Scopus Publications
- Chronic insulin exposure induces EMT-associated changes and increases migration and invasion in cancer cells
Jaume Margalef Rieres, Patricia González-Sáenz, Sylvain Ladame, Nuria Oliva
Advances in Cancer Biology Metastasis, 2026
Metastasis significantly worsens cancer prognosis and survival, and epidemiological studies suggest that metabolic disorders such as Type 2 Diabetes Mellitus (T2DM) may be associated with poorer cancer outcomes. Recent studies emphasize changes in the tumour microenvironment (TME), including angiogenesis and epithelial-to-mesenchymal transition (EMT); however, early detection of metastasis and identification of high-risk TME factors remain challenging. Because insulin is elevated in hyperinsulinemic states and can influence growth-related signalling pathways, we investigated whether chronic insulin exposure promotes EMT-associated and invasion-associated changes using SKOV3 ovarian cancer cells as an in vitro model. Insulin exposure was associated with altered expression of EMT-related genes, changes in epithelial and mesenchymal markers, and increased migration and invasion in vitro . Supportive RT-qPCR analyses in A549 and MDA-MB-231 cells showed similar insulin-associated changes in selected transcriptional markers, providing valuable insights into the role of insulin in cancer metastasis, potentially opening an avenue for further exploration of the connection between T2DM and metastatic progression in a broader range of tumours and in vivo models. - Modeling aging in a culture dish: towards the development of more sophisticated in vitro models of human skin aging
Stefania Briganti, Emanuela Camera, Jesús Ciriza, Estibaliz Fernandez-Carro, Milica Jovanović Krivokuća, Jérôme Lamartine, Sophia Letsiou, Mirjana Nacka-Aleksić, Carien M. Niessen, Nuria Oliva, Andrea Pirković, Markus Schosserer, Desmond J. Tobin, Maria Cavinato, John T. Connelly
Ageing Research Reviews, 2026
With age, human skin undergoes a progressive decline in essential functions, including barrier protection, immunity, and wound healing capacity, which underlie many age-related skin diseases. Skin aging is not only driven by chronological aging, but also strongly influenced by extrinsic stressors, notably ultraviolet radiation, pollutants, and diet. Thus, understanding the complex interplay between these intrinsic and extrinsic factors is essential for developing strategies to preserve skin health across the lifespan. Given the growing appreciation for the physiologic differences between humans and animal models, more advanced in vitro and ex vivo models are needed to dissect the human-specific mechanisms of skin aging and test emerging therapies. In this review, we summarize the major hallmarks of human skin aging and provide an overview of current in vitro modeling approaches that capture both intrinsic and environmental aging mechanisms. We highlight recent advances in complex 3D in vitro systems — including full-thickness human skin equivalents, organoids, and microphysiological platforms — and discuss how these emerging models can be leveraged to interrogate aging biology and support translational research. Together, these developments pave the way for more predictive and mechanistically informed tools to study skin aging and to accelerate the development of next-generation therapeutic and preventive strategies. • Human skin aging is a highly complex process that leads to impaired skin function and disease susceptibility. • Recent advances in tissue engineering and disease modeling have established robust in vitro models of human skin aging. • Advanced in vitro models of human skin aging are powerful tools for fundamental and translational research. • On-going research aims to develop more sophisticated organoid, organ-on-chip, and computational models of human skin aging. - The osteochondral regeneration paradox: why biomimetic scaffolds are biologically superior but injectable systems dominate the clinic
Sara Gubert, Harrison Moon, Nuria Oliva, Robert Texidó
Rsc Advances, 2026
This review maps osteochondral needs to design targets, comparing scaffolds vs injectable hydrogels. Scaffolds enable zonal mechanics and load bearing, but face regulatory and cost hurdles, while injectables translate easier. Created with Biorender®. - Insights into the alkaline degradation of oxidized chondroitin sulfate: Implications in Schiff base formation for hydrogel fabrication
Jose Antonio Duran-Mota, Harrison Moon, Margalida-Esmeralda Artigues Cladera, Salvador Borrós, Nuria Oliva
Carbohydrate Polymers, 2025
