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8,417 results on '"Rui, L."'

1. Multi-Scale Convolutional LSTM with Transfer Learning for Anomaly Detection in Cellular Networks

Author

Noonari, Nooruddin, Corujo, Daniel, Aguiar, Rui L., and Ferrao, Francisco J.

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Machine Learning
Abstract

The rapid growth in mobile broadband usage and increasing subscribers have made it crucial to ensure reliable network performance. As mobile networks grow more complex, especially during peak hours, manual collection of Key Performance Indicators (KPIs) is time-consuming due to the vast data involved. Detecting network failures and identifying unusual behavior during busy periods is vital to assess network health. Researchers have applied Deep Learning (DL) and Machine Learning (ML) techniques to understand network behavior by predicting throughput, analyzing call records, and detecting outages. However, these methods often require significant computational power, large labeled datasets, and are typically specialized, making retraining for new scenarios costly and time-intensive. This study introduces a novel approach Multi-Scale Convolutional LSTM with Transfer Learning (TL) to detect anomalies in cellular networks. The model is initially trained from scratch using a publicly available dataset to learn typical network behavior. Transfer Learning is then employed to fine-tune the model by applying learned weights to different datasets. We compare the performance of the model trained from scratch with that of the fine-tuned model using TL. To address class imbalance and gain deeper insights, Exploratory Data Analysis (EDA) and the Synthetic Minority Over-sampling Technique (SMOTE) are applied. Results demonstrate that the model trained from scratch achieves 99% accuracy after 100 epochs, while the fine-tuned model reaches 95% accuracy on a different dataset after just 20 epochs.

Published
2024

2. Highly Sensitive Ratiometric Fluorescent Fiber Matrixes for Oxygen Sensing with Micrometer-Spatial Resolution

Author

Grasso, Giuliana, Onesto, Valentina, Forciniti, Stefania, Amone, Eliana D, Colella, Francesco, Pierantoni, Lara, Fama, Valeria, Gigli, Giuseppe, Reis, Rui L., Oliveira, Joaquim M., and del Mercato, Loretta L.

Subjects
Physics - Biological Physics
Abstract

Oxygen (O2)-sensing matrices are promising tools for the live monitoring of extracellular O2 consumption levels in long-term cell cultures. In this study, ratiometric O2-sensing membranes were prepared by electrospinning, an easy, low-cost, scalable, and robust method for fabricating nanofibers. Poly({\epsilon}-caprolactone) and poly(dimethyl)siloxane polymers were blended with tris(4,7-diphenyl-1,10-phenanthroline) ruthenium(II) dichloride, which was used as the O2-sensing probe, and rhodamine B isothiocyanate, which was used as the reference dye. The functionalized scaffolds were morphologically characterized by scanning electron microscopy, and their physicochemical profiles were obtained by Fourier transform infrared spectroscopy, thermogravimetric analysis, and water contact angle measurement. The sensing capabilities were investigated by confocal laser scanning microscopy, performing photobleaching, reversibility, and calibration curve studies toward different dissolved O2 (DO) concentrations. Electrospun sensing nanofibers showed a high response to changes in DO concentrations in the physiological-pathological range from 0.5 to 20% and good stability under ratiometric imaging. In addition, the sensing systems were highly biocompatible for cell growth promoting adhesiveness and growth of three cancer cell lines, namely metastatic melanoma cell line SK-MEL2, breast cancer cell line MCF-7, and pancreatic ductal adenocarcinoma cell line Panc-1, thus recreating a suitable biological environment in vitro. These O2-sensing biomaterials can potentially measure alterations in cell metabolism caused by changes in ambient O2 content during drug testing/validation and tissue regeneration processes., Comment: 15 pages, 4 figures

Published
2024
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8. A Theoretical and Practical Framework for Evaluating Uncertainty Calibration in Object Detection

Author

Conde, Pedro, Lopes, Rui L., and Premebida, Cristiano

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

The proliferation of Deep Neural Networks has resulted in machine learning systems becoming increasingly more present in various real-world applications. Consequently, there is a growing demand for highly reliable models in many domains, making the problem of uncertainty calibration pivotal when considering the future of deep learning. This is especially true when considering object detection systems, that are commonly present in safety-critical applications such as autonomous driving, robotics and medical diagnosis. For this reason, this work presents a novel theoretical and practical framework to evaluate object detection systems in the context of uncertainty calibration. This encompasses a new comprehensive formulation of this concept through distinct formal definitions, and also three novel evaluation metrics derived from such theoretical foundation. The robustness of the proposed uncertainty calibration metrics is shown through a series of representative experiments., Comment: Pre-print

