Bioceramics: from bone substitutes to nanoparticles for drug delivery

Since the second half of the 20th century, bioceramics are used for bone repair and regeneration. Inspired by bones and teeth, and aimed at mimicking their structure and composition, several artificial bioceramics were developed for biomedical applications. And nowadays, in the 21st century, with the increasing prominence of nanoscience and nanotechnology, certain bioceramics are being used to build smart drug delivery systems, among other applications. This minireview will mainly describe both tendencies through the research work carried out by the research team of María Vallet-Regí

Nanomotors for Nucleic Acid, Proteins, Pollutants and Cells Detection

The development of nanomachines able to operate at the nanoscale, performing complex tasks such as drug delivery, precision surgery, or cell detection, constitutes one of the most important challenges in nanotechnology. The principles that rule the nanoscale are completely different from the ones which govern the macroscopic world and, therefore, the collaboration of scientists with expertise in different fields is required for the effective fabrication of these tiny machines. In this review, the most recent advances carried out in the synthesis and application of nanomachines for diagnosis applications will be presented in order to provide a picture of their potential in the detection of important biomolecules or pathogens in a selective and controlled manne

Mesoporous Silica Nanoparticles for Co-Delivery of Drugs and Nucleic Acids in Oncology: A Review.

Mesoporous silica nanoparticles have attracted much attention in recent years as drug and gene delivery systems for biomedical applications. Among their most beneficial features for biomedicine, we can highlight their biocompatibility and their outstanding textural properties, which provide a great loading capacity for many types of cargos. In the context of cancer nanomedicine, combination therapy and gene transfection/silencing have recently been highlighted as two of its most promising fields. In this review, we aim to provide an overview of the different small molecule drug-nucleic acid co-delivery combinations that have been developed using mesoporous silica nanoparticles as carriers. By carefully selecting the chemotherapeutic drug and nucleic acid cargos to be co-delivered by mesoporous silica nanoparticles, different therapeutic goals can be achieved by overcoming resistance mechanisms, combining different cytotoxic mechanisms, or providing an additional antiangiogenic effect. The examples here presented highlight the great promise of this type of strategies for the development of future therapeutics

Modificaciones, por tratamientos térmicos de propiedades de superficie y estructura cristalina en geles de Tio2

This paper reconstructs, in non-formal terms, the development of Vilfredo Pareto’s writings on what was to become known as “Pareto optimality”. Notably, I rebuild the various versions preceeding the final definition of paretian optimum in economics and I give a few comments on its sociological adaptation.Cet article retrace, dans des termes non formels, le developpement, dans les écrits de Vilfredo Pareto, du concept que l’on connaît aujourd’hui sous l’appellation d’optimum paretien. Nous rétablissons notamment les différentes versions qui ont précédé la definition finale dudit concept en théorie économique et commentons l’adaptation sociologique qu’en a faite Pareto

Our Contributions to Applications of Mesoporous Silica Nanoparticles

Our contribution to mesoporous silica materials in the field of biomedicine are reported in this article. This perspective article represents our work in the basics of the material, preparingdifferent ranges of mesoporous silica nanoparticles with different diameters and with varied pore sizes. We demonstrated the high loading capacity of these materials. Additionally, the possibility of functionalizing both internal and external surface with different organic or inorganic moieties allowed the development of stimuli-responsive features which allowed a proper control on the administered dose. In addition, we have demonstrated that these carriers are not toxic, and we have also ensured that the load reaches its destination without affecting healthy tissues. Statement of Significance: Advances on mesoporous silica materials in the field of biomedicine are herein reported. This perspective article represents our work on the fundametals of the material, preparing different ranges of mesoporous silica nanoparticles with different diameters and with varied pore sizes. The high drug loading capacity of these materials is demonstrated. Moreover, the possibility of functionalizing both internal and external surface with different organic or inorganic moieties allowed the development of stimuli-responsive nanocarriers which allowed a proper control on the administered dose. In addition, we have demonstrated that these carriers are not toxic, and we have also ensured that the load reaches its target without affecting healthy tissues

Modificaciones, por tratamientos térmicos de propiedades de superficie y estructura cristalina en geles de Tio2

Tesis - Universidad Complutense de Madrid, 1974.Fac. de Ciencias QuímicasTRUEProQuestpu

Evolution of Biomaterials

There is a clear need for increasingly versatile and effective implantable biomaterials, and to train qualified personnel for research and development in the field of biomaterials design and manufacturing. In all these implantable biomaterials, science and technology are imposing new designs with combinations of new biomaterials, new coatings, and new design and manufacturing technologies (biomimetic biomaterials, functional biomaterials, nanotechnology, finite element modeling, additive manufacturing, 3D printing, tissue engineering, and drug delivery) that will revolutionize the field of implants in the short term. Biomaterials are part of biomedical engineering and bring together knowledge from the world of science, engineering, biology, and medicine, being a multidisciplinary field where borders have no place

Modificaciones, por tratamientos térmicos de propiedades de superficie y estructura cristalina en geles de Tio2

Tesis - Universidad Complutense de Madrid, 1974.Fac. de Ciencias QuímicasTRUEProQuestpu