Chondroitin sulfate (CS) shows great promise for hydrogels and scaffolds in tissue engineering due to its biocompatibility and compressive strength. However, its chemical structure limits its use, necessitating modifications like oxidation to render CS with aldehyde groups (oxCS) and enabling hydrogel formation via Schiff base chemistry with amines. While an alkaline pH is essential for this crosslinking, high alkalinity affects the stability of oxCS. Despite extensive studies on CS, the extent of this in oxCS has not been thoroughly explored. This study examines oxCS degradation under alkaline conditions using spectrometric and spectroscopic techniques, suggesting possible pathways associated with decreased aldehyde functionality and reduced potential for Schiff base formation. At pH 10, aldehyde groups diminish by 50 % within 2 h, accompanied by enhanced chain scission compared to CS. These findings are applied as proof of concept in the development of two hydrogel families using 8-arm PEG-amines with varying pKa values, demonstrating the critical impact on oxCS stability and affecting the hydrogels' mechanical properties and performance. All in all, the present work provides essential insights into the design of glycosaminoglycan-based hydrogels and scaffolds. These findings advance the development of tailored biomaterials for tissue engineering, addressing the challenges posed by oxCS's stability under alkaline conditions. - Advanced Skin Models for Nanomaterials Safety Assessment
A. R. Ribeiro, S. Costa, S. Nogueira, M. González-Durruthy, H. Colley, N. Oliva, R. De Vecchi, E. Alfaro-Moreno
Nanosafety A Comprehensive Approach to Assess Nanomaterial Exposure on the Environment and Health, 2025
The human skin acts as a biological shield against prolonged exposure to nanomaterials (NMs) and nanoparticles (NPs) coming from cosmetics, textiles, and environmental pollutants that are known to lead to adverse effects such as oxidative stress, skin irritation, and skin diseases. This chapter reviews the main pollutants that our skin are exposed to daily as well as the advanced in vitro skin models used for assessing nanotoxicity. It is widely known that the existing 2D and 3D skin models try to mimic the complexity of skin physiology however they still lack specific skin structures such as vascularization and hair follicles. Skin-on-a-chip (SoC) devices, employing microfluidic technologies, bring the advantage of offering dynamic environments for more realistic evaluations of NMs’ safety assessment. In this chapter, we analyze critically how these models could accelerate nanotoxicity testing and support regulatory decisions. Additionally, we also review existing biological assays for skin toxicity as well as the available computational models ( e.g., Nano-QSR) that could help in predicting nanotoxicity taking into consideration the physicochemical properties of NMs. Future research should focus on enhancing skin model complexity and employing computational methods to predict NM behavior, ensuring the safe development of nanomaterials for dermal applications. - A machine learning approach to predict cellular uptake of pBAE polyplexes
Aparna Loecher, Michael Bruyns-Haylett, Pedro J. Ballester, Salvador Borros, Nuria Oliva
Biomaterials Science, 2023
Machine Learning (ML) algorithms are ideal in silico tools to find patterns of cellular internalisation of pBAE polyplexes in various cell types, using chemical and biophysical material properties and cellular gene expression as model inputs. - Current progress in bionanomaterials to modulate the epigenome
Anna D. Y. Rhodes, Jose Antonio Duran-Mota, Nuria Oliva
Biomaterials Science, 2022
Biomaterials have the power to epigenetically modulate gene expression of cells in contact with it. This review article summarises the current state-of-the-art and progress on the development of bio- and nanomaterials to modulate the epigenome. - Editorial: Special Issue on Advanced Biomedical Hydrogels
Nuria Oliva, Mikyung Shin, Jason A. Burdick
ACS Biomaterials Science and Engineering, 2021
ADVERTISEMENT RETURN TO ISSUEEditorialNEXTEditorial: Special Issue on Advanced Biomedical HydrogelsNuria OlivaNuria OlivaDepartment of Bioengineering, Imperial CollegeMore by Nuria Olivahttps://orcid.org/0000-0002-6305-0801, Mikyung ShinMikyung ShinDepartment of Biomedical Engineering, Sungkyunkwan UniversityMore by Mikyung Shin, and Jason A. BurdickJason A. BurdickDepartment of Bioengineering, University of PennsylvaniaMore by Jason A. Burdickhttps://orcid.org/0000-0002-2006-332XCite this: ACS Biomater. Sci. Eng. 2021, 7, 9, 3993–3996Publication Date (Web):September 13, 2021Publication History Received19 August 2021Published online13 September 2021Published inissue 13 September 