK patients (17.8%). In feature selection approach, it was possible to identify 10 features, namely: previous treatment for diabetes mellitus with long-term Insulin (U/I/day), type of dialysis (peritoneal dialysis, hemodialysis, or pre-emptive), de novo DSA, vPRA_Pre-Transplant (%), donor blood glucose, pancreas donor risk index (pDRI), recipient height, dialysis time (days), warm ischemia (minutes), recipient of intensive care (days). The results showed that the Naive Bayes and Support Vector Machine classifiers prediction performed very well, with an AUROC and classification accuracy of 0.97 and 0.87, respectively, in the first model and 0.96 and 0.94 in the second model. Conclusion: Our results indicated that it is feasible to develop successful classifiers for the prediction of graft rejection. The Naive Bayesian generated nomogram can be used for rejection probability prediction, thus supporting clinical decision making. [ABSTRACT FROM AUTHOR]

Published

2023

10. Blue Light and Eye Damage: A Review on the Impact of Digital Device Emissions.

Author

Hipólito, Vladimiro and Coelho, João M. P.

Subjects

DIGITAL technology, BLUE light, BIBLIOGRAPHIC databases, CRYSTALLINE lens, TISSUES, SCIENCE databases, CORNEA

Abstract

The pandemic and lockdown caused by COVID-19 accelerated digitalization. Personal digital devices, emitting high-energy light, namely in the blue wavelength, have raised concerns about possible harmful effects on users' eyes. Scientific research history has shown a relationship between exposure to blue light and changes in ocular structures. The main goal of this review is to examine frequent and prolonged exposure to blue radiation from computers, tablets and smartphones and its consequences on vision and ocular structures. Bibliographic research was carried out on changes induced by blue light in ocular structures, the cornea, the crystalline lens and the retina based on the following scientific databases: BioOne Complete™; Google Scholar™; Paperity™; PubMed™; and ScienceOpen™. The most significant studies on blue light and ocular damage were selected and reviewed. The most relevant bibliographic data were analyzed and summarized and some gaps in the theme of blue light from digital devices were identified. The experimental need to acquire additional new data is suggested. The hypothesis that continued use of digital devices enriched with blue light may interfere with the biological tissues of the cornea, crystalline lens, or retina is not clarified in the available scientific evidence. Therefore, additional studies are needed to answer this problem. [ABSTRACT FROM AUTHOR]

Published

2023

11. Integrated Use of Bioaccumulation, Genotoxic, and Haematological Endpoints to Assess the Effect of Water Remediation Strategies on Fish Health: A Complementary Study.

Author

Mieiro, Cláudia Leopoldina, Coelho, João Pedro, Reis, Ana Teresa, Castro, Diana, Figueira, Paula, Martinho, Filipe, Pardal, Miguel A., Pereira, Eduarda, Pacheco, Mário, and Lopes, Cláudia B.

Subjects

BLOOD cell count, ERYTHROCYTES, PSETTA maxima, BIOACCUMULATION, SALINE waters, MERCURY poisoning

Abstract

Biosorption successfully remediates saline water contaminated with legacy contaminants, but its effects on the health of marine organisms remain unclear. Therefore, our aim was to address this knowledge gap with data on the accumulation ability, as well as the cytogenetic and biochemical effects in turbot (Scophthalmus maximus). To this end, we exposed turbot for seven days to a mixture of remediated metals (Rem treatments: Cd, Hg, and Pb), with and without the presence of nanoparticles (NP), and compared them with the maximum allowable concentrations (MAC treatment) for effluent discharges. We determined the metal accumulation in the blood and kidney and evaluated haematological changes (red blood cell count, haemoglobin, and mean cell haemoglobin (MCH)) and genotoxicity (erythrocytic nuclear abnormalities assay) in the blood. The results showed that remediation with non-living macroalgae significantly reduced the metallic blood and kidney burdens in the Rem treatments. Furthermore, no genotoxic potential occurred in the Rem and MAC treatments in parallel with the reduction in MCH levels in the Rem treatments, which would reflect hematopoietic disturbances in the MAC. Our results validate biosorption remediation as we achieved a considerable reduction in metal loads while maintaining the health status of fish, highlighting the importance of testing water remediation methods in the biota. [ABSTRACT FROM AUTHOR]

Published

2023

12. Impact of Immune-Related Adverse Events on Immune Checkpoint Inhibitors Treated Cancer Patients' Survival: Single Center Experience and Literature Review.