Published
2023

20. Approaching Test Time Augmentation in the Context of Uncertainty Calibration for Deep Neural Networks

Author

Conde, Pedro, Barros, Tiago, Lopes, Rui L., Premebida, Cristiano, and Nunes, Urbano J.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

With the rise of Deep Neural Networks, machine learning systems are nowadays ubiquitous in a number of real-world applications, which bears the need for highly reliable models. This requires a thorough look not only at the accuracy of such systems, but also at their predictive uncertainty. Hence, we propose a novel technique (with two different variations, named M-ATTA and V-ATTA) based on test time augmentation, to improve the uncertainty calibration of deep models for image classification. By leveraging na adaptive weighting system, M/V-ATTA improves uncertainty calibration without affecting the model's accuracy. The performance of these techniques is evaluated by considering diverse metrics related to uncertainty calibration, demonstrating their robustness. Empirical results, obtained on CIFAR-10, CIFAR-100, Aerial Image Dataset, as well as in two different scenarios under distribution-shift, indicate that the proposed methods outperform several state-of-the-art post-hoc calibration techniques. Furthermore, the methods proposed also show improvements in terms of predictive entropy on out-of-distribution samples. Code for M/V-ATTA available at: https://github.com/pedrormconde/MV-ATTA, Comment: Submitted to IEEE Transactions on Pattern Analysis and Machine Intelligence

Published
2023

21. Enhanced effects of slowly co-released TGF-β3 and BMP-2 from biomimetic calcium phosphate-coated silk fibroin scaffolds in the repair of osteochondral defects

Author

Jiping Chen, Yanyi Wang, Tianyi Tang, Baochao Li, Banani Kundu, Subhas C. Kundu, Rui L. Reis, Xingnan Lin, and Huang Li

Subjects
Silk fibroin, Biomimetic calcium phosphate coating, Drug delivery, Slow release, Osteochondral defect, Tissue engineering, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5
Abstract

Abstract Bioactive agents have demonstrated regenerative potential for cell-free bone tissue engineering. Nevertheless, certain challenges persist, including ineffective delivery methods and confined therapeutic potency. Here, we demonstrated that the biomimetic calcium phosphate coating system (BioCaP) could effectively uptake and slowly release the incorporated bioactive agents compared to the surface absorption system via osteoclast-mediated degradation of BioCaP coatings. The release kinetics were determined as a function of time. The release rate was stable without remarkable burst release during the first 1 day, followed by a sustained release from day 7 to day 19. Then, we developed the bi-functional BioCaP-coated silk fibroin scaffolds enabling the effective co-delivery of TGF-β3 and BMP-2 (SFI-T/SFI-B) and the corresponding slow release of TGF-β3 and BMP-2 exhibited superior potential in promoting chondrogenesis and osteogenesis without impairing cell vitality in vitro. The SFI-T/SFI-B scaffolds could improve cartilage and bone regeneration in 5 × 4 mm rabbit osteochondral (OC) defect. These findings indicate that the biomimetic calcium-phosphate coated silk fibroin scaffolds with slowly co-released TGF-β3 and BMP-2 effectively promote the repair of OC defects, hence facilitating the future clinical translation of controlled drug delivery in tissue engineering. Graphic Abstract

Published
2024
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22. Prevascularized spongy-like hydrogels maintain their angiogenic potential after prolonged hypothermic storage

Author

Sara Freitas-Ribeiro, Helena Moreira, Lucília P. da Silva, Jennifer Noro, Belém Sampaio-Marques, Paula Ludovico, Mariana Jarnalo, Ricardo Horta, Alexandra P. Marques, Rui L. Reis, and Rogério P. Pirraco

Subjects
Tissue engineering, Prevascularization, Hypothermic preservation, Clinical translation, Materials of engineering and construction. Mechanics of materials, TA401-492, Biology (General), QH301-705.5
Abstract

