Your search keyword '"Nanopartícules"' showing total 6 results

1. Use of nanoparticles in radiation oncology.

Author

Schick, Ulrike, Bourbonne, Vincent, Lucia, François, and Verry, Camille

Subjects

*NANOMEDICINE, *CANCER treatment, *MONOCLONAL antibodies, *RADIATION-sensitizing agents, *CLINICAL trials

Abstract

Radiotherapy is a major therapeutic strategy for cancer treatment. Despite many technology advances in the last two decades, local control remains often suboptimal, especially in locally advanced tumours, which are often hypoxic, and radioresistant. In addition, irradiation of surrounding tissues and organs at risk usually precludes further dose escalation to minimize acute and late toxicities. Radiosensitizing agents such as chemotherapies targeting the DNA repair, or targeted monoclonal antibodies (cetuximab) have been shown to improve local control in many tumour types. More recently, radioenhancers have emerged as a new way to overcome the limitations of radiation. Here, we review the state of the art in this field and will focus on the past and ongoing clinical trials with the nanoparticles NBTXR3 and AGuIX®. [ABSTRACT FROM AUTHOR]

Published

2024

2. Effect of Ni-Doping on ZnO Nanostructures Properties

Author

Attaf, Sonia, Abbas, Fouzia, Namoune, Chourouk, Bensaha, Rabeh, Ghosh, Arindam, Series Editor, Chua, Daniel, Series Editor, de Souza, Flavio Leandro, Series Editor, Aktas, Oral Cenk, Series Editor, Han, Yafang, Series Editor, Gong, Jianghong, Series Editor, Jawaid, Mohammad, Series Editor, Hamamda, Smail, editor, Zahaf, Abdelmalek, editor, Sementsov, Yurii, editor, Nedilko, Serhii, editor, and Ivanenko, Kateryna, editor

Published

2024

3. Fluorescent labeling of micro/nanoplastics for biological applications with a focus on “true-to-life' tracking

Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria Química, Universitat Politècnica de Catalunya. POLQUITEX - Materials Polimérics i Química Téxtil, Villacorta, Aliro, Cazorla Ares, Camila, Fuentes Cebrian, Víctor, H. Valido, Iris, Vela, Lourdes, Carrillo Navarrete, Fernando, Morataya Reyes, Michelle, Mejia Carmona, Karen, Pastor, Susana, Velàzquez, Antonia, Arribas Arranz, Jéssica, Marcos, Ricard, López Mesas, Montserrat, Hernández, Alba, Universitat Politècnica de Catalunya. Departament d'Enginyeria Química, Universitat Politècnica de Catalunya. POLQUITEX - Materials Polimérics i Química Téxtil, Villacorta, Aliro, Cazorla Ares, Camila, Fuentes Cebrian, Víctor, H. Valido, Iris, Vela, Lourdes, Carrillo Navarrete, Fernando, Morataya Reyes, Michelle, Mejia Carmona, Karen, Pastor, Susana, Velàzquez, Antonia, Arribas Arranz, Jéssica, Marcos, Ricard, López Mesas, Montserrat, and Hernández, Alba

