Your search keyword '"Jesús, Chato-Astrain"' showing total 49 results

1. Histological, histochemical, and immunohistochemical characterization of NANOULCOR nanostructured fibrin-agarose human cornea substitutes generated by tissue engineering

Author

Olimpia Ortiz-Arrabal, Cristina Blanco-Elices, Carmen González-Gallardo, David Sánchez-Porras, Miguel Etayo-Escanilla, Paula Ávila Fernández, Jesús Chato-Astrain, Óscar-Darío García-García, Ingrid Garzón, and Miguel Alaminos

Subjects

Cornea, Tissue engineering, Limbal stem cells, Histology, Advanced therapies, Medicine

Abstract

Abstract Background Human artificial corneas (HAC) generated by tissue engineering recently demonstrated clinical usefulness in the management of complex corneal diseases. However, the biological mechanisms associated to their regenerative potential need to be elucidated. Methods In the present work, we generated HAC using nanostructured fibrin-agarose biomaterials with cultured corneal epithelial and stromal cells, and we compared the structure and histochemical and immunohistochemical profiles of HAC with control native corneas (CTR-C) and limbus (CTR-L) to determine the level of biomimicry of the HAC with these two native organs. Results HAC tissues consisted of a stratified epithelium and a cellular stromal substitute. The interface between stroma and epithelium was similar to that of CTR-C, without the finger-shaped palisades of Vogt found in CTR-L, and contained a poorly developed basement membrane as determined by PAS histochemistry. Analysis of the stromal layer revealed that HAC contained significantly lower amounts of extracellular matrix components (collagen, proteoglycans, decorin, keratocan, and lumican) than CTR-C and CTR-L, with all samples being devoid of elastic and reticular fibers. At the epithelial level, HAC were strongly positive for several cytokeratins, although KRT5 was lower in HAC as compared to CTR-C and CTR-L. The expression of crystallin lambda was lower in HAC than in control tissues, whereas crystallin alpha-a was similar in HAC and CTR-C. No differences were found among HAC and controls for the cell–cell junction proteins CX43 and TJP1. When specific markers were analyzed, we found that HAC expression profile of KRT3, KRT19, KRT15, and ΔNp63 was more similar to CTR-L than to CTR-C. Conclusions These results suggest that HAC generated in the laboratory could be structurally and functionally more biomimetic to the structure found at the corneal limbus than to the central cornea, and open the door to the use of these artificial tissues in patients with limbal deficiency.

Published

2024

2. Cryopreserved nanostructured fibrin-agarose hydrogels are efficient and safe hemostatic agents

Author

Carlos Casado, Carmen Cepeda-Franco, Sheila Pereira Arenas, Maria Dolores Suarez, Miguel Ángel Gómez-Bravo, Miguel Alaminos, Jesús Chato-Astrain, Beatriz Fernández-Muñoz, and Rafael Campos-Cuerva

Subjects

Cryopreservation, Hemostatic patch, Fibrin hydrogel, Liver resection, Trehalose, TachoSil, Medicine, Science

Abstract

Abstract Uncontrolled bleeding during surgery is associated with high mortality and prolonged hospital stay, necessitating the use of hemostatic agents. Fibrin sealant patches offer an efficient solution to achieve hemostasis and improve patient outcomes in liver resection surgery. We have previously demonstrated the efficacy of a nanostructured fibrin-agarose hydrogel (NFAH). However, for the widespread distribution and commercialization of the product, it is necessary to develop an optimal preservation method that allows for prolonged stability and facilitates storage and distribution. We investigated cryopreservation as a potential method for preserving NFAH using trehalose. Structural changes in cryopreserved NFAH (Cryo-NFAH) were investigated and comparative in vitro and in vivo efficacy and safety studies were performed with freshly prepared NFAH. We also examined the long-term safety of Cryo-NFAH versus TachoSil in a rat partial hepatectomy model, including time to hemostasis, intra-abdominal adhesion, hepatic hematoma, inflammatory factors, histopathological variables, temperature and body weight, hemocompatibility and cytotoxicity. Structural analyses demonstrated that Cryo-NFAH retained most of its macro- and microscopic properties after cryopreservation. Likewise, hemostatic efficacy assays showed no significant differences with fresh NFAH. Safety evaluations indicated that Cryo-NFAH had a similar overall profile to TachoSil up to 40 days post-surgery in rats. In addition, Cryo-NFAH demonstrated superior hemostatic efficacy compared with TachoSil while also demonstrating lower levels of erythrolysis and cytotoxicity than both TachoSil and other commercially available hemostatic agents. These results indicate that Cryo-NFAH is highly effective hemostatic patch with a favorable safety and tolerability profile, supporting its potential for clinical use.

Published

2024

3. Myelin histology: a key tool in nervous system research

Author

Óscar Darío García-García, Víctor Carriel, and Jesús Chato-Astrain

Subjects

fluorescence microscopy, histology, light microscopy, lipid histochemistry, metallographic techniques, myelin histochemistry, myelin immunohistochemistry, myelin structure & composition, myelin ultrastructural evaluation, tissue fixation & processing, Neurology. Diseases of the nervous system, RC346-429

Abstract

The myelin sheath is a lipoprotein-rich, multilayered structure capable of increasing conduction velocity in central and peripheral myelinated nerve fibers. Due to the complex structure and composition of myelin, various histological techniques have been developed over the centuries to evaluate myelin under normal, pathological or experimental conditions. Today, methods to assess myelin integrity or content are key tools in both clinical diagnosis and neuroscience research. In this review, we provide an updated summary of the composition and structure of the myelin sheath and discuss some histological procedures, from tissue fixation and processing techniques to the most used and practical myelin histological staining methods. Considering the lipoprotein nature of myelin, the main features and technical details of the different available methods that can be used to evaluate the lipid or protein components of myelin are described, as well as the precise ultrastructural techniques.