Author

Romão, Raquel, Mendes, Ana S., Ranchor, Ridhi, Ramos, Maria João, Coelho, João, Pichel, Rita Carrilho, Azevedo, Sérgio Xavier, Fidalgo, Paula, and Araújo, António

Subjects

BIOMARKERS, IMMUNE checkpoint inhibitors, CONFIDENCE intervals, ACQUISITION of data, RETROSPECTIVE studies, CANCER patients, RADIATION pneumonitis, SURVIVAL analysis (Biometry), MEDICAL records, DESCRIPTIVE statistics, TUMORS, PROGRESSION-free survival, LONGITUDINAL method, OVERALL survival

Abstract

Simple Summary: The widespread use of immune checkpoint inhibitors (ICI) came along with a new challenge for oncologists, immune-related adverse events (irAE). A positive correlation between irAE onset and ICI efficacy has been suggested. However, it remains unsettled. Whether the association exists and if it is affected by cancer type or ethnicity needs further investigation. This study provides additional evidence to support this association by using a retrospective, single-center cohort design to analyze survival outcomes and the development of irAEs of 155 patients. Overall, the study offers new insights into the potential use of irAEs as biomarkers for response and survival in solid tumor patients receiving ICIs, and highlights the need for further research in this area. Immune-related adverse events have emerged as a new challenge and its correlation with survival remains unclear. The goal of our study was to investigate the effect of irAE on survival outcomes in solid tumor patients receiving ICI treatment. This was a retrospective, single-center study at a university hospital involving patients with malignancy who received immune checkpoint inhibitors. Chart review was performed on each patient, noting any irAE, including new events or worsening of previous autoimmune condition after starting treatment with ICI. A total of 155 patients were included, 118 (76.1%) were male, with median age of 64 years. Median follow up time was 36 months. Seventy patients (45.2%) had at least one irAE. Of all irAE, nine (8.1%) were classified as grade 3 or higher according to the CTCAE version 5.0. There was one death secondary to pneumonitis. Median ICI cycles until first irAE onset was 4 (range: 2–99). The objective response rate was higher for patients who developed irAE (18.7% vs. 9.0%; p = 0.001), as was median overall survival (18 months (95% CI, 8.67–27.32) vs. 10 (95% CI, 3.48–16.52) months; p < 0.016) and progression free survival (10 months (95% CI, 5.44–14.56) vs. 3 months (95% CI, 1.94–4.05); p = 0.000). The risk of death in patients with irAE was 33% lower when compared to patients without such events (hazard ratio (HR): 0.67; 95% CI, 0.46–0.99; p = 0.043). Development of irAE predicted better outcomes, including OS in patients with advanced solid tumors treated with ICI. Further prospective studies are needed to explore and validate this prognostic value. [ABSTRACT FROM AUTHOR]

Published

2023

13. The Digital Twin Paradigm Applied to Soil Quality Assessment: A Systematic Literature Review.

Author

Silva, Letícia, Rodríguez-Sedano, Francisco, Baptista, Paula, and Coelho, João Paulo

Subjects

SOIL quality, DIGITAL twins, SCIENTIFIC literature, ELECTRONIC paper, AGRICULTURAL forecasts

Abstract

This article presents the results regarding a systematic literature review procedure on digital twins applied to precision agriculture. In particular, research and development activities aimed at the use of digital twins, in the context of predictive control, with the purpose of improving soil quality. This study was carried out through an exhaustive search of scientific literature on five different databases. A total of 158 articles were extracted as a result of this search. After a first screening process, only 11 articles were considered to be aligned with the current topic. Subsequently, these articles were categorised to extract all relevant information, using the preferred reporting items for systematic reviews and meta-analyses methods. Based on the obtained results, there are two main conclusions to draw: First, when compared with industrial processes, there is only a very slight rising trend regarding the use of digital twins in agriculture. Second, within the time frame in which this work was carried out, it was not possible to find any published paper on the use of digital twins for soil quality improvement within a model predictive control context. [ABSTRACT FROM AUTHOR]

Published

2023

14. Biological Thermal Performance of Organic and Inorganic Aerogels as Patches for Photothermal Therapy.

Author

Ferreira-Gonçalves, Tânia, Iglesias-Mejuto, Ana, Linhares, Teresa, Coelho, João M. P., Vieira, Pedro, Faísca, Pedro, Catarino, José, Pinto, Pedro, Ferreira, David, Ferreira, Hugo A., Gaspar, Maria Manuela, Durães, Luísa, García-González, Carlos A., and Reis, Catarina Pinto

Subjects

AEROGELS, PHOTOTHERMAL spectroscopy, THERMAL insulation, PECTINS, BIOMEDICAL engineering

Abstract

Aerogels are materials with unique properties, among which are low density and thermal conductivity. They are also known for their exquisite biocompatibility and biodegradability. All these features make them attractive for biomedical applications, such as their potential use in photothermal therapy (PTT). This technique is, yet, still associated with undesirable effects on surrounding tissues which emphasizes the need to minimize the exposure of healthy regions. One way to do so relies on the use of materials able to block the radiation and the heat generated. Aerogels might be potentially useful for this purpose by acting as insulators. Silica- and pectin-based aerogels are reported as the best inorganic and organic thermal insulators, respectively; thus, the aim of this work relies on assessing the possibility of using these materials as light and thermal insulators and delimiters for PTT. Silica- and pectin-based aerogels were prepared and fully characterized. The thermal protection efficacy of the aerogels when irradiated with a near-infrared laser was assessed using phantoms and ex vivo grafts. Lastly, safety was assessed in human volunteers. Both types presented good textural properties and safe profiles. Moreover, thermal activation unveils the better performance of silica-based aerogels, confirming the potential of this material for PTT. [ABSTRACT FROM AUTHOR]

Published

2022

15. Cyberphysical Network Applied to Fertigation Agricultural Processes †

Author

Rosse, Higor, primary and Coelho, João, additional

Published

2019

16. Recycling and Application of Mine Tailings in Alkali-Activated Cements and Mortars—Strength Development and Environmental Assessment.