Abstract

The increased environmental presence of micro-/nanoplastics (MNPLs) and the potential health risks associated with their exposure classify them as environmental pollutants with special environmental and health concerns. Consequently, there is an urgent need to investigate the potential risks associated with secondary MNPLs. In this context, using “true-to-life” MNPLs, resulting from the laboratory degradation of plastic goods, may be a sound approach. These non-commercial secondary MNPLs must be labeled to track their presence/journeys inside cells or organisms. Because the cell internalization of MNPLs is commonly analyzed using fluorescence techniques, the use of fluorescent dyes may be a sound method to label them. Five different compounds comprising two chemical dyes (Nile Red and Rhodamine-B), one optical brightener (Opticol), and two industrial dyes (Amarillo Luminoso and iDye PolyPink) were tested to determine their potential for such applications. Using commercial standards of polystyrene nanoplastics (PSNPLs) with an average size of 170 nm, different characteristics of the selected dyes such as the absence of impact on cell viability, specificity for plastic staining, no leaching, and lack of interference with other fluorochromes were analyzed. Based on the overall data obtained in the wide battery of assays performed, iDye PolyPink exhibited the most advantages, with respect to the other compounds, and was selected to effectively label “true-to-life” MNPLs. These advantages were confirmed using a proposed protocol, and labeling titanium-doped PETNPLs (obtained from the degradation of milk PET plastic bottles), as an example of “true-to-life” secondary NPLs. These results confirmed the usefulness of iDye PolyPink for labeling MNPLs and detecting cell internalization, A. Villacorta was supported by PhD fellowships from the National Agency for Research and Development (ANID), from the CONICYT PFCHA/DOCTORADO BECAS CHILE/2020–72210237. L. Vela was supported by a Ph.D. fellowship from the Fundación Carolina. M. Morataya-Reyes hold a Ph.D. FI fellowship from the Generalitat de Catalunya. A. Hernández was granted an ICREA ACADEMIA award. I.H. Valido was supported by “Ayudas Margarita Salas para la formación de jóvenes doctores”, Ministerio de Universidades (Spain). This project has received funding from the European Union’s Horizon 2020 Research and Innovation Programme under Grant Agreement No. 965196. This work was also partially supported by the Spanish Ministry of Science and Innovation [PID2020-116789, RB-C43], and by the Generalitat de Catalunya (2021-SGR-00731 and 2021-SGR-00723), Postprint (published version)

Published

2024

4. Cobalt-phenolic nanoparticles-driven self-assembly of hyaluronic acid hydrogels providing a multifactorial approach for chronic wound management

Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria Química, Universitat Politècnica de Catalunya. GBMI - Grup de Biotecnologia Molecular i Industrial, Ferreres Cabanes, Guillem, Pérez Rafael, Silvia, Palacios Bonilla, Òscar, Todorova, Katerina, Hinojosa-Caballero, Dolores, Torrent Burgués, Juan, Tzanov, Tzanko, Universitat Politècnica de Catalunya. Departament d'Enginyeria Química, Universitat Politècnica de Catalunya. GBMI - Grup de Biotecnologia Molecular i Industrial, Ferreres Cabanes, Guillem, Pérez Rafael, Silvia, Palacios Bonilla, Òscar, Todorova, Katerina, Hinojosa-Caballero, Dolores, Torrent Burgués, Juan, and Tzanov, Tzanko

Abstract

Chronic wounds are persistent non-healing lesions whose complex management is due to the interplay of multiple factors promoting chronicity, such as oxidative stress, overexpressed enzyme activities impeding the tissue repair and bacterial contamination. Currently marketed chronic wound dressings are designed mainly to absorb wound exudate, and at most to release antimicrobial agents, usually ionic silver. However, an effective wound repair requires addressing the multifactorial nature of the wound in a holistic approach. This study explores the potential of metal phenolic network (MPN) nanoparticles (NPs), comprised of epigallocatechin gallate (EGCG) and cobalt, as active agents and structural elements in wound dressings. The MPN NPs were able to generate reactive oxygen species (ROS), disturb bacterial membrane, and inhibit the biofilm of both gram-positive Staphylococcus aureus and gram-negative Pseudomonas aeruginosa. Owing to the high interfacial activity of their phenolic shells, the NPs drove the self-assembly of thiolated hyaluronic acid (THA) hydrogels featuring injectability, self-healing, stimuli-responsive NPs delivery in wound microenvironment, and control over deleterious enzyme activities, oxidative stress and bacterial colonisation. Specifically, the hydrogels inhibited matrix metalloproteinase (MMP) and myeloperoxidase (MPO) by 60 and 80 %, respectively, and achieved 4-log reduction of S. aureus and 2-log reduction of P. aeruginosa concentrations. Finally, the hydrogels were in-vivo validated in a mouse animal model, showing lack of toxicity and similar wound healing efficiency as an antibiotic-containing commercial product., This work was supported by Spanish Ministry of Economy and Competitiveness Projects (MINECO) CoatToSave—Nanoenabled hydrogel coatings against antimicrobial-resistant catheter-related infections (PID2019-104111RB-I00) and NANOGErida – Self-assembled nano-enabled hydrogels targeting multiple chronicity factors in wounds (PID2022-142229OB-I00). G. F acknowledges Universitat Politècnica de Catalunya and Banco Santander for his PhD grant (113 FPI-UPC 2018). T.T. acknowledges ICREA Academia 2021-07., Peer Reviewed, Postprint (published version)

