Preparación y evaluación de formulaciones acrílicas autocurables de baja toxicidad modificadas con polímeros biodegradables para cirugía ortopédica y mínimamente invasiva

In the present work, a study of the preparation of new formulations of acrylic bone cements (ABC) has been carried, to obtain materials with capacity for controlled drug delivery of medicaments useful in the therapeutic treatment of osteoporosis. The main research line has been focused on the partial modification of the solid phase of the conventional formulation of ABC, by substituting part of the PMMA beads with different microparticles of synthetic as well as natural biodegradable polymers. The incorporation of these polymers to the conventional formulation, with a structure based on PMMA, has been focused on two well defined points of view: as a structural component, and as a model component to study its delivery from the material to the external medium, to determine the capacity of the formulation for drug delivery. The work was finished with the evaluation of the capacity of controlled release of proteins and the determination of biocompatibility.En este trabajo se ha llevado a cabo el estudio de nuevas formulaciones de cementos óseos acrílicos (COA) para su posterior evaluación como sistema de liberación controlada de medicamentos útiles en el tratamiento terapéutico de la osteoporosis. El trabajo se ha fundamentado en la modificación parcial de la fase sólida de los COA, mediante la substitución parcial de las microesferas de PMMA, por diferentes micropartículas de polímeros biodegradables, tanto de naturaleza sintética como natural. La incorporación de estos polímeros a la formulación del COA convencional, cuya estructura polimérica básica es el PMMA, ha sido enfocada desde dos puntos de vista bien diferenciados: como un componente estructural, que aporta resistencia mecánica al material, o como un componente que nos permita determinar la capacidad de liberación de un fármaco como el Ibandronato o de una proteína modelo como el colágeno hidrolizado. Finalmente se ha evaluado la biocompatibilidad de los COA modificados

Micromechanics of Mechanical, Thermomechanical, and Chemi-Thermomechanical Pulp from Orange Tree Pruning as Polypropylene Reinforcement: A Comparative Study

This work explores the use of mechanical (MP), thermomechanical (TMP), and chemi-thermomechanical (CTMP) pulps from orange tree pruning fibers (OPF) as reinforcing elements of polypropylene (PP) composites. Due to the nature of the natural fibers, the use of a coupling agent is needed to attain a good interface and to prevent fiber slippage from the matrix. The main objective of the present work was to investigate the orientation factor, the interfacial shear strength, and the intrinsic strength of the OPF. Coupled and non-coupled composites were formulated and tested, optimizing the coupling agent content with the objective of maximizing the tensile strength of the composites. Hirsch and Kelly-Tyson models and the Bowyer-Bader methodology were used to compute the micromechanic properties. The contribution of subcritical, supercritical fibers, and matrix were also calculatedThe authors are grateful for the support of the EMCI - Ministerio de Ciencia e Innovacion (MICINN) for funding the research by the specific Research Program CTQ2010-21660-C03-0