The chronic shortage of organs and tissues for transplantation represents a dramatic burden on healthcare systems worldwide. Tissue engineering offers a potential solution to address these shortages, but several challenges remain, with prevascularization being a critical factor for in vivo survival and integration of tissue engineering products. Concurrently, a different challenge hindering the clinical implementation of such products, regards their efficient preservation from the fabrication site to the bedside. Hypothermia has emerged as a potential solution for this issue due to its milder effects on biologic systems in comparison with other cold preservation methodologies. Its impact on prevascularization, however, has not been well studied. In this work, 3D prevascularized constructs were fabricated using adipose-derived stromal vascular fraction cells and preserved at 4 °C using Hypothermosol or basal culture media (α-MEM). Hypothermosol efficiently preserved the structural and cellular integrity of prevascular networks as compared to constructs before preservation. In contrast, the use of α-MEM led to a clear reduction in prevascular structures, with concurrent induction of high levels of apoptosis and autophagy at the cellular level. In vivo evaluation using a chorioallantoic membrane model demonstrated that, in opposition to α-MEM, Hypothermosol preservation retained the angiogenic potential of constructs before preservation by recruiting a similar number of blood vessels from the host and presenting similar integration with host tissue. These results emphasize the need of studying the impact of preservation techniques on key properties of tissue engineering constructs such as prevascularization, in order to validate and streamline their clinical application.

Published
2024
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23. Gas-propelled nanomotors alleviate colitis through the regulation of intestinal immunoenvironment-hematopexis-microbiota circuits

Author

Bo Xiao, Yuqi Liang, Ga Liu, Lingshuang Wang, Zhan Zhang, Libin Qiu, Haiting Xu, Sean Carr, Xiaoxiao Shi, Rui L. Reis, Subhas C. Kundu, and Zhenghua Zhu

Subjects
Nanomotor, Anti-inflammation, Blood coagulation, Immune regulation, Hematopexis, Microbiota rebalance, Therapeutics. Pharmacology, RM1-950
Abstract

The progression of ulcerative colitis (UC) is associated with immunologic derangement, intestinal hemorrhage, and microbiota imbalance. While traditional medications mainly focus on mitigating inflammation, it remains challenging to address multiple symptoms. Here, a versatile gas-propelled nanomotor was constructed by mild fusion of post-ultrasonic CaO2 nanospheres with Cu2O nanoblocks. The resulting CaO2–Cu2O possessed a desirable diameter (291.3 nm) and a uniform size distribution. It could be efficiently internalized by colonic epithelial cells and macrophages, scavenge intracellular reactive oxygen/nitrogen species, and alleviate immune reactions by pro-polarizing macrophages to the anti-inflammatory M2 phenotype. This nanomotor was found to penetrate through the mucus barrier and accumulate in the colitis mucosa due to the driving force of the generated oxygen bubbles. Rectal administration of CaO2–Cu2O could stanch the bleeding, repair the disrupted colonic epithelial layer, and reduce the inflammatory responses through its interaction with the genes relevant to blood coagulation, anti-oxidation, wound healing, and anti-inflammation. Impressively, it restored intestinal microbiota balance by elevating the proportions of beneficial bacteria (e.g., Odoribacter and Bifidobacterium) and decreasing the abundances of harmful bacteria (e.g., Prevotellaceae and Helicobacter). Our gas-driven CaO2–Cu2O offers a promising therapeutic platform for robust treatment of UC via the rectal route.

Published
2024
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24. Human Tendon‐on‐Chip: Unveiling the Effect of Core Compartment‐T Cell Spatiotemporal Crosstalk at the Onset of Tendon Inflammation

Author

Syeda M. Bakht, Alberto Pardo, Manuel Gomez‐Florit, David Caballero, Subhas C. Kundu, Rui L. Reis, Rui M. A. Domingues, and Manuela E. Gomes

Subjects
anisotropy, cell migration, compartmentalization, in vitro models, magnetic hydrogels, tendon‐on‐chip, Science
Abstract

Abstract The lack of representative in vitro models recapitulating human tendon (patho)physiology is among the major factors hindering consistent progress in the knowledge‐based development of adequate therapies for tendinopathy.Here, an organotypic 3D tendon‐on‐chip model is designed that allows studying the spatiotemporal dynamics of its cellular and molecular mechanisms.Combining the synergistic effects of a bioactive hydrogel matrix with the biophysical cues of magnetic microfibers directly aligned on the microfluidic chip, it is possible to recreate the anisotropic architecture, cell patterns, and phenotype of tendon intrinsic (core) compartment. When incorporated with vascular‐like vessels emulating the interface between its intrinsic‐extrinsic compartments, crosstalk with endothelial cells are found to drive stromal tenocytes toward a reparative profile. This platform is further used to study adaptive immune cell responses at the onset of tissue inflammation, focusing on interactions between tendon compartment tenocytes and circulating T cells.The proinflammatory signature resulting from this intra/inter‐cellular communication induces the recruitment of T cells into the inflamed core compartment and confirms the involvement of this cellular crosstalk in positive feedback loops leading to the amplification of tendon inflammation.Overall, the developed 3D tendon‐on‐chip provides a powerful new tool enabling mechanistic studies on the pathogenesis of tendinopathy as well as for assessing new therapies.

