Your search keyword '"Vázquez-Ríos, Abi Judit"' showing total 10 results

1. Edelfosine nanoemulsions inhibit tumor growth of triple negative breast cancer in zebrafish xenograft model

Author

Saraiva, Sofia M., Gutiérrez-Lovera, Carlha, Martínez-Val, Jeannette, Lores, Sainza, Bouzo, Belén L., Díez-Villares, Sandra, Alijas, Sandra, Pensado-López, Alba, Vázquez-Ríos, Abi Judit, Sánchez, Laura, and de la Fuente, María

Published

2021

2. Contributors

Author

Alonso-Nocelo, Marta, primary, Alvarez-Puebla, Ramon, additional, Bauleth-Ramos, Tomás, additional, Björnmalm, Mattias, additional, Bouzo, Belén López, additional, Burgum, Michael J., additional, Calamak, Semih, additional, Calibasi Kocal, Gizem, additional, Chen, Ai-Zheng, additional, Chiappini, Ciro, additional, Clift, Martin J.D., additional, Cruz, Ana F., additional, Cui, Daxiang, additional, Cui, Jiwei, additional, de la Fuente, María, additional, Demirci, Utkan, additional, Doak, Shareen H., additional, Durmus, Naside G., additional, Ermis, Menekse, additional, Evans, Stephen J., additional, Fan, Kelong, additional, Farkas, Michelle E., additional, Figueiredo, Patrícia, additional, Fonseca, Nuno A., additional, Gregório, Ana C., additional, Guerrini, Luca, additional, Guven, Sinan, additional, Hamad-Schifferli, Kimberly, additional, Hao, Jingcheng, additional, Hardie, Joseph, additional, Hasan, Tayyaba, additional, Hasirci, Nesrin, additional, Hasirci, Vasif, additional, He, Ting, additional, Hirvonen, Jouni, additional, Huang, Chih-Chia, additional, Huang, Yan, additional, Huang, Peng, additional, Huo, Shuaidong, additional, Iyer, Roshni, additional, Jenkins, Gareth J., additional, Jiang, Ying, additional, Kankala, Ranjith K., additional, Lee, Chien-Wei, additional, Li, Yue, additional, Li, Fan, additional, Liang, Xing-Jie, additional, Lima, Eliana M., additional, Lin, Jing, additional, Liu, Tzu-Ming, additional, Liu, Gang, additional, Lopes, Rui M., additional, Martella, Davide A., additional, Mendes, Livia P., additional, Moreira, João Nuno, additional, Moura, Vera, additional, Nguyen, Kytai T., additional, Okesola, Mary, additional, Padanilam, Dona, additional, Prina-Mello, Adriele, additional, Rico, Eduardo G., additional, Rizvi, Imran, additional, Rodriguez-Quijada, Cristina, additional, Rotello, Vincent M., additional, Ruiz-Bañobre, Juan, additional, Santos, Hélder A., additional, Sarmento, Bruno, additional, Simões, Sérgio, additional, Sun, Tuanwei, additional, Torchilin, Vladimir P., additional, Valério-Fernandes, Ângela, additional, Vázquez-Ríos, Abi Judit, additional, Wang, Shi-Bin, additional, Wang, Yu-Chi, additional, Wang, Ling, additional, Wang, Zhe, additional, Wang, Junqing, additional, Wolf, Joseph, additional, Yan, Xiyun, additional, Zhang, Yu S., additional, and Zhukova, Daria, additional

Published

2018

3. Nanotheranostics and Their Potential in the Management of Metastatic Cancer

Author

Vázquez-Ríos, Abi Judit, primary, Alonso-Nocelo, Marta, additional, Bouzo, Belén López, additional, Ruiz-Bañobre, Juan, additional, and de la Fuente, María, additional

Published

2018

4. What zebrafish and nanotechnology can offer for cancer treatments in the age of personalized medicine

Author

Universidade de Santiago de Compostela. Centro de Investigación en Medicina Molecular e Enfermidades Crónicas, Universidade de Santiago de Compostela. Departamento de Zooloxía, Xenética e Antropoloxía Física, Cascallar, María, Alijas, Sandra, Pensado López, Alba, Vázquez Ríos, Abi Judit, Sánchez Piñón, Laura Elena, Piñeiro, Roberto, De la Fuente, María, Universidade de Santiago de Compostela. Centro de Investigación en Medicina Molecular e Enfermidades Crónicas, Universidade de Santiago de Compostela. Departamento de Zooloxía, Xenética e Antropoloxía Física, Cascallar, María, Alijas, Sandra, Pensado López, Alba, Vázquez Ríos, Abi Judit, Sánchez Piñón, Laura Elena, Piñeiro, Roberto, and De la Fuente, María

Abstract

Cancer causes millions of deaths each year and thus urgently requires the development of new therapeutic strategies. Nanotechnology-based anticancer therapies are a promising approach, with several formulations already approved and in clinical use. The evaluation of these therapies requires efficient in vivo models to study their behavior and interaction with cancer cells, and to optimize their properties to ensure maximum efficacy and safety. In this way, zebrafish is an important candidate due to its high homology with the human genoma, its large offspring, and the ease in developing specific cancer models. The role of zebrafish as a model for anticancer therapy studies has been highly evidenced, allowing researchers not only to perform drug screenings but also to evaluate novel therapies such as immunotherapies and nanotherapies. Beyond that, zebrafish can be used as an “avatar” model for performing patient-derived xenografts for personalized medicine. These characteristics place zebrafish in an attractive position as a role model for evaluating novel therapies for cancer treatment, such as nanomedicine.