Published

2024

4. Genipin crosslinking promotes biomechanical reinforcement and pro-regenerative macrophage polarization in bioartificial tubular substitutes

Author

Jone Berasain, Paula Ávila-Fernández, Rocío Cárdenas-Pérez, Antoni Ignasi Cànaves-Llabrés, Miguel Etayo-Escanilla, Miguel Alaminos, Víctor Carriel, Óscar Darío García-García, Jesús Chato-Astrain, and Fernando Campos

Subjects

Peripheral nerve, Fibrin-agarose, Genipin, Biomechanical properties, Macrophage polarization, Anti-inflammatory response, Therapeutics. Pharmacology, RM1-950

Abstract

Traumatic nerve injuries are nowadays a significant clinical challenge and new substitutes with adequate biological and mechanical properties are in need. In this context, fibrin-agarose hydrogels (FA) have shown the possibility to generate tubular scaffolds with promising results for nerve repair. However, to be clinically viable, these scaffolds need to possess enhanced mechanical properties. In this line, genipin (GP) crosslinking has demonstrated to improve biomechanical properties with good biological properties compared to other crosslinkers. In this study, we evaluated the impact of different GP concentrations (0.05, 0.1 and 0.2% (m/v)) and reaction times (6, 12, 24, 72 h) on bioartificial nerve substitutes (BNS) consisting of nanostructured FA scaffolds. First, crosslinked BNS were studied histologically, ultrastructurally and biomechanically and then, its biocompatibility and immunomodulatory effects were ex vivo assessed with a macrophage cell line. Results showed that GP was able to improve the biomechanical resistance of BNS, which were dependent on both the GP treatment time and concentration without altering the structure. Moreover, biocompatibility analyses on macrophages confirmed high cell viability and a minimal reduction of their metabolic activity by WST-1. In addition, GP-crosslinked BNS effectively directed macrophage polarization from a pro-inflammatory (M1) towards a pro-regenerative (M2) phenotype, which was in line with the cytokines release profile. In conclusion, this study considers time and dose-dependent effects of GP in FA substitutes which exhibited increased biomechanical properties while reducing immunogenicity and promoting pro-regenerative macrophage shift. These tubular substitutes could be useful for nerve application or even other tissue engineering applications such as urethra.

Published

2024

5. Comparison of Printable Biomaterials for Use in Neural Tissue Engineering: An In Vitro Characterization and In Vivo Biocompatibility Assessment

Author

Miguel Etayo-Escanilla, Noelia Campillo, Paula Ávila-Fernández, José Manuel Baena, Jesús Chato-Astrain, Fernando Campos, David Sánchez-Porras, Óscar Darío García-García, and Víctor Carriel

Subjects

neural tissue engineering, biomaterials, 3D printing, scaffolds, biocompatibility, biomechanic, Organic chemistry, QD241-441

Abstract

Nervous system traumatic injuries are prevalent in our society, with a significant socioeconomic impact. Due to the highly complex structure of the neural tissue, the treatment of these injuries is still a challenge. Recently, 3D printing has emerged as a promising alternative for producing biomimetic scaffolds, which can lead to the restoration of neural tissue function. The objective of this work was to compare different biomaterials for generating 3D-printed scaffolds for use in neural tissue engineering. For this purpose, four thermoplastic biomaterials, ((polylactic acid) (PLA), polycaprolactone (PCL), Filaflex (FF) (assessed here for the first time for biomedical purposes), and Flexdym (FD)) and gelatin methacrylate (GelMA) hydrogel were subjected to printability and mechanical tests, in vitro cell–biomaterial interaction analyses, and in vivo biocompatibility assessment. The thermoplastics showed superior printing results in terms of resolution and shape fidelity, whereas FD and GelMA revealed great viscoelastic properties. GelMA demonstrated a greater cell viability index after 7 days of in vitro cell culture. Moreover, all groups displayed connective tissue encapsulation, with some inflammatory cells around the scaffolds after 10 days of in vivo implantation. Future studies will determine the usefulness and in vivo therapeutic efficacy of novel neural substitutes based on the use of these 3D-printed scaffolds.

Published

2024

6. A Novel In Vitro Pathological Model for Studying Neural Invasion in Non-Melanoma Skin Cancer

Author

Paula Ávila-Fernández, Miguel Etayo-Escanilla, David Sánchez-Porras, Cristina Blanco-Elices, Fernando Campos, Víctor Carriel, Óscar Darío García-García, and Jesús Chato-Astrain

Subjects

advanced hydrogel models, cancer neural invasion, head and neck squamous cell carcinoma, tissue engineering, Science, Chemistry, QD1-999, Inorganic chemistry, QD146-197, General. Including alchemy, QD1-65

