Facultad de Fisioterapia
Centro
Isaac Manuel
Fuentes Boquete
Profesor Titular de Universidad
Publicaciones en las que colabora con Isaac Manuel Fuentes Boquete (45)
2023
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Biomedical Applications of the Biopolymer Poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV): Drug Encapsulation and Scaffold Fabrication
International Journal of Molecular Sciences, Vol. 24, Núm. 14
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Generation of human immortalized chondrocytes from osteoarthritic and healthy cartilage A NEW TOOL FOR CARTILAGE PATHOPHYSIOLOGY STUDIES
Bone and Joint Research, Vol. 12, Núm. 1, pp. 46-57
2021
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Generation of mesenchymal cell lines derived from aged donors
International Journal of Molecular Sciences, Vol. 22, Núm. 19
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Tips and tricks for successfully culturing and adapting human induced pluripotent stem cells
Molecular Therapy - Methods and Clinical Development, Vol. 23, pp. 569-581
2020
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Generation and characterization of human induced pluripotent stem cells (iPSCs) from hand osteoarthritis patient-derived fibroblasts
Scientific Reports, Vol. 10, Núm. 1
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Generation of a human control iPS cell line (ESi080‐A) from a donor with no rheumatic diseases
Stem Cell Research, Vol. 43
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Immortalizing Mesenchymal Stromal Cells from Aged Donors while Keeping Their Essential Features
Stem Cells International, Vol. 2020
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Is Myofascial Release Therapy Cost-Effective When Compared With Manual Therapy to Treat Workers’ Mechanical Neck Pains?
Journal of Manipulative and Physiological Therapeutics, Vol. 43, Núm. 7, pp. 683-690
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Versatility of induced pluripotent stem cells (Ipscs) for improving the knowledge on musculoskeletal diseases
International Journal of Molecular Sciences, Vol. 21, Núm. 17, pp. 1-28
2019
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Usefulness of mesenchymal cell lines for bone and cartilage regeneration research
International Journal of Molecular Sciences, Vol. 20, Núm. 24
2018
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Induced pluripotent stem cells for cartilage repair: Current status and future perspectives
European Cells and Materials, Vol. 36, pp. 96-109
2017
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* Human Amniotic Mesenchymal Stromal Cells as Favorable Source for Cartilage Repair
Tissue engineering. Part A, Vol. 23, Núm. 17-18, pp. 901-912
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CD105+-mesenchymal stem cells migrate into osteoarthritis joint: An animal model
PLoS ONE, Vol. 12, Núm. 11
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Human cartilage engineering in an In Vitro repair model using collagen scaffolds and mesenchymal stromal cells
International Journal of Medical Sciences, Vol. 14, Núm. 12, pp. 1257-1262
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Ovine mesenchymal stromal cells: Morphologic, phenotypic and functional characterization for osteochondral tissue engineering
PLoS ONE, Vol. 12, Núm. 1
2016
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3, 3′, 5-triiodo-L-thyronine Increases In Vitro Chondrogenesis of Mesenchymal Stem Cells From Human Umbilical Cord Stroma Through SRC2
Journal of Cellular Biochemistry, pp. 2097-2108
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Differentiation of human mesenchymal stromal cells cultured on collagen sponges for cartilage repair
Histology and Histopathology, Vol. 31, Núm. 11, pp. 1221-1239
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Myofascial release therapy in the treatment of occupational mechanical neck pain: A randomized parallel group study
American Journal of Physical Medicine and Rehabilitation, Vol. 95, Núm. 7, pp. 507-515
2015
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Alternative protocols to induce chondrogenic differentiation: transforming growth factor-β superfamily
Cell and Tissue Banking, Vol. 16, Núm. 2, pp. 195-207
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Influence of age on rat bone-marrow mesenchymal stem cells potential
Scientific Reports, Vol. 5