Author

Cristelo, Nuno, Coelho, João, Oliveira, Mafalda, Cesar Consoli, Nilo, Palomo, Ángel, and Fernández-Jiménez, Ana

Subjects

MORTAR, ENERGY dispersive X-ray spectroscopy, FLY ash, CIVIL engineering, CEMENT, SODIUM sulfate

Abstract

Mine tailings (MT) could represent a step forward in terms of the quality of the aggregates usually used in civil engineering applications, mostly due to its high density. The Portuguese Neves Corvo copper mine, owned by the Lundin Mining Corporation, produces approximately 3 million tonnes per year. Nevertheless, it cannot be used in its original state, due to its high levels of sulphur and other metals (As, Cr, Cu, Pb, Zn). This paper focuses on the stabilisation/solidification of high-sulphur MT, without any previous thermal treatment, using alkali-activated fly ash (FA). The variables considered were the MT/FA ratio and the activator type and concentration. A fine aggregate was then added to the pastes to assess the quality of the resulting mortar. Maximum compressive strengths of 14 MPa and 24 MPa were obtained for the pastes and mortars, respectively, after curing for 24 h at 85 °C. Thermogravimetric analysis, scanning electron microscopy, X-ray energy dispersive spectroscopy, X-ray diffraction, and infrared spectroscopy were used to characterize the reaction products, and two types of leaching tests were performed to assess the environmental performance. The results showed that the strength increase is related with the formation of a N-A-S-H gel, although sodium sulphate carbonate was also developed, suggesting that the total sodium intake could be optimized without strength loss. The solubility of the analysed metals in the paste with 78% MT and 22% FA was below the threshold for non-hazardous waste. [ABSTRACT FROM AUTHOR]

Published

2020

17. 3D Finite Element Model for Writing Long-Period Fiber Gratings by CO2 Laser Radiation.

Author

Coelho, João M. P., Nespereira, Marta, Abreu, Manuel, and Rebordão, José

Subjects

*INFRARED radiation, *LASERS, *FIBER gratings, *DETECTORS, *FINITE model theory

Abstract

In the last years, mid-infrared radiation emitted by CO2 lasers has become increasing popular as a tool in the development of long-period fiber gratings. However, although the development and characterization of the resulting sensing devices have progressed quickly, further research is still necessary to consolidate functional models, especially regarding the interaction between laser radiation and the fiber's material. In this paper, a 3D finite element model is presented to simulate the interaction between laser radiation and an optical fiber and to determine the resulting refractive index change. Dependence with temperature of the main parameters of the optical fiber materials (with special focus on the absorption of incident laser radiation) is considered, as well as convection and radiation losses. Thermal and residual stress analyses are made for a standard single mode fiber, and experimental results are presented. [ABSTRACT FROM AUTHOR]

Published

2013

18. The Role of Rosmarinic Acid on the Bioproduction of Gold Nanoparticles as Part of a Photothermal Approach for Breast Cancer Treatment.

Author

Ferreira-Gonçalves, Tânia, Gaspar, Maria Manuela, Coelho, João M. P., Marques, Vanda, Viana, Ana S., Ascensão, Lia, Carvalho, Lina, Rodrigues, Cecília M. P., Ferreira, Hugo Alexandre, Ferreira, David, and Reis, Catarina Pinto

Subjects

BREAST cancer, CANCER treatment, MAGNETIC nanoparticle hyperthermia, LIGHT sources, GOLD nanoparticles, THERAPEUTICS, CELL death

Abstract

Breast cancer is a high-burden malignancy for society, whose impact boosts a continuous search for novel diagnostic and therapeutic tools. Among the recent therapeutic approaches, photothermal therapy (PTT), which causes tumor cell death by hyperthermia after being irradiated with a light source, represents a high-potential strategy. Furthermore, the effectiveness of PTT can be improved by combining near infrared (NIR) irradiation with gold nanoparticles (AuNPs) as photothermal enhancers. Herein, an alternative synthetic method using rosmarinic acid (RA) for synthesizing AuNPs is reported. The RA concentration was varied and its impact on the AuNPs physicochemical and optical features was assessed. Results showed that RA concentration plays an active role on AuNPs features, allowing the optimization of mean size and maximum absorbance peak. Moreover, the synthetic method explored here allowed us to obtain negatively charged AuNPs with sizes favoring the local particle accumulation at tumor site and maximum absorbance peaks within the NIR region. In addition, AuNPs were safe both in vitro and in vivo. In conclusion, the synthesized AuNPs present favorable properties to be applied as part of a PTT system combining AuNPs with a NIR laser for the treatment of breast cancer. [ABSTRACT FROM AUTHOR]