Abstract

Neural Invasion (NI) is a key pathological feature of cancer in the colonization of distant tissues, and its underlying biological mechanisms are still scarcely known. The complex interactions between nerve and tumor cells, along with the stroma, make it difficult to reproduce this pathology in effective study models, which in turn has limited the understanding of NI pathogenesis. In this study, we have designed a three-dimensional model of NI squamous cell carcinoma combining human epidermoid carcinoma cells (hECCs) with a complete peripheral nerve segment encapsulated in a fibrine-agarose hydrogel. We recreated two vital processes of NI: a pre-invasive NI model in which hECCs were seeded on the top of the nerve-enriched stroma, and an invasive NI model in which cancer cells were immersed with the nerve in the hydrogel. Histological, histochemical and immunohistochemical analyses were performed to validate the model. Results showed that the integration of fibrin-agarose advanced hydrogel with a complete nerve structure and hECCs successfully generated an environment in which tumor cells and nerve components coexisted. Moreover, this model correctly preserved components of the neural extracellular matrix as well as allowing the proliferation and migration of cells embedded in hydrogel. All these results suggest the suitability of the model for the study of the mechanisms underlaying NI.

Published

2024

7. Chitosan conduits enriched with fibrin-collagen hydrogel with or without adipose-derived mesenchymal stem cells for the repair of 15-mm-long sciatic nerve defect

Author

Marwa El Soury, Óscar Darío García-García, Isabella Tarulli, Jesús Chato-Astrain, Isabelle Perroteau, Stefano Geuna, Stefania Raimondo, Giovanna Gambarotta, and Víctor Carriel

Subjects

adipose-derived stem cells, chitosan conduit, fibrin and collagen hydrogel, nerve regeneration, nerve repair, neuregulin 1, peripheral nerve, sciatic nerve, Neurology. Diseases of the nervous system, RC346-429

Abstract

Hollow conduits of natural or synthetic origins have shown acceptable regeneration results in short nerve gap repair; however, results are still not comparable with the current gold standard technique “autografts”. Hollow conduits do not provide a successful regeneration outcome when it comes to critical nerve gap repair. Enriching the lumen of conduits with different extracellular materials and cells could provide a better biomimicry of the natural nerve regenerating environment and is expected to ameliorate the conduit performance. In this study, we evaluated nerve regeneration in vivo using hollow chitosan conduits or conduits enriched with fibrin-collagen hydrogels alone or with the further addition of adipose-derived mesenchymal stem cells in a 15 mm rat sciatic nerve transection model. Unexpected changes in the hydrogel consistency and structural stability in vivo led to a failure of nerve regeneration after 15 weeks. Nevertheless, the molecular assessment in the early regeneration phase (7, 14, and 28 days) has shown an upregulation of useful regenerative genes in hydrogel enriched conduits compared with the hollow ones. Hydrogels composed of fibrin-collagen were able to upregulate the expression of soluble NRG1, a growth factor that plays an important role in Schwann cell transdifferentiation. The further enrichment with adipose-derived mesenchymal stem cells has led to the upregulation of other important genes such as ErbB2, VEGF-A, BDNF, c-Jun, and ATF3.

Published

2023

8. A novel 3D biofabrication strategy to improve cell proliferation and differentiation of human Wharton’s jelly mesenchymal stromal cells for cell therapy and tissue engineering

Author

Cristina Blanco-Elices, Roke Iñaki Oruezabal, David Sánchez-Porras, Jesús Chato-Astrain, Fernando Campos, Miguel Alaminos, Ingrid Garzón, and Antonio Campos

Subjects

cell culture, three-dimensional, biofabrication, human Wharton’s jelly mesenchymal stromal cells, cell therapy, tissue engineering, Biotechnology, TP248.13-248.65

Abstract

Purpose: Obtaining sufficient numbers of cells in a short time is a major goal of cell culturing in cell therapy and tissue engineering. However, current bidimensional (2D) culture methods are associated to several limitations, including low efficiency and the loss of key cell differentiation markers on cultured cells.Methods: In the present work, we have designed a novel biofabrication method based on a three-dimensional (3D) culture system (FIBRIAGAR-3D). Human Wharton’s jelly mesenchymal stromal cells (HWJSC) were cultured in 3D using 100%, 75%, 50%, and 25% concentrations of fibrin-agarose biomaterials (FA100, FA75, FA50 and FA25 group) and compared with control cells cultured using classical 2D systems (CTR-2D).Results: Our results showed a significant increase in the number of cells generated after 7 days of culture, with cells displaying numerous expansions towards the biomaterial, and a significant overexpression of the cell proliferation marker KI67 was found for the FA75 and FA100 groups. TUNEL and qRT-PCR analyses demonstrated that the use of FIBRIAGAR-3D was not associated with an induction of apoptosis by cultured cells. Instead, the 3D system retained the expression of typical phenotypic markers of HWJSC, including CD73, CD90, CD105, NANOG and OCT4, and biosynthesis markers such as types-I and IV collagens, with significant increase of some of these markers, especially in the FA100 group. Finally, our analysis of 8 cell signaling molecules revealed a significant decrease of GM-CSF, IFN-g, IL2, IL4, IL6, IL8, and TNFα, suggesting that the 3D culture system did not induce the expression of pro-inflammatory molecules.Conclusion: These results confirm the usefulness of FIBRIAGAR-3D culture systems to increase cell proliferation without altering cell phenotype of immunogenicity and opens the door to the possibility of using this novel biofabrication method in cell therapy and tissue engineering of the human cornea, oral mucosa, skin, urethra, among other structures.

