Your search keyword '"Theranosis"' showing total 3 results

1. Dual Anticancer and Antibacterial Properties of Silica-Based Theranostic Nanomaterials Functionalized with Coumarin343, Folic Acid and a Cytotoxic Organotin(IV) Metallodrug

Author

Química aplicada, Kimika aplikatua, Ugalde Arbizu, Maider, Aguilera-Correa, John Jairo, García Almodóvar, Victoria, Ovejero Paredes, Karina, Díaz García, Diana, Esteban, Jaime, Páez, Paulina L., Prashar, Sanjiv, San Sebastian, Eider, Filice, Marco, Gómez Ruiz, Santiago, Química aplicada, Kimika aplikatua, Ugalde Arbizu, Maider, Aguilera-Correa, John Jairo, García Almodóvar, Victoria, Ovejero Paredes, Karina, Díaz García, Diana, Esteban, Jaime, Páez, Paulina L., Prashar, Sanjiv, San Sebastian, Eider, Filice, Marco, and Gómez Ruiz, Santiago

Abstract

Five different silica nanoparticles functionalized with vitamin B12, a derivative of coumarin found in green plants and a minimum content of an organotin(IV) fragment (1-MSN-Sn, 2-MSN-Sn, 2-SBA-Sn, 2-FSPm-Sn and 2-FSPs-Sn), were identified as excellent anticancer agents against triple negative breast cancer, one of the most diagnosed and aggressive cancerous tumors, with very poor prognosis. Notably, compound 2-MSN-Sn shows selectivity for cancer cells and excellent luminescent properties detectable by imaging techniques once internalized. The same compound is also able to interact with and nearly eradicate biofilms of Staphylococcus aureus, the most common bacteria isolated from chronic wounds and burns, whose treatment is a clinical challenge. 2-MSN-Sn is efficiently internalized by bacteria in a biofilm state and destroys the latter through reactive oxygen species (ROS) generation. Its internalization by bacteria was also efficiently monitored by fluorescence imaging. Since silica nanoparticles are particularly suitable for oral or topical administration, and considering both its anticancer and antibacterial activity, 2-MSN-Sn represents a new dual-condition theranostic agent, based primarily on natural products or their derivatives and with only a minimum amount of a novel metallodrug.

Published

2023

2. Hybrid Decorated Core@Shell Janus Nanoparticles as a Flexible Platform for Targeted Multimodal Molecular Bioimaging of Cancer

Author

Sánchez, Alfredo, Ovejero Paredes, Karina, Ruiz-Cabello, Jesús, Martínez Ruiz, María Paloma, Pingarrón Carrazón, José Manuel, Villalonga Santana, Reynaldo, Filice, Marco, Sánchez, Alfredo, Ovejero Paredes, Karina, Ruiz-Cabello, Jesús, Martínez Ruiz, María Paloma, Pingarrón Carrazón, José Manuel, Villalonga Santana, Reynaldo, and Filice, Marco

Abstract

In the recent years, targeted cancer theranosis, the concomitant therapeutic treatment and selective visualization of cancerous tissue, has become a powerful strategy to improve patient prognosis. In this context, targeted multimodal molecular imaging, the combination of different imaging modalities overcoming their individual limitations, has attracted great attention. Due to their unique properties, advanced nanomaterials have taken center stage in the development of theranostics. In this work, we report a novel Janus nanoplatform by combining an Fe3O4 NPs/mesoporous silica core@shell face together with an Au nanoparticle face. Due to its anisotropy, this hybrid nanomaterial enabled the orthogonal site-selective modification of each face permitting the incorporation of a targeting peptide for cancer detection (cRGD) and a fluorescent dye. Due to the intrinsic characteristics of this Janus nanoplatform together with those selectively generated on their surfaces, the resulting hybrid nanocarrier successfully promoted the in vivo tumor-targeted multimodal imaging by magnetic resonance (Fe3O4 core), computed tomography (AuNP face), and fluorescent tracking (fluorescent dye loading) in a fibrosarcoma-bearing mouse model. The achieved results endorse these hybrid Janus nanoparticles as a powerful and flexible platform with integrated imaging and carrier functionalities to be equipped with therapeutic features to generate an advanced multifunctional nanocarrier for targeted cancer theranosis., Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Economia y Competitividad (España), Comunidad de Madrid, European Commission, Depto. de Química Analítica, Fac. de Ciencias Químicas, TRUE, pub

Published

2018

3. Recent advances in the preparation and application of multifunctional iron oxide and liposome-based nanosystems for multimodal diagnosis and therapy

Author

European Commission, Ministerio de Economía y Competitividad (España), Marciello, Marzia, Pellico, Juan, Fernández-Barahona, Irene, Herranz, Fernando, Ruiz-Cabello, Jesus, Filice, Marco, European Commission, Ministerio de Economía y Competitividad (España), Marciello, Marzia, Pellico, Juan, Fernández-Barahona, Irene, Herranz, Fernando, Ruiz-Cabello, Jesus, and Filice, Marco

Abstract

Nowadays,thanks to the successful discoveries in the biomedical field achieved in the last two decades,a deeper understanding about the complexity of mechanistic aspects of different pathological processes has been obtained. As a consequence,even the standard therapeutic protocols have undergone a vast redesign. In fact,the awareness about the necessity to progress towards a combined multitherapy in order to potentially increase the final healing chances has become a reality. One of the crucial elements of this novel approach is that large amounts of detailed information are highly needed and in vivo imaging techniques represent one of the most powerful tools to visualize and monitor the pathological state of the patient. To this scope,due to their unique features,nanostructured materials have emerged as attractive elements for the development of multifunctional tools for diagnosis and therapy. Hence,in this review,the most recent and relevant advances achieved by applying multifunctional nanostructures in multimodal theranosis of different diseaseswill be discussed. Inmore detail,the preparation and application of single multifunctional nano-radiotracers based on iron oxides and enabling PET/MRI dual imaging will be firstly detailed. After that,especially considering their highly promising clinical potential,the preparation and application of multifunctional liposomes useful for multimodal imaging and therapy will be reviewed. In both cases,a special focus will be set on the application of such a multifunctional nanocarriers in cancer as well as cardiovascular diseases.

Published

2016