2021https://pubs.acs.org/doi/10.1021/acsbiomaterials.1c01059https://doi.org/10.1021/acsbiomaterials.1c01059editorialACS PublicationsCopyright © Published 2021 by American Chemical Society. This publication is available under these Terms of Use. Request reuse permissions This publication is free to access through this site. Learn MoreArticle Views2497Altmetric-Citations1LEARN ABOUT THESE METRICSArticle Views are the COUNTER-compliant sum of full text article downloads since November 2008 (both PDF and HTML) across all institutions and individuals. These metrics are regularly updated to reflect usage leading up to the last few days.Citations are the number of other articles citing this article, calculated by Crossref and updated daily. Find more information about Crossref citation counts.The Altmetric Attention Score is a quantitative measure of the attention that a research article has received online. Clicking on the donut icon will load a page at altmetric.com with additional details about the score and the social media presence for the given article. Find more information on the Altmetric Attention Score and how the score is calculated. Share Add toView InAdd Full Text with ReferenceAdd Description ExportRISCitationCitation and abstractCitation and referencesMore Options Share onFacebookTwitterWechatLinked InRedditEmail PDF (1 MB) Get e-AlertscloseSUBJECTS:Biomaterials,Drug delivery,Hydrogels,Peptides and proteins,Regenerative medicine Get e-Alerts - Polyplex-Loaded Hydrogels for Local Gene Delivery to Human Dermal Fibroblasts
Jose Antonio Duran-Mota, Júlia Quintanas Yani, Benjamin D. Almquist, Salvador Borrós, Nuria Oliva
ACS Biomaterials Science and Engineering, 2021
Impaired cutaneous healing leading to chronic wounds affects between 2 and 6% of the total population in most developed countries and it places a substantial burden on healthcare budgets. Current treatments involving antibiotic dressings and mechanical debridement are often not effective, causing severe pain, emotional distress, and social isolation in patients for years or even decades, ultimately resulting in limb amputation. Alternatively, gene therapy (such as mRNA therapies) has emerged as a viable option to promote wound healing through modulation of gene expression. However, protecting the genetic cargo from degradation and efficient transfection into primary cells remain significant challenges in the push to clinical translation. Another limiting aspect of current therapies is the lack of sustained release of drugs to match the therapeutic window. Herein, we have developed an injectable, biodegradable and cytocompatible hydrogel-based wound dressing that delivers poly(β-amino ester)s (pBAEs) nanoparticles in a sustained manner over a range of therapeutic windows. We also demonstrate that pBAE nanoparticles, successfully used in previous in vivo studies, protect the mRNA load and efficiently transfect human dermal fibroblasts upon sustained release from the hydrogel wound dressing. This prototype wound dressing technology can enable the development of novel gene therapies for the treatment of chronic wounds. - Chapter 19: Nanobiomaterials for Smart Delivery
J. A. Duran-Mota, N. Oliva, B. D. Almquist
Rsc Soft Matter, 2021
The human body is a complex system where several interconnected dynamic processes work in an orchestrated manner to carry out the many different body functions. However, pathological conditions may cause dysregulations of these body functions. Biomedicine aims to understand such dysregulations and restore normal, healthy function within bodies. A wide variety of therapeutics have been used since ancient times, but their traditional systemic administration lacks spatiotemporal control over the delivery. Recent progress in chemistry and physics, along with the emergence of nanotechnology, has allowed the development of new strategies to solve this drawback such as stimuli-responsive nanobiomaterials. This new class of materials can be designed to respond to chemical and physical stimuli associated with pathological dysregulations (for example, changes in pH or redox environment, or the increase of certain biomolecules in the bloodstream). Alternatively, stimuli can also be provided externally (such as magnetic fields or light) to trigger the controlled release of therapeutics. Hydrogels are one of the most promising materials to achieve complete spatiotemporal control as they are typically injected or implanted where they are needed. Moreover, the chemical structure of the polymers forming the hydrogel can be easily manipulated to make them stimuli-responsive. This chapter focuses on the chemical and physical mechanisms that confer stimuli-responsive properties to polymers, enabling the development of smart hydrogels for spatiotemporal delivery of drugs. - Prolonged Local In Vivo Delivery of Stimuli-Responsive Nanogels That Rapidly Release Doxorubicin in Triple-Negative Breast Cancer Cells