Published

2022

19. A Comprehensive Updated Review on Magnetic Nanoparticles in Diagnostics.

Author

Farinha, Pedro, Coelho, João M. P., Reis, Catarina Pinto, and Gaspar, Maria Manuela

Subjects

*MAGNETIC nanoparticles, *MAGNETIC resonance imaging, *METALS, *MAGNETIC properties, *SUPERPARAMAGNETIC materials, *DIAGNOSIS methods, *IRON powder, *IRON oxide nanoparticles

Abstract

Magnetic nanoparticles (MNPs) have been studied for diagnostic purposes for decades. Their high surface-to-volume ratio, dispersibility, ability to interact with various molecules and superparamagnetic properties are at the core of what makes MNPs so promising. They have been applied in a multitude of areas in medicine, particularly Magnetic Resonance Imaging (MRI). Iron oxide nanoparticles (IONPs) are the most well-accepted based on their excellent superparamagnetic properties and low toxicity. Nevertheless, IONPs are facing many challenges that make their entry into the market difficult. To overcome these challenges, research has focused on developing MNPs with better safety profiles and enhanced magnetic properties. One particularly important strategy includes doping MNPs (particularly IONPs) with other metallic elements, such as cobalt (Co) and manganese (Mn), to reduce the iron (Fe) content released into the body resulting in the creation of multimodal nanoparticles with unique properties. Another approach includes the development of MNPs using other metals besides Fe, that possess great magnetic or other imaging properties. The future of this field seems to be the production of MNPs which can be used as multipurpose platforms that can combine different uses of MRI or different imaging techniques to design more effective and complete diagnostic tests. [ABSTRACT FROM AUTHOR]

Published

2021

20. Characterization of a MOB1 Homolog in the Apicomplexan Parasite Toxoplasma gondii.

Author

Delgado, Inês L. S., Tavares, Alexandra, Francisco, Samuel, Santos, Dulce, Coelho, João, Basto, Afonso P., Zúquete, Sara, Müller, Joachim, Hemphill, Andrew, Meissner, Markus, Soares, Helena, Leitão, Alexandre, and Nolasco, Sofia

Subjects

TOXOPLASMA gondii, CELL division, KARYOKINESIS, APICOMPLEXA, PARASITE life cycles, AMINO acid residues, CELL physiology, PARASITES

Abstract

Simple Summary: Monopolar spindle One Binder1 (MOB1) proteins regulate key cellular functions, namely cell multiplication and cell division. The unicellular parasite Toxoplasma gondii transitions between several morphological stages, with the need to control the number of parasites in its cellular environment. We hypothesized that MOB1 proteins could participate in the regulation of the T. gondii life cycle, having identified one MOB1 protein (TgMOB1) coded in its genome. However, this study shows that TgMOB1 presents divergent features. While in organisms studied to date the lack of MOB1 has led to cell division defects, this did not occur in T. gondii in vitro cultures where mob1 was not an essential gene. Additionally, the identification of TgMOB1 proximity interacting partners detected novel MOB1 interactors. Still, TgMOB1 localizes to the region between the new-forming nuclei during cell division, and T. gondii parasites multiply slower with TgMOB1 overexpression and faster when there is a lack of TgMOB1, indicating an intricate role for TgMOB1 in T. gondii. This study uncovers new features of the T. gondii biology, a zoonotic parasite and model organism for the phylum Apicomplexa, and highlights the complex roles MOB1 proteins may assume, with possible implications for disease processes. Monopolar spindle One Binder1 (MOB1) proteins are conserved components of the tumor-suppressing Hippo pathway, regulating cellular processes such as cytokinesis. Apicomplexan parasites present a life cycle that relies on the parasites' ability to differentiate between stages and regulate their proliferation; thus, Hippo signaling pathways could play an important role in the regulation of the apicomplexan life cycle. Here, we report the identification of one MOB1 protein in the apicomplexan Toxoplasma gondii. To characterize the function of MOB1, we generated gain-of-function transgenic lines with a ligand-controlled destabilization domain, and loss-of-function clonal lines obtained through CRISPR/Cas9 technology. Contrary to what has been characterized in other eukaryotes, MOB1 is not essential for cytokinesis in T. gondii. However, this picture is complex since we found MOB1 localized between the newly individualized daughter nuclei at the end of mitosis. Moreover, we detected a significant delay in the replication of overexpressing tachyzoites, contrasting with increased replication rates in knockout tachyzoites. Finally, using the proximity-biotinylation method, BioID, we identified novel members of the MOB1 interactome, a probable consequence of the observed lack of conservation of some key amino acid residues. Altogether, the results point to a complex evolutionary history of MOB1 roles in apicomplexans, sharing properties with other eukaryotes but also with divergent features, possibly associated with their complex life cycle. [ABSTRACT FROM AUTHOR]

Published

2021

21. Evaluation of Three Iterative Algorithms for Phase Modulation Regarding Their Application in Concentrating Light Inside Biological Tissues for Laser Induced Photothermal Therapy.