Published

2022

5. Edelfosine nanoemulsions inhibit tumor growth of triple negative breast cancer in zebrafish xenograft model

Author

Universidade de Santiago de Compostela. Departamento de Zooloxía, Xenética e Antropoloxía Física, Gutiérrez Lovera, Carlha, Martinez-Val, Jeannette, Lores Touriño, Sainza, LÓPEZ BOUZO, BELÉN, Díez Villares, Sandra, Sandra, Alijas Pérez, Pensado López, Alba, Vázquez Ríos, Abi Judit, Sánchez Piñón, Laura, de la Fuente Freire, Maria, Saraiva, Sofía M., Universidade de Santiago de Compostela. Departamento de Zooloxía, Xenética e Antropoloxía Física, Gutiérrez Lovera, Carlha, Martinez-Val, Jeannette, Lores Touriño, Sainza, LÓPEZ BOUZO, BELÉN, Díez Villares, Sandra, Sandra, Alijas Pérez, Pensado López, Alba, Vázquez Ríos, Abi Judit, Sánchez Piñón, Laura, de la Fuente Freire, Maria, and Saraiva, Sofía M.

Abstract

Triple negative breast cancer (TNBC) is known for being very aggressive, heterogeneous and highly metastatic. The standard of care treatment is still chemotherapy, with adjacent toxicity and low efficacy, highlighting the need for alternative and more effective therapeutic strategies. Edelfosine, an alkyl-lysophospholipid, has proved to be a promising therapy for several cancer types, upon delivery in lipid nanoparticles. Therefore, the objective of this work was to explore the potential of edelfosine for the treatment of TNBC. Edelfosine nanoemulsions (ET-NEs) composed by edelfosine, Miglyol 812 and phosphatidylcholine as excipients, due to their good safety profile, presented an average size of about 120 nm and a neutral zeta potential, and were stable in biorelevant media. The ability of ET-NEs to interrupt tumor growth in TNBC was demonstrated both in vitro, using a highly aggressive and invasive TNBC cell line, and in vivo, using zebrafish embryos. Importantly, ET-NEs were able to penetrate through the skin barrier of MDA-MB 231 xenografted zebrafish embryos, into the yolk sac, leading to an effective decrease of highly aggressive and invasive tumoral cells’ proliferation. Altogether the results demonstrate the potential of ET-NEs for the development of new therapeutic approaches for TNBC

Published

2021

6. Development of targeted therapeutic strategies for metastatic lung cancer

Author

Vázquez Ríos, Abi Judit, de la Fuente Freire, María, López López, Rafael, Universidade de Santiago de Compostela. Escola de Doutoramento Internacional (EDIUS), Universidade de Santiago de Compostela. Programa de Doutoramento en Medicina Molecular, and Fuente Freire, María de la

Subjects

Cancer Stem Cells, biomarker discovery, Investigación::32 Ciencias médicas::3207 Patología::320703 Carcinogénesis [Materias], Nanotechnology, Investigación::32 Ciencias médicas::3207 Patología::320713 Oncología [Materias], targeted therapy, Investigación::32 Ciencias médicas::3201 Ciencias clínicas::320101 Oncología [Materias], exosome-mimetic

Abstract

El cáncer de pulmón es el cáncer que se diagnostica con más frecuencia y la principal causa de muerte por cáncer en todo el mundo. Es importante destacar que alrededor del 75% de los pacientes son diagnosticados en estadios metastásicos avanzados, cuando la cirugía ya no es posible, lo que supone una caída dramática de la tasa de supervivencia a 5 años al 6%. El principal objetivo de esta tesis es definir nuevas estrategias terapéuticas inspiradas en la biología para pacientes con cáncer de pulmón metastásico. Para ello, se exploraron diferentes estrategias terapéuticas inspiradas en la biología del tumor, una de ellas proviene de los exosomas tumorales y la otra de las células que diseminan desde el tumor primario para formar las metástasis.