Published

2024

5. Boosting the sensitivity and hysteresis of a gel polymer electrolyte by embedding SiO2 nanoparticles and PVP for humidity applications

Author

Universitat Politècnica de Catalunya. Doctorat en Enginyeria Electrònica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, Universitat Politècnica de Catalunya. MNT-Solar - Grup de Micro i Nano Tecnologies per Energia Solar, Cedeño Mata, Kristel Michelle, Orpella García, Alberto, Domínguez Pumar, Manuel, Bermejo Broto, Sandra, Universitat Politècnica de Catalunya. Doctorat en Enginyeria Electrònica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, Universitat Politècnica de Catalunya. MNT-Solar - Grup de Micro i Nano Tecnologies per Energia Solar, Cedeño Mata, Kristel Michelle, Orpella García, Alberto, Domínguez Pumar, Manuel, and Bermejo Broto, Sandra

Abstract

Enhancing sensitivity and hysteresis in capacitance humidity sensors is vital for precise, reliable, and consistent humidity control. This study explores this concern by incorporating polyvinylpyrrolidone (PVP) and SiO2 nanoparticles into a polyvinyl alcohol (PVA)-based ionic liquid gel polymer electrolyte (ILGPE), studying two capacitor types: ILGPE and SiO2 composite ILGPE (CILGPE) capacitors. These novel electrolytes use ammonium acetate as a plasticiser, 1-butyl-3-methylimidazolium bromide as an ionic liquid, SiO2 nanoparticles as a composite, and PVA and PVP as host polymers. Capacitors were characterised and modelled using impedance spectroscopy (IS), providing an electrophysical insight into their working principle. Sensitivity and hysteresis were evaluated within a 20–90% relative humidity (RH) range at 25 °C. The SiO2 CILGPE capacitor with PVP presented superior sensitivity and hysteresis, revealing the beneficial combination of SiO2 nanoparticles and PVP. These benefits are due to the creation of pathways that facilitate water molecule diffusion and crystallinity reduction in PVA-ILGPE. In particular, at 10 kHz, it demonstrates a calibrated capacitance sensitivity of 2660 pF/%RH and a hysteresis of 3.28 %RH. This optimised capacitor outperforms some previous humidity capacitive sensors in sensitivity while exhibiting low hysteresis., Peer Reviewed, Postprint (published version)

Published

2024

6. Enhancing drug bioavailability for Parkinson's disease: The promise of chitosan delivery mechanisms.

Author

Shaikh MAJ, Gupta G, Bagiyal P, Gupta S, Singh SK, Pillappan R, Chellappan DK, Prasher P, Jakhmola V, Singh TG, Dureja H, Singh SK, and Dua K

Abstract

Parkinson's disease (PD) is a widely seen neurodegenerative condition recognized by misfolded α-synuclein (αSyn) protein, a prominent indicator for PD and other synucleinopathies. Motor symptoms like stiffness, akinesia, rest tremor, and postural instability coexist with nonmotor symptoms that differ from person to person in the development of PD. These symptoms arise from a progressive loss of synapses and neurons, leading to a widespread degenerative process in multiple organs. Implementing medical and surgical interventions, such as deep brain stimulation, has enhanced individuals' overall well-being and long-term survival with PD. It should be mentioned that these treatments cannot stop the condition from getting worse. The complicated structure of the brain and the existence of a semi-permeable barrier, commonly known as the BBB, have traditionally made medication delivery for the treatment of PD a challenging endeavor. The drug's low lipophilic nature, enormous size, and peculiarity for various ATP-dependent transport mechanisms hinder its ability to enter brain cells. This article delves at the potential of drug delivery systems based on chitosan (CS) to treat PD., (Copyright © 2024 Académie Nationale de Pharmacie. Published by Elsevier Masson SAS. All rights reserved.)

Published

2024