Yi Zhang, Pere Dosta, João Conde, Nuria Oliva, Mian Wang, Natalie Artzi
Advanced Healthcare Materials, 2020 - Spatiotemporal delivery of bioactive molecules for wound healing using stimuli-responsive biomaterials
Nuria Oliva, Benjamin D. Almquist
Advanced Drug Delivery Reviews, 2020 - Biologically Inspired, Cell-Selective Release of Aptamer-Trapped Growth Factors by Traction Forces
Anna Stejskalová, Nuria Oliva, Frances J. England, Benjamin D. Almquist
Advanced Materials, 2019 - Designing Hydrogels for On-Demand Therapy
Nuria Oliva, João Conde, Kui Wang, Natalie Artzi
Accounts of Chemical Research, 2017 - Local triple-combination therapy results in tumour regression and prevents recurrence in a colon cancer model
João Conde, Nuria Oliva, Yi Zhang, Natalie Artzi
Nature Materials, 2016 - Local microRNA delivery targets Palladin and prevents metastatic breast cancer
Avital Gilam, João Conde, Daphna Weissglas-Volkov, Nuria Oliva, Eitan Friedman, Natalie Artzi, Noam Shomron
Nature Communications, 2016 - Revisiting the ‘One Material Fits All’ Rule for Cancer Nanotherapy
João Conde, Nuria Oliva, Natalie Artzi
Trends in Biotechnology, 2016 - Self-assembled RNA-triple-helix hydrogel scaffold for microRNA modulation in the tumour microenvironment
João Conde, Nuria Oliva, Mariana Atilano, Hyun Seok Song, Natalie Artzi
Nature Materials, 2016 - Injectable hydrogels as tissue adhesives
N. Oliva, N. Artzi
Injectable Hydrogels for Regenerative Engineering, 2015 - Personalizing Biomaterials for Precision Nanomedicine Considering the Local Tissue Microenvironment
Nuria Oliva, Shimon Unterman, Yi Zhang, João Conde, Hyun Seok Song, Natalie Artzi
Advanced Healthcare Materials, 2015 - Implantable hydrogel embedded dark-gold nanoswitch as a theranostic probe to sense and overcome cancer multidrug resistance
João Conde, Nuria Oliva, Natalie Artzi
Proceedings of the National Academy of Sciences of the United States of America, 2015 - Hydrogel doped with nanoparticles for local sustained release of siRNA in breast cancer
Nathaly Segovia, Maria Pont, Nuria Oliva, Victor Ramos, Salvador Borrós, Natalie Artzi
Advanced Healthcare Materials, 2015 - Regulation of dendrimer/dextran material performance by altered tissue microenvironment in inflammation and neoplasia
Nuria Oliva, Maria Carcole, Margarita Beckerman, Sivan Seliktar, Alison Hayward, James Stanley, Nicola Maria Anne Parry, Elazer R. Edelman, Natalie Artzi
Science Translational Medicine, 2015 - Natural tissue microenvironmental conditions modulate adhesive material performance
Nuria Oliva, Sagi Shitreet, Eytan Abraham, Butch Stanley, Elazer R. Edelman, Natalie Artzi
Langmuir, 2012 - Erratum: In vivo and in vitro tracking of erosion in biodegradable materials using non-invasive fluorescence imaging (Nature Materials)
Natalie Artzi, Nuria Oliva, Cristina Puron, Sagi Shitreet, Shay Artzi, Adriana bon Ramos, Adam Groothuis, Gary Sahagian, Elazer R. Edelman
Nature Materials, 2011 - In vivo and in vitro tracking of erosion in biodegradable materials using non-invasive fluorescence imaging
Natalie Artzi, Nuria Oliva, Cristina Puron, Sagi Shitreet, Shay Artzi, Adriana bon Ramos, Adam Groothuis, Gary Sahagian, Elazer R. Edelman
Nature Materials, 2011
RECENT SCHOLAR PUBLICATIONS
- Chronic insulin exposure induces EMT-associated changes and increases migration and invasion in cancer cells
JM Rieres, P González-Sáenz, S Ladame, N Oliva
Advances in Cancer Biology-Metastasis, 100184 , 2026
2026 - Modeling aging in a culture dish: towards the development of more sophisticated in vitro models of human skin aging
S Briganti, E Camera, J Ciriza, EF Carro, MJ Krivokuća, J Lamartine, ...
Ageing Research Reviews, 103109 , 2026
2026 - The osteochondral regeneration paradox: why biomimetic scaffolds are biologically superior but injectable systems dominate the clinic
S Gubert, H Moon, N Oliva, R Texidó
RSC advances 16 (13), 11370-11390 , 2026
2026
Citations: 1 - Development of Tough, Injectable Hydrogels for Cartilage Regeneration and Osteoarthritis Treatment
H Moon, N Oliva
WOUND REPAIR AND REGENERATION 33 (6), 13-13 , 2025
2025 - Insights into the alkaline degradation of oxidized chondroitin sulfate: Implications in Schiff base formation for hydrogel fabrication
JA Duran-Mota, H Moon, MEA Cladera, S Borrós, N Oliva
Carbohydrate Polymers 367, 124016 , 2025
2025
Citations: 6 - Advanced skin models for nanomaterials safety assessment
AR Ribeiro, S Costa, S Nogueira, M González-Durruthy, H Colley, N Oliva, ...