Published
2024
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29. Extracellular matrix-derived materials for tissue engineering and regenerative medicine: A journey from isolation to characterization and application

Author

Helena Vilaça-Faria, Jennifer Noro, Rui L. Reis, and Rogério P. Pirraco

Subjects
Extracted ECM, Extraction methods, Characterization, ECM-derived applications, Materials of engineering and construction. Mechanics of materials, TA401-492, Biology (General), QH301-705.5
Abstract

Biomaterial choice is an essential step during the development tissue engineering and regenerative medicine (TERM) applications. The selected biomaterial must present properties allowing the physiological-like recapitulation of several processes that lead to the reestablishment of homeostatic tissue or organ function. Biomaterials derived from the extracellular matrix (ECM) present many such properties and their use in the field has been steadily increasing. Considering this growing importance, it becomes imperative to provide a comprehensive overview of ECM biomaterials, encompassing their sourcing, processing, and integration into TERM applications. This review compiles the main strategies used to isolate and process ECM-derived biomaterials as well as different techniques used for its characterization, namely biochemical and chemical, physical, morphological, and biological. Lastly, some of their applications in the TERM field are explored and discussed.

Published
2024
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31. Contributors

Author

Beaucamp, Anne, primary, Ben-Nissan, Besim, additional, Caballero, David, additional, Carvalho, Pedro P., additional, Cerqueira, Rui, additional, Chen, Jia-Reng, additional, Choe, Seung Ho, additional, Choi, Andy H., additional, Choi, Gina, additional, Choi, Joo Hee, additional, Collins, Maurice N., additional, Costa, João, additional, Costa, Joana, additional, Cuadrado, Alberto, additional, Cunha, Patrícia, additional, Dias, Inês E., additional, Dias, Isabel R., additional, Donate, Ricardo, additional, Dubey, Nileshkumar, additional, Fernández-Costa, Juan M., additional, Fernández-Garibay, Xiomara, additional, Ghorbani, Farnaz, additional, Goetz-Neunhoeffer, Friedlinde, additional, Gulicli, Baris, additional, Hurle, Katrin, additional, Jain, Pooja, additional, Kang, Tae Woong, additional, Kathuria, Himanshu, additional, Khang, Gilson, additional, Kim, Seung Jae, additional, Kumarasamy, Murali, additional, Kundu, Subhas C., additional, Liu, Chaozong, additional, Lucas, João, additional, Macedo, Fernando, additional, Marquet, Iñigo, additional, Martins, Ângela, additional, McEvoy, E., additional, McNamara, L.M., additional, Mishra, Sushmita, additional, Monzón, Mario D., additional, Morcimen, Zehra Gul, additional, Motta, Antonella, additional, Oliveira, J. Miguel, additional, Park, Sunjae, additional, Paz, Rubén, additional, Perin, Francesca, additional, Ramón-Azcón, Javier, additional, Reis, Rui L., additional, Ribeiro, Viviana P., additional, Rocha, Miguel, additional, Rossoni, Andrea, additional, Sahranavard, Melika, additional, Sakthiabirami, Kumaresan, additional, Sendemir, Aylin, additional, Serafin, Aleksandra, additional, Song, Jeong Eun, additional, Spessot, Eugenia, additional, Sriram, Gopu, additional, Tejedera-Villafranca, Ainoa, additional, Uzer-Yilmaz, Benay, additional, Viegas, Carlos A., additional, Vilela, Carlos, additional, Yan, Le-Ping, additional, Yánez, Alejandro, additional, Yang, Mo, additional, Zamboni, Fernanda, additional, Zeugolis, Dimitrios I., additional, and Zhang, Chao, additional

Published
2024
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33. Humanistic Health Management and Cancer: Associations of Psychology, Nutrition, and Exercise with Cancer Progression and Pathogenesis

Author

Chenchen Li, Junfeng Zhang, Pengcheng Pan, Junjie Zhang, Xinyi Hou, Yan Wang, Guoping Chen, Pir Muhammad, Rui L. Reis, Lin Ding, and Yanli Wang

Subjects
cancer, exercise, humanistic health management, nutrition, psychology, Science
Abstract