Published

2023

9. Comprehensive ex vivo and in vivo preclinical evaluation of novel chemo enzymatic decellularized peripheral nerve allografts

Author

Óscar Darío García-García, Marwa El Soury, Fernando Campos, David Sánchez-Porras, Stefano Geuna, Miguel Alaminos, Giovanna Gambarotta, Jesús Chato-Astrain, Stefania Raimondo, and Víctor Carriel

Subjects

acellular graft, decellularization, decellularized nerve allograft, peripheral nerve repair, tissue engineering, Biotechnology, TP248.13-248.65

Abstract

As a reliable alternative to autografts, decellularized peripheral nerve allografts (DPNAs) should mimic the complex microstructure of native nerves and be immunogenically compatible. Nevertheless, there is a current lack of decellularization methods able to remove peripheral nerve cells without significantly altering the nerve extracellular matrix (ECM). The aims of this study are firstly to characterize ex vivo, in a histological, biochemical, biomechanical and ultrastructural way, three novel chemical-enzymatic decellularization protocols (P1, P2 and P3) in rat sciatic nerves and compared with the Sondell classic decellularization method and then, to select the most promising DPNAs to be tested in vivo. All the DPNAs generated present an efficient removal of the cellular material and myelin, while preserving the laminin and collagen network of the ECM (except P3) and were free from any significant alterations in the biomechanical parameters and biocompatibility properties. Then, P1 and P2 were selected to evaluate their regenerative effectivity and were compared with Sondell and autograft techniques in an in vivo model of sciatic defect with a 10-mm gap, after 15 weeks of follow-up. All study groups showed a partial motor and sensory recovery that were in correlation with the histological, histomorphometrical and ultrastructural analyses of nerve regeneration, being P2 the protocol showing the most similar results to the autograft control group.

Published

2023

10. Development of stromal differentiation patterns in heterotypical models of artificial corneas generated by tissue engineering

Author

Cristina Blanco-Elices, Carmen Morales-Álvarez, Jesús Chato-Astrain, Carmen González-Gallardo, Paula Ávila-Fernández, Fernando Campos, Ramón Carmona, Miguel Ángel Martín-Piedra, Ingrid Garzón, and Miguel Alaminos

Subjects

cornea, tissue engineering, Wharton’s jelly mesenchymal stem cells, stroma, basement membrane, Biotechnology, TP248.13-248.65

Abstract

Purpose: We carried out a histological characterization analysis of the stromal layer of human heterotypic cornea substitutes generated with extra-corneal cells to determine their putative usefulness in tissue engineering.Methods: Human bioartificial corneas were generated using nanostructured fibrin-agarose biomaterials with corneal stromal cells immersed within. To generate heterotypical corneas, umbilical cord Wharton’s jelly stem cells (HWJSC) were cultured on the surface of the stromal substitutes to obtain an epithelial-like layer. These bioartificial corneas were compared with control native human corneas and with orthotypical corneas generated with human corneal epithelial cells on top of the stromal substitute. Both the corneal stroma and the basement membrane were analyzed using histological, histochemical and immunohistochemical methods in samples kept in culture and grafted in vivo for 12 months in the rabbit cornea.Results: Our results showed that the stroma of the bioartificial corneas kept ex vivo showed very low levels of fibrillar and non-fibrillar components of the tissue extracellular matrix. However, in vivo implantation resulted in a significant increase of the contents of collagen, proteoglycans, decorin, keratocan and lumican in the corneal stroma, showing higher levels of maturation and spatial organization of these components. Heterotypical corneas grafted in vivo for 12 months showed significantly higher contents of collagen fibers, proteoglycans and keratocan. When the basement membrane was analyzed, we found that all corneas grafted in vivo showed intense PAS signal and higher contents of nidogen-1, although the levels found in human native corneas was not reached, and a rudimentary basement membrane was observed using transmission electron microscopy. At the epithelial level, HWJSC used to generate an epithelial-like layer in ex vivo corneas were mostly negative for p63, whereas orthotypical corneas and heterotypical corneas grafted in vivo were positive.Conclusion: These results support the possibility of generating bioengineered artificial corneas using non-corneal HWJSC. Although heterotypical corneas were not completely biomimetic to the native human corneas, especially ex vivo, in vivo grafted corneas demonstrated to be highly biocompatible, and the animal cornea became properly differentiated at the stroma and basement membrane compartments. These findings open the door to the future clinical use of these bioartificial corneas.

Published

2023

11. Inactivation of human plasma alters the structure and biomechanical properties of engineered tissues

Author

Cristina Rosell-Valle, María Martín-López, Fernando Campos, Jesús Chato-Astrain, Rafael Campos-Cuerva, Miguel Alaminos, and Mónica Santos González

Subjects

fibrin-agarose hydrogel, tissue engineering, pathogen reduction method, biomechanical properties, bioartificial skin, Biotechnology, TP248.13-248.65

Abstract

Fibrin is widely used for tissue engineering applications. The use of blood derivatives, however, carries a high risk of transmission of infectious agents, necessitating the application of pathogen reduction technology (PRT). The impact of this process on the structural and biomechanical properties of the final products is unknown. We used normal plasma (PLc) and plasma inactivated by riboflavin and ultraviolet light exposure (PLi) to manufacture nanostructured cellularized fibrin-agarose hydrogels (NFAHs), and then compared their structural and biomechanical properties. We also measured functional protein C, prothrombin time (PT), activated partial thromboplastin time (APTT), thrombin time (TT) and coagulation factors [fibrinogen, Factor (F) V, FVIII, FX, FXI, FXIII] in plasma samples before and after inactivation. The use of PLi to manufacture cellularized NFAHs increased the interfibrillar spacing and modified their biomechanical properties as compared with cellularized NFAH manufactured with PLc. PLi was also associated with a significant reduction in functional protein C, FV, FX, and FXI, and an increase in the international normalized ratio (derived from the PT), APTT, and TT. Our findings demonstrate that the use of PRT for fibrin-agarose bioartificial tissue manufacturing does not adequately preserve the structural and biomechanical properties of the product. Further investigations into PRT-induced changes are warranted to determine the applications of NFAH manufactured with inactivated plasma as a medicinal product.

