Iñigo Izal-Azcárate scite author profile

Polymer-ceramic composites obtained as the result of a mineralization process hold great promise for the future of tissue engineering. Simulated body fluids (SBFs) are widely used for the mineralization of polymer scaffolds. In this work an exhaustive study with the aim of optimizing the mineralization process on a poly(L-lactic acid) (PLLA) macroporous scaffold has been performed. We observed that when an air plasma treatment is applied to the PLLA scaffold its hydroxyapatite nucleation ability is considerably improved. However, plasma treatment only allows apatite deposition on the surface of the scaffold but not in its interior. When a 5 wt % of synthetic hydroxyapatite (HAp) nanoparticles is mixed with PLLA a more abundant biomimetic hydroxyapatite layer grows inside the scaffold in SBF. The morphology, amount, and composition of the generated biomimetic hydroxyapatite layer on the pores' surface have been analyzed. Large mineralization times are harmful to pure PLLA as it rapidly degrades and its elastic compression modulus significantly decreases. Degradation is retarded in the composite scaffolds because of the faster and extensive biomimetic apatite deposition and the role of HAp to control the pH. Mineralized scaffolds, covered by an apatite layer in SBF, were implanted in osteochondral lesions performed in the medial femoral condyle of healthy sheep. We observed that the presence of biomimetic hydroxyapatite on the pore's surface of the composite scaffold produces a better integration in the subchondral bone, in comparison to bare PLLA scaffolds.

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Identification of signalling pathways triggered by changes in the mechanical environment in rat chondrocytes

Sanz-Ramos

Mora

Ripalda

et al. 2012

Osteoarthritis and Cartilage

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Response of Sheep Chondrocytes to Changes in Substrate Stiffness from 2 to 20 Pa: Effect of Cell Passaging

Sanz-Ramos

Mora

Vicente-Pascual

et al. 2013

Connective Tissue Research

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Improved Chondrogenic Capacity of Collagen Hydrogel-Expanded Chondrocytes

Sanz-Ramos

Duart

Rodríguez-Goñi

et al. 2014

The Journal of Bone and Joint Surgery

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The role of Alk-1 and Alk-5 in the mechanosensing of chondrocytes

Sanz-Ramos

Dotor²,

Izal-Azcárate

2014

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Abbreviations used: Alk-1 -activin receptor-like kinase 1; Alk-5 -activin receptor-like kinase 5; FGFR3 -fibroblast growth factor receptor 3; FA -focal adhesions; MSCsmesenchymal stem cells; OA -osteoarthritis; TGFβ -transforming growth factor β; Col2 -type II collagen; Col1 -type I collagen; Col10 -type X collagen Abstract: We aim to demonstrate the role of Alk receptors in the response of hydrogel expansion. Chondrocytes from rat knees were cultured onto plastic and hydrogel surfaces. Alk-1 and Alk-5 were overexpressed or silenced and the effects on cells during expansion were tested and confirmed using peptide inhibitors for TGFβ. Overexpression of Alk-5 and silencing of Alk-1 led to a loss of the chondrocyte phenotype, proving that they are key regulators of chondrocyte mechanosensing. An analysis of the gene expression profile during the expansion of these modified cartilage cells in plastic showed a better maintenance of the chondrocyte phenotype, at least during the first passages. These passages were also assayed in a mouse model of intramuscular chondrogenesis. Our findings indicate that these two receptors are important mediators in the response of chondrocytes to changes in the mechanical environment, making them suitable targets for modulating chondrogenesis. Inhibition of TGFβ could also be effective in improving chondrocyte activity in aged or expanded cells that overexpress Alk-1.

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