Author

Guerreiro, João, Vieira, Pedro, and Coelho, João M. P.

Subjects

PHASE modulation, SPATIAL light modulators, PARALLEL algorithms, AGAR plates, LIGHT scattering, SIMULATED annealing, LASERS

Abstract

The focusing of light through turbid media like biological tissues is strongly hindered by the scattering of light which limits its safe practice and application in medicine. In order to control this phenomenon, we shaped the incident wavefront using three algorithms including a four-element division algorithm, a partitioning algorithm, and simulated annealing to control, iteratively, a spatial light modulator (SLM). We have tested two different convergence criteria to achieve a focal point inside a turbid environment, made up of a mixture of agar and milk, set to mimic a specific depth of human skin, and provide comparison results. A camera and a lens are used to visualize the focal area and give feedback information to the algorithms. A discussion on the use of these algorithms and convergence criteria is presented, being focused on its convergence time and performance. Depending on the algorithm and operational parameters, improvements of 29% to 46% of the irradiance in the region of interest were accomplished. [ABSTRACT FROM AUTHOR]

Published

2021

22. Inclusion of 2D Transition Metal Dichalcogenides in Perovskite Inks and Their Influence on Solar Cell Performance.

Author

Taurisano, Nicola, Bravetti, Gianluca, Carallo, Sonia, Liang, Meiying, Ronan, Oskar, Spurling, Dahnan, Coelho, João, Nicolosi, Valeria, Colella, Silvia, Gigli, Giuseppe, Listorti, Andrea, and Rizzo, Aurora

Subjects

PEROVSKITE, SOLAR cells, TRANSITION metals, MOLYBDENUM disulfide, TRANSITION metal oxides, NANOSTRUCTURED materials, HETEROGENOUS nucleation, MANUFACTURING processes

Abstract

Organic–inorganic hybrid perovskite materials have raised great interest in recent years due to their excellent optoelectronic properties, which promise stunning improvements in photovoltaic technologies. Moreover, two-dimensional layered materials such as graphene, its derivatives, and transition metal dichalcogenides have been extensively investigated for a wide range of electronic and optoelectronic applications and have recently shown a synergistic effect in combination with hybrid perovskite materials. Here, we report on the inclusion of liquid-phase exfoliated molybdenum disulfide nanosheets into different perovskite precursor solutions, exploring their influence on final device performance. We compared the effect of such additives upon the growth of diverse perovskites, namely CH3NH3PbI3 (MAPbI3) and triple-cation with mixed halides Csx (MA0.17FA0.83)(1−x)Pb (I0.83Br0.17)3 perovskite. We show how for the referential MAPbI3 materials the addition of the MoS2 additive leads to the formation of larger, highly crystalline grains, which result in a remarkable 15% relative improvement in power conversion efficiency. On the other hand, for the mixed cation–halide perovskite no improvements were observed, confirming that the nucleation process for the two materials is differently influenced by the presence of MoS2. [ABSTRACT FROM AUTHOR]

Published

2021

23. Proof-of-Concept Study of Multifunctional Hybrid Nanoparticle System Combined with NIR Laser Irradiation for the Treatment of Melanoma.

Author

Lopes, Joana, Ferreira-Gonçalves, Tânia, Figueiredo, Isabel V., Rodrigues, Cecília M. P., Ferreira, Hugo, Ferreira, David, Viana, Ana S., Faísca, Pedro, Gaspar, Maria Manuela, Coelho, João M. P., Silva, Catarina Oliveira, and Reis, Catarina Pinto

Subjects

HYBRID systems, EPIDERMAL growth factor, GOLD coatings, IRRADIATION, LASERS, GOLD nanoparticles

Abstract

The global impact of cancer emphasizes the importance of developing innovative, effective and minimally invasive therapies. In the context of superficial cancers, the development of a multifunctional nanoparticle-based system and its in vitro and in vivo safety and efficacy characterization are, herein, proposed as a proof-of-concept. This multifunctional system consists of gold nanoparticles coated with hyaluronic and oleic acids, and functionalized with epidermal growth factor for greater specificity towards cutaneous melanoma cells. This nanoparticle system is activated by a near-infrared laser. The characterization of this nanoparticle system included several phases, with in vitro assays being firstly performed to assess the safety of gold nanoparticles without laser irradiation. Then, hairless immunocompromised mice were selected for a xenograft model upon inoculation of A375 human melanoma cells. Treatment with near-infrared laser irradiation for five minutes combined with in situ administration of the nanoparticles showed a tumor volume reduction of approximately 80% and, in some cases, led to the formation of several necrotic foci, observed histologically. No significant skin erythema at the irradiation zone was verified, nor other harmful effects on the excised organs. In conclusion, these assays suggest that this system is safe and shows promising results for the treatment of superficial melanoma. [ABSTRACT FROM AUTHOR]