Published

2022

12. Fibrin and Marine-Derived Agaroses for the Generation of Human Bioartificial Tissues: An Ex Vivo and In Vivo Study

Author

Olimpia Ortiz-Arrabal, Ainhoa Irastorza-Lorenzo, Fernando Campos, Miguel Ángel Martín-Piedra, Víctor Carriel, Ingrid Garzón, Paula Ávila-Fernández, María José de Frutos, Emilio Esteban, Javier Fernández, Agustín Janer, Antonio Campos, Jesús Chato-Astrain, and Miguel Alaminos

Subjects

tissue engineering, biomaterials, fibrin, agarose, biocompatibility, Biology (General), QH301-705.5

Abstract

Development of an ideal biomaterial for clinical use is one of the main objectives of current research in tissue engineering. Marine-origin polysaccharides, in particular agaroses, have been widely explored as scaffolds for tissue engineering. We previously developed a biomaterial based on a combination of agarose with fibrin, that was successfully translated to clinical practice. However, in search of novel biomaterials with improved physical and biological properties, we have now generated new fibrin-agarose (FA) biomaterials using 5 different types of agaroses at 4 different concentrations. First, we evaluated the cytotoxic effects and the biomechanical properties of these biomaterials. Then, each bioartificial tissue was grafted in vivo and histological, histochemical and immunohistochemical analyses were performed after 30 days. Ex vivo evaluation showed high biocompatibility and differences in their biomechanical properties. In vivo, FA tissues were biocompatible at the systemic and local levels, and histological analyses showed that biointegration was associated to a pro-regenerative process with M2-type CD206-positive macrophages. These results confirm the biocompatibility of FA biomaterials and support their clinical use for the generation of human tissues by tissue engineering, with the possibility of selecting specific agarose types and concentrations for applications requiring precise biomechanical properties and in vivo reabsorption times.

Published

2023

13. Biological Effects of Maslinic Acid on Human Epithelial Cells Used in Tissue Engineering

Author

Olimpia Ortiz-Arrabal, Jesús Chato-Astrain, Pascual Vicente Crespo, Ingrid Garzón, María Dolores Mesa-García, Miguel Alaminos, and Carolina Gómez-Llorente

Subjects

maslinic acid, tissue engineering, epithelial cells, cell culture, cell proliferation, Biotechnology, TP248.13-248.65

Abstract

In the present work, we evaluated the potential of maslinic acid (MA) to improve currently available keratinocyte culture methods for use in skin tissue engineering. Results showed that MA can increase cell proliferation and WST-1 activity of human keratinocytes after 24, 48, and 72 h, especially at the concentration of 5 μg/ml, without affecting cell viability. This effect was associated to a significant increase of KI-67 protein expression and upregulation of several genes associated to cell proliferation (PCNA) and differentiation (cytokeratins, intercellular junctions and basement membrane related genes). When human keratinocytes were isolated from skin biopsies, we found that MA at the concentration of 5 μg/ml significantly increased the efficiency of the explant and the cell dissociation methods. These results revealed the positive effects of MA to optimize human keratinocyte culture protocols for use in skin tissue engineering.

Published

2022

14. Expression of Basement Membrane Molecules by Wharton Jelly Stem Cells (WJSC) in Full-Term Human Umbilical Cords, Cell Cultures and Microtissues

Author

David Sánchez-Porras, Daniel Durand-Herrera, Ramón Carmona, Cristina Blanco-Elices, Ingrid Garzón, Michela Pozzobon, Sebastián San Martín, Miguel Alaminos, Óscar Darío García-García, Jesús Chato-Astrain, and Víctor Carriel

Subjects

umbilical cord (UC), wharton jelly stem cells (WJSC), extracellular matrix (ECM), basement membrane (BM), basal lamina (BL) stem cell-based microtissues (MT), tissue engineering (TE), Cytology, QH573-671

Abstract

Wharton’s jelly stem cells (WJSC) from the human umbilical cord (UC) are one of the most promising mesenchymal stem cells (MSC) in tissue engineering (TE) and advanced therapies. The cell niche is a key element for both, MSC and fully differentiated tissues, to preserve their unique features. The basement membrane (BM) is an essential structure during embryonic development and in adult tissues. Epithelial BMs are well-known, but similar structures are present in other histological structures, such as in peripheral nerve fibers, myocytes or chondrocytes. Previous studies suggest the expression of some BM molecules within the Wharton’s Jelly (WJ) of UC, but the distribution pattern and full expression profile of these molecules have not been yet elucidated. In this sense, the aim of this histological study was to evaluate the expression of main BM molecules within the WJ, cultured WJSC and during WJSC microtissue (WJSC-MT) formation process. Results confirmed the presence of a pericellular matrix composed by the main BM molecules—collagens (IV, VII), HSPG2, agrin, laminin and nidogen—around the WJSC within UC. Additionally, ex vivo studies demonstrated the synthesis of these BM molecules, except agrin, especially during WJSC-MT formation process. The WJSC capability to synthesize main BM molecules could offer new alternatives for the generation of biomimetic-engineered substitutes where these molecules are particularly needed.