Nanosafety: A Comprehensive Approach to Assess Nanomaterial Exposure on the … , 2025
2025 - Insulin: The Hidden Link Between Type 2 Diabetes and Cancer Metastasis–Driving metastatic potential of SKOV3 cancer cells via Epithelial-Mesenchymal Transition mechanism
JM Rieres, S Ladame, N Oliva
2025 - Outstanding reviewers for materials horizons in 2023
A Chortos, SH Chung, CC Kuo, U Lacnjevac, P Messersmith, N Oliva, ...
Materials Horizons 11 (14) , 2024
2024 - A machine learning approach to predict cellular uptake of pBAE polyplexes
A Loecher, M Bruyns-Haylett, PJ Ballester, S Borros, N Oliva
Biomaterials Science 11 (17), 5797-5808 , 2023
2023
Citations: 26 - Current progress in bionanomaterials to modulate the epigenome
ADY Rhodes, JA Duran-Mota, N Oliva
Biomaterials science 10 (18), 5081-5091 , 2022
2022
Citations: 6 - Special Issue on Advanced biomedical hydrogels
N Oliva, M Shin, JA Burdick
ACS Biomaterials Science & Engineering 7 (9), 3993-3996 , 2021
2021
Citations: 8 - Nanobiomaterials for Smart Delivery
JA Duran-Mota, N Oliva, BD Almquist
2021
Citations: 1 - Polyplex-loaded hydrogels for local gene delivery to human dermal fibroblasts
JA Duran-Mota, JQ Yani, BD Almquist, S Borrós, N Oliva
ACS Biomaterials Science & Engineering 7 (9), 4347-4361 , 2021
2021
Citations: 28 - Salut comunitària en temps de la COVID-19: una proposta per a l’acció comunitària en salut
A González-Viana, YD Campaz, N Sanmamed, M Belmonte, N Oliva, ...
Agència de Salut Pública de Catalunya , 2020
2020 - Composite Hydrogels: Prolonged Local In Vivo Delivery of Stimuli‐Responsive Nanogels That Rapidly Release Doxorubicin in Triple‐Negative Breast Cancer Cells (Adv. Healthcare …
Y Zhang, P Dosta, J Conde, N Oliva, M Wang, N Artzi
Advanced Healthcare Materials 9 (4), 2070011 , 2020
2020
Citations: 1 - Prolonged local in vivo delivery of stimuli‐responsive nanogels that rapidly release doxorubicin in triple‐negative breast cancer cells
Y Zhang, P Dosta, J Conde, N Oliva, M Wang, N Artzi
Advanced healthcare materials 9 (4), 1901101 , 2020
2020
Citations: 82 - Spatiotemporal delivery of bioactive molecules for wound healing using stimuli-responsive biomaterials
N Oliva, BD Almquist
Advanced drug delivery reviews 161, 22-41 , 2020
2020
Citations: 86 - Harnessing cellular traction forces to enable cell-selective delivery of biologics
A Stejskalova, N Oliva, F England, B Almquist
ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 258 , 2019
2019 - Functionalized Nanoparticles and Compositions for Cancer Treatment and Methods
N Artzi, J Conde, N Oliva
US Patent App. 16/300,135 , 2019
2019
Citations: 2 - Dendrimer-drug conjugates, hydrogel compositions, and methods
ER Edelman, N Artzi, N Oliva
US Patent App. 16/300,161 , 2019
2019
Citations: 5
MOST CITED SCHOLAR PUBLICATIONS
- Local triple-combination therapy results in tumour regression and prevents recurrence in a colon cancer model
J Conde, N Oliva, Y Zhang, N Artzi
Nature materials 15 (10), 1128-1138 , 2016
2016
Citations: 500 - Designing hydrogels for on-demand therapy
N Oliva, J Conde, K Wang, N Artzi
Accounts of chemical research 50 (4), 669-679 , 2017
2017
Citations: 390 - Self-assembled RNA-triple-helix hydrogel scaffold for microRNA modulation in the tumour microenvironment
J Conde, N Oliva, M Atilano, HS Song, N Artzi
Nature materials 15 (3), 353-363 , 2016
2016
Citations: 312 - In vivo and in vitro tracking of erosion in biodegradable materials using non-invasive fluorescence imaging
N Artzi, N Oliva, C Puron, S Shitreet, S Artzi, A Bon Ramos, A Groothuis, ...