Published

2021

24. Gold-Based Nanoplataform for the Treatment of Anaplastic Thyroid Carcinoma: A Step Forward.

Author

Amaral, Mariana, Charmier, Adília J., Afonso, Ricardo A., Catarino, José, Faísca, Pedro, Carvalho, Lina, Ascensão, Lia, Coelho, João M. P., Gaspar, M. Manuela, Reis, Catarina Pinto, and Marotta, Vincenzo

Subjects

IN vitro studies, ANAPLASTIC thyroid cancer, THERMOTHERAPY, INFRARED radiation in medicine, GOLD, PHOTOTHERAPY, TREATMENT effectiveness, CELL survival, DESCRIPTIVE statistics, NANOPARTICLES, PATIENT safety

Abstract

Simple Summary: Anaplastic thyroid carcinoma (ATC) is a subtype of thyroid cancer that generally does not respond to the available treatments, making it one of the most lethal cancers known. As an alternative, Photothermal Therapy (PTT) can be considered a promising strategy. In this case, gold nanoparticles (AuNPs) are activated when irradiated by light, enhancing the local temperature, resulting in cell death. Thus, this study aims to formulate AuNPs specifically for targeting PTT to ATC. For this, biocompatible AuNPs were designed and functionalized with ATC-specific ligands (holo-transferrin, epidermal growth factor (EGF), and lapatinib), showing optimal physicochemical properties. Safety, efficacy, and ATC specificity were determined in vitro. Holo-transferrin functionalized-AuNPs were the most effective for PTT against ATC. Safety and biodistribution were studied in vivo, proving that the formulation was safe for intratumoural administration. So, taking these results all together, AuNPs-mediated-PTT seems to be a promising hint to find a viable treatment for ATC. Anaplastic thyroid carcinoma (ATC) is a very rare subtype of thyroid carcinoma and one of the most lethal malignancies. Poor prognosis is mainly associated with its undifferentiated nature, inoperability, and failing to respond to the typically used therapies for thyroid cancer. Photothermal Therapy (PTT) entails using light to increase tissues' temperature, leading to hyperthermia-mediated cell death. Tumours are more susceptible to heat as they are unable to dissipate it. By using functionalized gold nanoparticles (AuNPs) that transform light energy into heat, it is possible to target the heat to the tumour. This study aims to formulate ATC-targeted AuNPs able to convert near-infrared light into heat, for PTT of ATC. Different AuNPs were synthetized and coated. Size, morphology, and surface plasmon resonances band were determined. The optimized coated-AuNPs were then functionalized with ligands to assess ATC's specificity. Safety, efficacy, and selectivity were assessed in vitro. The formulations were deemed safe when not irradiated (>70% cell viability) and selective for ATC. However, when irradiated, holo-transferrin-AuNPs were the most cytotoxic (22% of cell viability). The biodistribution and safety of this formulation was assessed in vivo. Overall, this novel formulation appears to be a highly promising approach to evaluate in a very near future. [ABSTRACT FROM AUTHOR]

Published

2021

25. Non-Destructive Fast Estimation of Tree Stem Height and Volume Using Image Processing.

Author

Coelho, João, Fidalgo, Beatriz, Crisóstomo, Manuel M., Salas-González, Raúl, Coimbra, A. Paulo, Mendes, Mateus, and Inagaki, Tomohiro

Subjects

*TREE height, *FORESTS & forestry, *CAMERA calibration, *FOREST surveys, *DIGITAL image processing

Abstract

Measuring biometric tree characteristics to estimate the volume of wood in a forest area is a time consuming task. It is usually performed by a team of two or more people, who measure the diameter and height of several trees in sampling plots. The results are then extrapolated for the forest stand. The present paper describes a method which facilitates estimating tree biometric parameters using computational techniques. A camera takes two pictures of each sample tree, with an especially designed target placed close to the tree, to facilitate image processing and camera calibration steps. Taking advantage of the trees' natural shape and assuming a symmetric stem, the diameter and height of the tree stems are estimated from the images and the volumes of the tree stems are calculated. Experimental trials show promising results, exhibiting errors similar to the traditional methods used currently, in the range of 10%, showing that the method is suitable for forest inventory. [ABSTRACT FROM AUTHOR]

Published

2021

26. A Step Forward in Breast Cancer Research: From a Natural-Like Experimental Model to a Preliminary Photothermal Approach.

Author

Costa, Eduardo, Ferreira-Gonçalves, Tânia, Cardoso, Miguel, Coelho, João M. P., Gaspar, Maria Manuela, Faísca, Pedro, Ascensão, Lia, Cabrita, António S., Reis, Catarina Pinto, and Figueiredo, Isabel V.