Published

2023

15. Evaluation of Fibrin-Agarose Tissue-Like Hydrogels Biocompatibility for Tissue Engineering Applications

Author

Fernando Campos, Ana Belen Bonhome-Espinosa, Jesús Chato-Astrain, David Sánchez-Porras, Óscar Darío García-García, Ramón Carmona, Modesto T. López-López, Miguel Alaminos, Víctor Carriel, and Ismael A. Rodriguez

Subjects

fibrin-agarose hydrogels, in vivo biocompatibility, blood and biochemical profile, histological assessment, biodegradation, tissue engineering, Biotechnology, TP248.13-248.65

Abstract

Generation of biocompatible and biomimetic tissue-like biomaterials is crucial to ensure the success of engineered substitutes in tissue repair. Natural biomaterials able to mimic the structure and composition of native extracellular matrices typically show better results than synthetic biomaterials. The aim of this study was to perform an in vivo time-course biocompatibility analysis of fibrin-agarose tissue-like hydrogels at the histological, imagenological, hematological, and biochemical levels. Tissue-like hydrogels were produced by a controlled biofabrication process allowing the generation of biomechanically and structurally stable hydrogels. The hydrogels were implanted subcutaneously in 25 male Wistar rats and evaluated after 1, 5, 9, and 12 weeks of in vivo follow-up. At each period of time, animals were analyzed using magnetic resonance imaging (MRI), hematological analyses, and histology of the local area in which the biomaterials were implanted, along with major vital organs (liver, kidney, spleen, and regional lymph nodes). MRI results showed no local or distal alterations during the whole study period. Hematology and biochemistry showed some fluctuation in blood cells values and in some biochemical markers over the time. However, these parameters were progressively normalized in the framework of the homeostasis process. Histological, histochemical, and ultrastructural analyses showed that implantation of fibrin-agarose scaffolds was followed by a progressive process of cell invasion, synthesis of components of the extracellular matrix (mainly, collagen) and neovascularization. Implanted biomaterials were successfully biodegraded and biointegrated at 12 weeks without any associated histopathological alteration in the implanted zone or distal vital organs. In summary, our in vivo study suggests that fibrin-agarose tissue-like hydrogels could have potential clinical usefulness in engineering applications in terms of biosafety and biocompatibility.

Published

2020

16. Improvement of Cell Culture Methods for the Successful Generation of Human Keratinocyte Primary Cell Cultures Using EGF-Loaded Nanostructured Lipid Carriers

Author

Jesús Chato-Astrain, David Sánchez-Porras, Óscar Darío García-García, Claudia Vairo, María Villar-Vidal, Silvia Villullas, Indalecio Sánchez-Montesinos, Fernando Campos, Ingrid Garzón, and Miguel Alaminos

Subjects

EGF, nanoparticles, NLC, keratinocytes, tissue engineering, cell culture, Biology (General), QH301-705.5

Abstract

Human skin keratinocyte primary cultures can be established from skin biopsies with culture media containing epithelial growth factor (EGF). Although current methods are efficient, optimization is required to accelerate the procedure and obtain these cultures in less time. In the present study, we evaluated the effect of novel formulations based on EGF-loaded nanostructured lipid carriers (NLC). First, biosafety of NLC containing recombinant human EGF (NLC-rhEGF) was verified in immortalized skin keratinocytes and cornea epithelial cells, and in two epithelial cancer cell lines, by quantifying free DNA released to the culture medium. Then we established primary cell cultures of human skin keratinocytes with basal culture media (BM) and BM supplemented with NLC-rhEGF, liquid EGF (L-rhEGF), or NLC alone (NLC-blank). The results showed that cells isolated by enzymatic digestion and cultured with or without a feeder layer had a similar growth rate regardless of the medium used. However, the explant technique showed higher efficiency when NLC-rhEGF culture medium was used, compared to BM, L-rhEGF, or NLC-blank. Gene expression analysis showed that NLC-rhEGF was able to increase EGFR gene expression, along with that of other genes related to cytokeratins, cell–cell junctions, and keratinocyte maturation and differentiation. In summary, these results support the use of NLC-rhEGF to improve the efficiency of explant-based methods in the efficient generation of human keratinocyte primary cell cultures for tissue engineering use.

Published

2021

17. Generation and Evaluation of Novel Biomaterials Based on Decellularized Sturgeon Cartilage for Use in Tissue Engineering

Author

Olimpia Ortiz-Arrabal, Ramón Carmona, Óscar-Darío García-García, Jesús Chato-Astrain, David Sánchez-Porras, Alberto Domezain, Roke-Iñaki Oruezabal, Víctor Carriel, Antonio Campos, and Miguel Alaminos

Subjects

cartilage, tissue engineering, sturgeon, decellularization, Biology (General), QH301-705.5

Abstract

Because cartilage has limited regenerative capability, a fully efficient advanced therapy medicinal product is needed to treat severe cartilage damage. We evaluated a novel biomaterial obtained by decellularizing sturgeon chondral endoskeleton tissue for use in cartilage tissue engineering. In silico analysis suggested high homology between human and sturgeon collagen proteins, and ultra-performance liquid chromatography confirmed that both types of cartilage consisted mainly of the same amino acids. Decellularized sturgeon cartilage was recellularized with human chondrocytes and four types of human mesenchymal stem cells (MSC) and their suitability for generating a cartilage substitute was assessed ex vivo and in vivo. The results supported the biocompatibility of the novel scaffold, as well as its ability to sustain cell adhesion, proliferation and differentiation. In vivo assays showed that the MSC cells in grafted cartilage disks were biosynthetically active and able to remodel the extracellular matrix of cartilage substitutes, with the production of type II collagen and other relevant components, especially when adipose tissue MSC were used. In addition, these cartilage substitutes triggered a pro-regenerative reaction mediated by CD206-positive M2 macrophages. These preliminary results warrant further research to characterize in greater detail the potential clinical translation of these novel cartilage substitutes.