Nature materials 10 (9), 890-890 , 2011
2011
Citations: 288 - Local microRNA delivery targets Palladin and prevents metastatic breast cancer
A Gilam, J Conde, D Weissglas-Volkov, N Oliva, E Friedman, N Artzi, ...
Nature communications 7 (1), 12868 , 2016
2016
Citations: 174 - Implantable hydrogel embedded dark-gold nanoswitch as a theranostic probe to sense and overcome cancer multidrug resistance
J Conde, N Oliva, N Artzi
Proceedings of the National Academy of Sciences 112 (11), E1278-E1287 , 2015
2015
Citations: 159 - Hydrogel Doped with Nanoparticles for Local Sustained Release of siRNA in Breast Cancer
N Segovia, M Pont, N Oliva, V Ramos, S Borrós, N Artzi
Advanced Healthcare Materials , 2014
2014
Citations: 156 - Regulation of dendrimer/dextran material performance by altered tissue microenvironment in inflammation and neoplasia
N Oliva, M Carcole, M Beckerman, S Seliktar, A Hayward, J Stanley, ...
Science translational medicine 7 (272), 272ra11-272ra11 , 2015
2015
Citations: 98 - Biologically Inspired, Cell‐Selective Release of Aptamer‐Trapped Growth Factors by Traction Forces
A Stejskalová, N Oliva, FJ England, BD Almquist
Advanced Materials , 2019
2019
Citations: 87 - Spatiotemporal delivery of bioactive molecules for wound healing using stimuli-responsive biomaterials
N Oliva, BD Almquist
Advanced drug delivery reviews 161, 22-41 , 2020
2020
Citations: 86 - Prolonged local in vivo delivery of stimuli‐responsive nanogels that rapidly release doxorubicin in triple‐negative breast cancer cells
Y Zhang, P Dosta, J Conde, N Oliva, M Wang, N Artzi
Advanced healthcare materials 9 (4), 1901101 , 2020
2020
Citations: 82 - Personalizing biomaterials for precision nanomedicine considering the local tissue microenvironment
N Oliva, S Unterman, Y Zhang, J Conde, HS Song, N Artzi
Advanced healthcare materials 4 (11), 1584-1599 , 2015
2015
Citations: 62 - bon Ramos A, Groothuis A, Sahagian G, Edelman ER
N Artzi, N Oliva, C Puron, S Shitreet, S Artzi
Nat Mater 10, 704 , 2011
2011
Citations: 51 - Natural tissue microenvironmental conditions modulate adhesive material performance
N Oliva, S Shitreet, E Abraham, B Stanley, ER Edelman, N Artzi
Langmuir 28 (43), 15402-15409 , 2012
2012
Citations: 48 - Polyplex-loaded hydrogels for local gene delivery to human dermal fibroblasts
JA Duran-Mota, JQ Yani, BD Almquist, S Borrós, N Oliva
ACS Biomaterials Science & Engineering 7 (9), 4347-4361 , 2021
2021
Citations: 28 - Local microRNA delivery targets Palladin and prevents metastatic breast cancer. Nat Commun, 7: 12868
A Gilam, J Conde, D Weissglas-Volkov, N Oliva, E Friedman, N Artzi, ...
2016
Citations: 28 - A machine learning approach to predict cellular uptake of pBAE polyplexes
A Loecher, M Bruyns-Haylett, PJ Ballester, S Borros, N Oliva
Biomaterials Science 11 (17), 5797-5808 , 2023
2023
Citations: 26 - Revisiting the ‘one material fits all’rule for cancer nanotherapy
J Conde, N Oliva, N Artzi
Trends in biotechnology 34 (8), 618-626 , 2016
2016
Citations: 10 - Biocompatible adhesive materials and methods
N Artzi, E Edelman, N Oliva, M Carcole
US Patent 2012/0263672 A1 , 2012
2012
Citations: 9 - Special Issue on Advanced biomedical hydrogels
N Oliva, M Shin, JA Burdick
ACS Biomaterials Science & Engineering 7 (9), 3993-3996 , 2021
2021
Citations: 8