Subjects

BREAST cancer research, EPIDERMAL growth factor, COMBINATION drug therapy, BREAST cancer, GOLD nanoparticles, CANCER treatment

Abstract

Breast cancer is one of the most frequently diagnosed malignancies and common causes of cancer death in women. Recent studies suggest that environmental exposures to certain chemicals, such as 7,12-Dimethylbenzanthracene (DMBA), a chemical present in tobacco, may increase the risk of developing breast cancer later in life. The first-line treatments for breast cancer (surgery, chemotherapy or a combination of both) are generally invasive and frequently associated with severe side effects and high comorbidity. Consequently, novel approaches are strongly required to find more natural-like experimental models that better reflect the tumors' etiology, physiopathology and response to treatments, as well as to find more targeted, efficient and minimally invasive treatments. This study proposes the development and an in deep biological characterization of an experimental model using DMBA-tumor-induction in Sprague-Dawley female rats. Moreover, a photothermal therapy approach using a near-infrared laser coupled with gold nanoparticles was preliminarily assessed. The gold nanoparticles were functionalized with Epidermal Growth Factor, and their physicochemical properties and in vitro effects were characterized. DMBA proved to be a very good and selective inductor of breast cancer, with 100% incidence and inducing an average of 4.7 tumors per animal. Epigenetic analysis showed that tumors classified with worst prognosis were hypomethylated. The tumor-induced rats were then subjected to a preliminary treatment using functionalized gold nanoparticles and its activation by laser (650–900 nm). The treatment outcomes presented very promising alterations in terms of tumor histology, confirming the presence of necrosis in most of the cases. Although this study revealed encouraging results as a breast cancer therapy, it is important to define tumor eligibility and specific efficiency criteria to further assess its application in breast cancer treatment on other species. [ABSTRACT FROM AUTHOR]

Published

2020

27. Preliminary Assays towards Melanoma Cells Using Phototherapy with Gold-Based Nanomaterials.

Author

Lopes, Joana, Coelho, João Miguel Pinto, Vieira, Pedro Manuel Cardoso, Viana, Ana Silveira, Gaspar, Maria Manuela, and Reis, Catarina

Subjects

*OLEIC acid, *DACARBAZINE, *MELANOMA, *GOLD nanoparticles, *PHOTOTHERAPY, *NANOSTRUCTURED materials, *HYALURONIC acid, *SKIN temperature

Abstract

Cancer like melanoma is a complex disease, for which standard therapies have significant adverse side effects that in most cases are ineffective and highly unspecific. Thus, a new paradigm has come with the need of achieving alternative (less invasive) and effective therapies. In this work, biocompatible gold nanoparticles (GNPs) coated with hyaluronic acid and oleic acid were prepared and characterized in terms of size, morphology and cytotoxicity in the presence of Saccharomyces cerevisiae, and two cell lines, the keratinocytes (healthy skin cells, HaCat) and the melanoma cells (B16F10). Results showed that these GNPs absorb within the near-infrared region (750–1400 nm), in the optical therapeutic window (from 650 to 1300 nm), in contrast to other commercial gold nanoparticles, which enables light to penetrate into deep skin layers. A laser emitting in this region was applied and its effect also analyzed. The coated GNPs showed a spherical morphology with a mean size of 297 nm without cytotoxic effects towards yeast and tested cell lines. Nevertheless, after laser irradiation, a reduction of 20% in B16F10 cell line viability was observed. In summary, this work appears to be a promising strategy for the treatment of non-metastatic melanoma or other superficial tumors. [ABSTRACT FROM AUTHOR]

Published

2020

28. The African Swine Fever Virus (ASFV) Topoisomerase II as a Target for Viral Prevention and Control.

Author

Coelho, João and Leitão, Alexandre

Subjects

AFRICAN swine fever virus, DNA topoisomerase II, AFRICAN swine fever, VIRUS-induced enzymes, UNICELLULAR organisms, BACTERIAL vaccines

Abstract

African swine fever (ASF) is, once more, spreading throughout the world. After its recent reintroduction in Georgia, it quickly reached many neighboring countries in Eastern Europe. It was also detected in Asia, infecting China, the world's biggest pig producer, and spreading to many of the surrounding countries. Without any vaccine or effective treatment currently available, new strategies for the control of the disease are mandatory. Its etiological agent, the African swine fever virus (ASFV), has been shown to code for a type II DNA topoisomerase. These are enzymes capable of modulating the topology of DNA molecules, known to be essential in unicellular and multicellular organisms, and constitute targets in antibacterial and anti-cancer treatments. In this review, we summarize most of what is known about this viral enzyme, pP1192R, and discuss about its possible role(s) during infection. Given the essential role of type II topoisomerases in cells, the data so far suggest that pP1192R is likely to be equally essential for the virus and thus a promising target for the elaboration of a replication-defective virus, which could provide the basis for an effective vaccine. Furthermore, the use of inhibitors could be considered to control the spread of the infection during outbreaks and therefore limit the spreading of the disease. [ABSTRACT FROM AUTHOR]

Published

2020

29. A Refractive Index Sensor Based on a Fabry–Perot Interferometer Manufactured by NIR Laser Microdrilling and Electric Arc Fusion †.