Published

2021

18. In vivo Evaluation of Nanostructured Fibrin-Agarose Hydrogels With Mesenchymal Stem Cells for Peripheral Nerve Repair

Author

Jesús Chato-Astrain, Fernando Campos, Olga Roda, Esther Miralles, Daniel Durand-Herrera, José Antonio Sáez-Moreno, Salomé García-García, Miguel Alaminos, Antonio Campos, and Víctor Carriel

Subjects

peripheral nerve repair, neural tissue engineering, fibrin-agarose hydrogels, in vivo, histology, mesenchymal stem cells, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The regenerative capability of peripheral nerves is very limited, and several strategies have been proposed to increase nerve regeneration. In the present work, we have analyzed the in vivo usefulness of a novel nanostructured fibrin-agarose bio-artificial nerve substitute (Nano) used alone or in combination with NeuraGen® collagen type I conduits (Coll-Nano) in laboratory rats with a 10-mm sciatic nerve defect. Control animals were subjected to the gold-standard autograft technique (Auto). Results first demonstrated that the percentage of self-amputations was lower in Nano and Coll-Nano groups as compared to the Auto group. Neurotrophic ulcers were more abundant in the Auto group (60%, with 66.6% of them being >2-mm) than Nano and Coll-Nano groups (0%) at 4 weeks, although Nano showed more ulcers after 12 weeks. Foot length was significantly altered in Auto animals due to neurogenic retraction, but not in Nano and Coll-Nano groups after 12 weeks. At the functional level, all animals showed a partial sensory recovery as determined by the pinch test, especially in Nano and Auto groups, but did not reach the levels of native animals. Toe-spread test revealed a partial motor function recovery only in Nano animals at 4 weeks and Auto and Nano at 12 weeks. Electromyography showed clear denervation signs in all experimental groups, with few differences between Auto and Nano animals. After 12 weeks, an important denervation decrease and an increase of the reinnervation process was found in Auto and Nano groups, with no differences between these groups. Histological analyses demonstrated an active peripheral nerve regeneration process with newly formed peripheral nerve fascicles showing S-100, GAP-43 and myelin in all experimental groups. The peripheral nerve regeneration process was more abundant in Auto group, followed by Nano group, and both were better than Coll-Nano group. Muscle histology confirmed the electromyography results and showed some atrophy and fibrosis signs and an important weight and volume loss in all groups, especially in the Coll-Nano group (56.8% weight and 60.4% volume loss). All these results suggest that the novel Nano substitutes used in in vivo were able to contribute to bridge a 10-mm peripheral nerve defect in rats.

Published

2018

19. Unexpected Kif4a functions in adult regeneration encompass a dual role in neurons and in proliferative repair Schwann cells

Author

Patrícia D. Correia, Bárbara M. de Sousa, Jesús Chato-Astrain, Joana P. Faria, Veronica Estrada, João B. Relvas, Hans W. Müller, Víctor Carriel, Frank Bosse, and Sandra I. Vieira

Abstract

Contrary to the adult central nervous system (CNS), the peripheral nervous system (PNS) has an intrinsic ability to regenerate that, among others, passes by expressing regeneration-associated genes such as kinesin family members. We here show that Kinesin family motor protein 4a (KIF4A), associated to neurodevelopmental disorders and thought for long to be only embryonically expressed, is highly abundant in axons and Schwann cells of adult rat CNS and rat and human PNS. Moreover,Kif4ais up-regulated in injured PNS neurons, being detected in their nuclei and regrowing axons, consistent with its functions as a chromokinesin and in the axonal transport of e.g. β1-integrin and L1CAM. Interestingly,Kif4ais also highly up-regulated in Schwann cells transdifferentiating into a proliferative repair phenotype at the injured distal nerve stumps. A role forKif4ain cultured Schwann cells proliferation was confirmed, withKif4amRNA expression being ∼6-fold higher in proliferating versus growth-arrested Schwann cells, andKif4aknockdown impairing Schwann cells’ proliferation. To our knowledge, this is the first description of KIF4A expression in adult nervous systems, up-regulation in neuroregeneration and pro-neuroregenerative roles, including promoting Schwann cells proliferation. KIF4A dual role in axonal regeneration, through neurons and glia, places as an attractive target for future neuroregeneration therapies.