Abstract The incidence rate of cancer is increasing year by year due to the aging of the population, unhealthy living, and eating habits. At present, surgery and medication are still the main treatments for cancer, without paying attention to the impact of individual differences in health management on cancer. However, increasing evidence suggests that individual psychological status, dietary habits, and exercise frequency are closely related to the risk and prognosis of cancer. The reminder to humanity is that the medical concept of the unified treatment plan is insufficient in cancer treatment, and a personalized treatment plan may become a breakthrough point. On this basis, the concept of “Humanistic Health Management” (HHM) is proposed. This concept is a healthcare plan that focuses on self‐health management, providing an accurate and comprehensive evaluation of individual lifestyle habits, psychology, and health status, and developing personalized and targeted comprehensive cancer prevention and treatment plans. This review will provide a detailed explanation of the relationship between psychological status, dietary, and exercise habits, and the regulatory mechanisms of cancer. Intended to emphasize the importance of HHM concept in cancer prevention and better prognostic efficacy, providing new ideas for the new generation of cancer treatment.

Published
2024
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42. Natural lipid nanoparticles extracted from Morus nigra L. leaves for targeted treatment of hepatocellular carcinoma via the oral route

Author

Qiang Gao, Nanxi Chen, Baoyi Li, Menghang Zu, Ya Ma, Haiting Xu, Zhenhua Zhu, Rui L. Reis, Subhas C. Kundu, and Bo Xiao

Subjects
Natural nanomedicine, Green preparation, Oral route, Galactose-mediated endocytosis, Liver cancer, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5
Abstract

Abstract The clinical application of conventional medications for hepatocellular carcinoma treatment has been severely restricted by their adverse effects and unsatisfactory therapeutic effectiveness. Inspired by the concept of ‘medicine food homology’, we extracted and purified natural exosome-like lipid nanoparticles (LNPs) from black mulberry (Morus nigra L.) leaves. The obtained MLNPs possessed a desirable hydrodynamic particle size (162.1 nm), a uniform size distribution (polydispersity index = 0.025), and a negative surface charge (-26.6 mv). These natural LNPs were rich in glycolipids, functional proteins, and active small molecules (e.g., rutin and quercetin 3-O-glucoside). In vitro experiments revealed that MLNPs were preferentially internalized by liver tumor cell lines via galactose receptor-mediated endocytosis, increased intracellular oxidative stress, and triggered mitochondrial damage, resulting in suppressing the viability, migration, and invasion of these cells. Importantly, in vivo investigations suggested that oral MLNPs entered into the circulatory system mainly through the jejunum and colon, and they exhibited negligible adverse effects and superior anti-liver tumor outcomes through direct tumor killing and intestinal microbiota modulation. These findings collectively demonstrate the potential of MLNPs as a natural, safe, and robust nanomedicine for oral treatment of hepatocellular carcinoma. Graphic abstract

Published
2024
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43. Toward the Realization of Vertical Slices: Mapping 5G Features to Industrial Requirements

Author

Andre Perdigao, Jose Quevedo, and Rui L. Aguiar

Subjects
5G, testbed, NPN, QoS, network slicing, R17, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

5G network is expected to be highly flexible, enabling its adjustment according to user requirements. To achieve this, 5G leverages network slicing, allowing the division of the network infrastructure into different slices with completely different communication performances. However, this flexibility is not easily achieved, requiring the use of available 5G features, Quality of Service (QoS) parameters, and technologies to adapt the communication performance according to the user requirements. Furthermore, to foster wider adoption of 5G by verticals, it is crucial to simplify the network configuration process by providing common interfaces that accept attributes familiar to vertical users. In this line, having a vertical-oriented network slice manager capable of automating the deployment of slices in 5G networks is crucial. One of the key elements involved in creating such a system is a mapping between common communication attributes and available 5G configuration parameters and features. This mapping facilitates the adjustment of communication performance to meet vertical requirements. With this in mind, the document explores the realisation of such a mapping. First, it analyses the communication attributes defined by well-known organisations (e.g., 5G-ACIA, and 5GDNA); these attributes define the performance requirements of network slices or industrial use cases. Then, it maps these attributes to standardised R17 5G functionalities. The mapping is followed by a validation using the 5GAIner infrastructure (part of the IMAGINE-B5G experimental facilities), a real-world commercial-grade 5G Standalone (SA) network. The results showcase the feasibility of using this mapping to realize vertical slices.