Author

Nespereira, Marta, Coelho, João M. P., and Rebordão, José M.

Subjects

ELECTRIC arc, FABRY-Perot interferometers, MICRO-drilling, FIBER lasers, SINGLE-mode optical fibers, ND-YAG lasers, LASER interferometers

Abstract

In-line Fabry–Perot cavities manufactured by a new technique using electric arc fusion of NIR laser microdrilled optical fiber flat tips were studied herein for refractive index sensing. Sensors were produced by creating an initial hole on the tip of a standard single-mode telecommunication optical fiber using a Q-switched Nd:YAG laser. Laser ablation and plasma formation processes created 5 to 10 micron cavities. Then, a standard splicing machine was used to fuse the microdrilled fiber with another one, thus creating cavities with lengths around 100 micrometers. This length has been proven to be necessary to obtain an interferometric signal with good fringe visibility when illuminating it in the C-band. Then, the sensing tip of the fiber, with the resulting air cavity, was submitted to several cleaves to enhance the signal and, therefore, its response as a sensor, with final lengths between tens of centimeters for the longest and hundreds of microns for the shortest. The experimental results were analyzed via two signal analysis techniques, fringe visibility and fast Fourier transform, for comparison purposes. In absolute values, the obtained sensitivities varied between 0.31 nm−1/RIU and about 8 nm−1/RIU using the latter method and between about 34 dB/RIU and 54 dB/RIU when analyzing the fringe visibility. [ABSTRACT FROM AUTHOR]

Published

2019

30. Evolutionary-Based BEL Controller Applied to a Magneto-Rheological Structural System.

Author

Braz César, Manuel, Paulo Coelho, João, and Gonçalves, José

Subjects

MAGNETORHEOLOGY, ELECTRIC controllers, STIFFNESS (Mechanics), PARTICLE swarm optimization, EVOLUTIONARY algorithms, TUNING (Machinery)

Abstract

This work addresses the problem of finding the best controller parameters in order to improve the response of a single degree-of-freedom structural system under earthquake excitation. The control paradigm considered is based on brain emotional learning (BEL) and the actuation over the building dynamics is carried out by changing the stiffness of a magneto-rheological damper. A typical BEL-based controller requires the definition of several parameters which can prove difficult and non-intuitive to obtain. For this reason, an evolutionary-based search technique has been added to the current problem framework in order to automate the controller design. In particular, the particle swarm optimization method is chosen as the evolutionary based technique to be integrated within the current control paradigm. The obtained results suggest that, indeed, it is possible to parametrize a BEL controller using an evolutionary-based algorithm. Moreover, a simulation shows that the obtained results can outperform the ones obtained by manual tuning each controller parameter individually. [ABSTRACT FROM AUTHOR]

Published

2018

31. 3D finite element model for writing long-period fiber gratings by CO2 laser radiation.

Author

Coelho JM, Nespereira M, Abreu M, and Rebordão J

Subjects

Computer Simulation, Equipment Design, Equipment Failure Analysis, Finite Element Analysis, Computer-Aided Design, Fiber Optic Technology instrumentation, Lasers, Gas, Models, Theoretical, Refractometry instrumentation

Abstract

In the last years, mid-infrared radiation emitted by CO2 lasers has become increasing popular as a tool in the development of long-period fiber gratings. However, although the development and characterization of the resulting sensing devices have progressed quickly, further research is still necessary to consolidate functional models, especially regarding the interaction between laser radiation and the fiber's material. In this paper, a 3D finite element model is presented to simulate the interaction between laser radiation and an optical fiber and to determine the resulting refractive index change. Dependence with temperature of the main parameters of the optical fiber materials (with special focus on the absorption of incident laser radiation) is considered, as well as convection and radiation losses. Thermal and residual stress analyses are made for a standard single mode fiber, and experimental results are presented.

Published

2013

32. LOLS research in technology for the development and application of new fiber-based sensors.

Author

Coelho J, Nespereira M, Silva C, and Rebordão J

Abstract

This paper presents the research made at the Laboratory of Optics, Lasers and Systems (LOLS) of the Faculty of Sciences of University of Lisbon, Portugal, in the field of fiber-based sensors. Three areas are considered: sensor encapsulation for natural aqueous environments, refractive index modulation and laser micropatterning. We present the main conclusions on the issues and parameters to take in consideration for the encapsulation process and results of its design and application. Mid-infrared laser radiation was applied to produce long period fiber gratings and nanosecond pulses of near-infrared Q-switch laser were used for micropatterning.

Published

2012