Published

2020

7. Development of targeted therapeutic strategies for metastatic lung cancer

Author

Fuente Freire, María de la, López López, Rafael, Universidade de Santiago de Compostela. Escola de Doutoramento Internacional (EDIUS), Universidade de Santiago de Compostela. Programa de Doutoramento en Medicina Molecular, Vázquez Ríos, Abi Judit, Fuente Freire, María de la, López López, Rafael, Universidade de Santiago de Compostela. Escola de Doutoramento Internacional (EDIUS), Universidade de Santiago de Compostela. Programa de Doutoramento en Medicina Molecular, and Vázquez Ríos, Abi Judit

Abstract

El cáncer de pulmón es el cáncer que se diagnostica con más frecuencia y la principal causa de muerte por cáncer en todo el mundo. Es importante destacar que alrededor del 75% de los pacientes son diagnosticados en estadios metastásicos avanzados, cuando la cirugía ya no es posible, lo que supone una caída dramática de la tasa de supervivencia a 5 años al 6%. El principal objetivo de esta tesis es definir nuevas estrategias terapéuticas inspiradas en la biología para pacientes con cáncer de pulmón metastásico. Para ello, se exploraron diferentes estrategias terapéuticas inspiradas en la biología del tumor, una de ellas proviene de los exosomas tumorales y la otra de las células que diseminan desde el tumor primario para formar las metástasis.

Published

2020

8. What Zebrafish and Nanotechnology Can Offer for Cancer Treatments in the Age of Personalized Medicine.

Author

Cascallar, María, Alijas, Sandra, Pensado-López, Alba, Vázquez-Ríos, Abi Judit, Sánchez, Laura, Piñeiro, Roberto, and de la Fuente, María

Subjects

TUMOR treatment, CLINICAL drug trials, XENOGRAFTS, INDIVIDUALIZED medicine, FISHES, NANOMEDICINE, DRUG development, DIFFUSION of innovations, MEDICAL research

Abstract

Simple Summary: Discovering new strategies for cancer treatment is critical, considering that each year millions of deaths are caused by this disease. In this sense, therapies based on nanomedicine are an innovative approach for cancer treatment, not only because they make it possible to perform targeted therapy, but also because they can improve patients' quality of life. A key step to transfer new treatments from bench to beside is in vivo evaluation of a therapy, where zebrafish as a model organism has a fundamental role. Zebrafish has several benefits that make it ideal for studying the therapeutic capacity of novel nanotechnology-based anticancer therapies. In this review, we evaluate the potential of the nanomedicine and zebrafish synergy to achieve personalized treatments for cancer. Cancer causes millions of deaths each year and thus urgently requires the development of new therapeutic strategies. Nanotechnology-based anticancer therapies are a promising approach, with several formulations already approved and in clinical use. The evaluation of these therapies requires efficient in vivo models to study their behavior and interaction with cancer cells, and to optimize their properties to ensure maximum efficacy and safety. In this way, zebrafish is an important candidate due to its high homology with the human genoma, its large offspring, and the ease in developing specific cancer models. The role of zebrafish as a model for anticancer therapy studies has been highly evidenced, allowing researchers not only to perform drug screenings but also to evaluate novel therapies such as immunotherapies and nanotherapies. Beyond that, zebrafish can be used as an "avatar" model for performing patient-derived xenografts for personalized medicine. These characteristics place zebrafish in an attractive position as a role model for evaluating novel therapies for cancer treatment, such as nanomedicine. [ABSTRACT FROM AUTHOR]

Published

2022

9. Chapter 8 - Nanotheranostics and Their Potential in the Management of Metastatic Cancer

Author

Vázquez-Ríos, Abi Judit, Alonso-Nocelo, Marta, Bouzo, Belén López, Ruiz-Bañobre, Juan, and de la Fuente, María

Published

2018

10. The Potential of Zebrafish as a Model Organism for Improving the Translation of Genetic Anticancer Nanomedicines

Author

Universidade de Santiago de Compostela. Departamento de Zooloxía, Xenética e Antropoloxía Física, Gutiérrez Lovera, Carlha Rodmar, Vázquez Ríos, Abi Judit, Guerra Varela, Jorge, Sánchez Piñón, Laura Elena, Fuente Freire, María de la, Universidade de Santiago de Compostela. Departamento de Zooloxía, Xenética e Antropoloxía Física, Gutiérrez Lovera, Carlha Rodmar, Vázquez Ríos, Abi Judit, Guerra Varela, Jorge, Sánchez Piñón, Laura Elena, and Fuente Freire, María de la

Abstract

In the last few decades, the field of nanomedicine applied to cancer has revolutionized cancer treatment: several nanoformulations have already reached the market and are routinely being used in the clinical practice. In the case of genetic nanomedicines, i.e., designed to deliver gene therapies to cancer cells for therapeutic purposes, advances have been less impressive. This is because of the many barriers that limit the access of the therapeutic nucleic acids to their target site, and the lack of models that would allow for an improvement in the understanding of how nanocarriers can be tailored to overcome them. Zebrafish has important advantages as a model species for the study of anticancer therapies, and have a lot to offer regarding the rational development of efficient delivery of genetic nanomedicines, and hence increasing the chances of their successful translation. This review aims to provide an overview of the recent advances in the development of genetic anticancer nanomedicines, and of the zebrafish models that stand as promising tools to shed light on their mechanisms of action and overall potential in oncology

Published

2017