Published
2024
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44. Modelling the complex nature of the tumor microenvironment: 3D tumor spheroids as an evolving tool

Author

Daniel B. Rodrigues, Rui L. Reis, and Rogério P. Pirraco

Subjects
Spheroids, 3D tumor models, Cancer, Tumor microenvironment, Medicine
Abstract

Abstract Cancer remains a serious burden in society and while the pace in the development of novel and more effective therapeutics is increasing, testing platforms that faithfully mimic the tumor microenvironment are lacking. With a clear shift from animal models to more complex in vitro 3D systems, spheroids emerge as strong options in this regard. Years of development have allowed spheroid-based models to better reproduce the biomechanical cues that are observed in the tumor-associated extracellular matrix (ECM) and cellular interactions that occur in both a cell–cell and cell-ECM manner. Here, we summarize some of the key cellular interactions that drive tumor development, progression and invasion, and how successfully are these interactions recapitulated in 3D spheroid models currently in use in the field. We finish by speculating on future advancements in the field and on how these can shape the relevance of spherical 3D models for tumor modelling.

Published
2024
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45. Is Release 15 Ready for the Industry?

Author

Andre Perdigao, Jose Quevedo, and Rui L. Aguiar

Subjects
5G SA, testbed, NPN, network slicing, release 15, Industry 4.0, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

5G technologies are considered a cornerstone of the advent of the next industrial revolution. Promising performance improvements, along with advanced features and assurances in terms of reliability, flexibility and isolation, are expected to enable the realization of diverse and novel use cases, fostering industrial automation with optimized production lines and manufacturing systems. This document shares the experience and knowledge using a 5G SA network for industrial applications. Concretely, the paper examines whether and how the available technology could fulfil the demanding industry requirements, namely in terms of isolation, flexibility and performance. This gap analysis revealed 5G QoS mechanisms as a key driver towards 5G for industry. Thus, a comprehensive analysis of the existing mechanisms and their impact on the network performance are presented, serving as a reality check of 5G SA Release 15 technologies. Although results showed promising possibilities to support industrial deployments, there is still a gap between what’s achievable and what is expected from 5G that will be gradually filled by the introduction of novel features in the upcoming releases. In general, the contributions and insights presented in this paper are considered to be valuable for industry, standards development organizations, manufacturers, and the wider 5G ecosystem. Moreover, this paper serves as a foundational component within a larger endeavour of automating network slicing mechanisms for industrial applications.

Published
2024
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47. Using Hybrid Nanoplatforms to Combine Traditional Anti-Inflammatory Drug Delivery with RNA-Based Therapeutics for Macrophage Reprograming

Author

Ana F. Almeida, Margarida S. Miranda, Rui L. Reis, Manuela E. Gomes, and Márcia T. Rodrigues

Subjects
magnetic micelles, precision technologies, drug delivery, celecoxib, anti-inflammatory drug, miR, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

There is growing evidence on the significant role of prolonged inflammation in triggering and progressing of numerous diseases with substantial health and socioeconomic impacts, such as musculoskeletal, cardiovascular and autoimmune disorders, and cancer. Therefore, there is an urgent need to develop therapies that can overcome the main challenges of currently used approaches, such as non-target action, partial modulation of the complex inflammatory pathways, and short-term effects, to effectively manage and resolve chronic inflammatory states. This work investigates the therapeutic synergy of clinically relevant anti-inflammatory agents approaching naïve and classically activated macrophages owing to their central role in inflammation. Aiming at human therapies, a dual-loading nanoplatform reunites molecules with different physico-chemical properties in a single system, seeking to more effectively and comprehensively regulate macrophage functions for precision cell guidance and greater versatility in disease managing. To build this platform, palmitic acid grafted chitosan, superparamagnetic iron oxide nanoparticles, the clinically approved NSAID celecoxib (also known as Celebrex®), and RNA technologies were combined into superparamagnetic polymeric micelles (SPMs). Our findings demonstrated that traditional anti-inflammatory drugs such as celecoxib and microRNA molecules were efficiently delivered by the SPMs, altering the inflammatory profile of naïve (M0φ) and M1-primed macrophages (M1φ) assessed by gene and protein expression. The impact of the dual-loaded SPMs in naïve Mφ is an interesting finding towards the modulation of the initial immune response, reducing the potential for chronic inflammation and promoting tissue healing. Collectively, these encouraging results demonstrate the promise of multi-nanomedicine strategies to enhance the efficacy of therapeutic interventions by offering a fresh approach to more precisely and carefully regulated nanotherapeutics delivery.

Published
2024
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