Dr. Mª Soledad Orellano
Dr. M. Soledad Orellano received her Bachelor Degree in Chemistry from the National University of Rio Cuarto (Argentina). In 2014 she obtained a Ph.D. fellowship funded by the Argentinean National Council of Scientific and Technical Research (CONICET). She worked on the synthesis of chitosan nanoparticles and their therapeutic effect against bovine mastitis pathogens and their interaction with bovine cells in vitro as well. Her thesis work was performed at the National University of Villa Maria (Argentina) under the supervision of Prof. Carina Porporatto and Prof. R. Dario Falcone. She received her Ph.D. degree in 2019 from the National University of Rio Cuarto (UNRC, Argentina).
In 2018 she obtained a Fulbright grant to carry out an internship for three months at the University of Tennessee, Knoxville, United States under the supervision of Prof. Raul A. Almeida. She worked on the antimicrobial activity of chitosan nanoparticles against intracellular Staphylococcus aureus using in vitro mammary gland model.
In 2019 she obtained a postdoctoral fellowship funded by CONICET to perform postdoctoral training at UNRC (Argentina) under the supervision of Prof. N. Mariano Correa. She worked on the synthesis of chitosan-based polymeric surfactants and the physicochemical characterization of polymeric micelles using fluorescence molecular probes.
Since March 2021 she joined the Responsive Polymer Therapeutics Group in the framework of a Marie Skłodowska-Curie individual fellowship under the supervision of Prof. Marcelo Calderón. She worked in the development of responsive polymeric materials for the delivery of antimicrobials into the bovine udder.
Her research work is focused in the development of polymeric nanomaterias for biomedical applications, with special attention in the design of materials to treat bacterial infections and minimize bacterial resistance.
Her current research project in RPT Group, POLYMAT consist on the development of novel polymeric systems for efficient delivery of gene editing tools, like CRISPR-Cas, for skin gene therapy.
Publicaciones
Engineering biocompatible chitosan hydrogels with polyether-based crosslinkers for biomedical applications.
N. Politakos, C. Busatto, M. Orellano, S. Martin-Colomo, A. Larranaga, D. Estenoz and M. Calderon
Unveiling the chemical composition of a microbiota-derived extracellular polymeric substance and its antivirulence potential against Staphylococcus aureus from bovine mastitis
M. de Lillo, M. Orellano, M. Breser, L. Bohl, G. Tiraboschi, M. Calderón, C. Porporatto and P. Isaac
Harnessing Supramolecular J-Aggregates in Deep Eutectic Solvents for Tunable NIR Photothermal and Photodynamic Therapy
Kumar K., Gurol M., Sanjarnia P., Orellano M.S., Beloqui A., Ebo L., Picchio M.L. and Calderón M.
PRODAN and C120 fluorescent probes to investigate the structure of branched cyclic polyglycerol
C. Pagnacco, F. Barroso-Bujans, M. Calderón and M. Orellano
Eutectozymes as Soft Hybrid Materials for Advanced Biocatalysis
M. Martínez-Cartagena, L. Suarez, A. Ontoria, F. Benítez, E. Rezabal, M. Orellano, M. Calderón, C. Huck-Iriart, A. Picco, M. Picchio and A. Beloqui
Elastomeric Protein Bioactive Eutectogels for Topical Drug Delivery
M. Picchio, M. Orellano, M. Motta, C. Huck-Iriart, D. Sánchez-deAlcázar, R. López-Domene, B. Martín-García, A. Larrañaga, A. Beloqui, D. Mecerreyes and M. Calderón
Polyglycerol-Functionalized ß-Cyclodextrins as Crosslinkers in Thermoresponsive Nanogels for the Enhanced Dermal Penetration of Hydrophobic Drugs
H. Wang, N. Tiwari, M. Orellano, L. Navarro, Z. Beiranvand, M. Adeli and M. Calderón
Multiresponsive Nanogels for the Selective Delivery of Antimicrobial Drugs to Mucosal Tissues
J. Udabe, S. Bongiovanni Abel, M. Orellano and M. Calderón
Modulating the Mucosal Drug Delivery Efficiency of Polymeric Nanogels Tuning their Redox Response and Surface Charge
J. Udabe, A. Muñoz-Juan, B. Tafech, M. Orellano, S. Hedtrich, A. Laromaine and M. Calderón
Chitosan can improve antimicrobial treatment independently of bacterial lifestyle, biofilm biomass intensity and antibiotic resistance pattern in non-aureus staphylococci (NAS) isolated from bovine clinical mastitis
M. Breser, L. Tisera, M. Orellano, L. Bohl, P. Isaac, I. Bianco and C. Porporatto