Published

2023

20. Ex Vivo Generation and Characterization of Human Hyaline and Elastic Cartilaginous Microtissues for Tissue Engineering Applications

Author

David Sánchez-Porras, Daniel Durand-Herrera, Ana B. Paes, Jesús Chato-Astrain, Rik Verplancke, Jan Vanfleteren, José Darío Sánchez-López, Óscar Darío García-García, Fernando Campos, and Víctor Carriel

Subjects

microtissues, tissue engineering, human hyaline chondrocytes, human elastic chondrocytes, extracellular matrix, organoids, Biology (General), QH301-705.5

Abstract

Considering the high prevalence of cartilage-associated pathologies, low self-repair capacity and limitations of current repair techniques, tissue engineering (TE) strategies have emerged as a promising alternative in this field. Three-dimensional culture techniques have gained attention in recent years, showing their ability to provide the most biomimetic environment for the cells under culture conditions, enabling the cells to fabricate natural, 3D functional microtissues (MTs). In this sense, the aim of this study was to generate, characterize and compare scaffold-free human hyaline and elastic cartilage-derived MTs (HC-MTs and EC-MTs, respectively) under expansion (EM) and chondrogenic media (CM). MTs were generated by using agarose microchips and evaluated ex vivo for 28 days. The MTs generated were subjected to morphometric assessment and cell viability, metabolic activity and histological analyses. Results suggest that the use of CM improves the biomimicry of the MTs obtained in terms of morphology, viability and extracellular matrix (ECM) synthesis with respect to the use of EM. Moreover, the overall results indicate a faster and more sensitive response of the EC-derived cells to the use of CM as compared to HC chondrocytes. Finally, future preclinical in vivo studies are still needed to determine the potential clinical usefulness of these novel advanced therapy products.

Published

2021

21. Histological, Biomechanical, and Biological Properties of Genipin-Crosslinked Decellularized Peripheral Nerves

Author

Óscar Darío García-García, Marwa El Soury, David González-Quevedo, David Sánchez-Porras, Jesús Chato-Astrain, Fernando Campos, and Víctor Carriel

Subjects

tissue engineering, nerve repair, nerve tissue decellularization, genipin, chemical crosslinking, histology, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Acellular nerve allografts (ANGs) represent a promising alternative in nerve repair. Our aim is to improve the structural and biomechanical properties of biocompatible Sondell (SD) and Roosens (RS) based ANGs using genipin (GP) as a crosslinker agent ex vivo. The impact of two concentrations of GP (0.10% and 0.25%) on Wistar rat sciatic nerve-derived ANGs was assessed at the histological, biomechanical, and biocompatibility levels. Histology confirmed the differences between SD and RS procedures, but not remarkable changes were induced by GP, which helped to preserve the nerve histological pattern. Tensile test revealed that GP enhanced the biomechanical properties of SD and RS ANGs, being the crosslinked RS ANGs more comparable to the native nerves used as control. The evaluation of the ANGs biocompatibility conducted with adipose-derived mesenchymal stem cells cultured within the ANGs confirmed a high degree of biocompatibility in all ANGs, especially in RS and RS-GP 0.10% ANGs. Finally, this study demonstrates that the use of GP could be an efficient alternative to improve the biomechanical properties of ANGs with a slight impact on the biocompatibility and histological pattern. For these reasons, we hypothesize that our novel crosslinked ANGs could be a suitable alternative for future in vivo preclinical studies.

Published

2021

22. Histological characterization of the human scapholunate ligament

Author

Miguel Alaminos, Jesús Chato-Astrain, Olga Roda, Víctor Carriel, Fidel Hita Contreras, Indalecio Sánchez-Montesinos, and Pedro Hernández-Cortés

Abstract

The scapholunate interosseous ligament (SLIL) plays a fundamental role in stabilizing the wrist bones, and its disruption is a frequent cause of wrist arthrosis and disfunction. Traditionally, this structure is considered to be a variety of fibrocartilaginous tissue and consists of three regions: dorsal, membranous and palmar. Despite its functional relevance, the exact composition of the human SLIL is not well understood. In the present work, we have analyzed the human SLIL and control tissues from the human hand using an array of histological, histochemical and immunohistochemical methods to characterize each region of this structure. Results reveal that the SLIL is heterogeneous, and each region can be subdivided in two zones that are histologically different to the other zones. Analysis of collagen and elastic fibers, collagens types I, III and IV, proteoglycans, glycoproteins and versican confirmed that the different regions can be subdivided in two zones that have their own structure and composition. The first part of the dorsal region (zone D1) resembles the control tendons and ligaments, whereas the rest of the SLIL are more similar to the control articular cartilage, especially the first part of the membranous region (zone M1). Cells showing a chondrocyte-like phenotype as determined by S100 were more abundant in M1, whereas the zone containing more CD73-positive stem cells was D2. These results confirm the heterogeneity of the human SLIL and could contribute to explain why certain zones of this structure are more prone to structural damage and why other zones have specific regeneration potential.

Published

2023

23. Myelin histology: a key tool in nervous system research

Author

ÓscarDarío García-García, Víctor Carriel, and Jesús Chato-Astrain

Subjects

Developmental Neuroscience

Published

2023

24. Peripheral nerve regeneration through nerve conduits evokes differential expression of growth-associated protein-43 in the spinal cord

Author

Jesús Chato-Astrain, Olga Roda, David Sánchez-Porras, Esther Miralles, Miguel Alaminos, Fernando Campos, ÓscarDarío García-García, and Víctor Carriel

Subjects

Developmental Neuroscience

Published

2023

25. Chitosan conduits enriched with fibrin-collagen hydrogel with or without adipose-derived mesenchymal stem cells for the repair of 15-mm-long sciatic nerve defect

Author

EL SOURY, MARWA MOHAMED EMADELDIN ALI MAHMOUD, Óscar Darío García-García, Tarulli, Isabella, Jesús, Chato-Astrain, Perroteau, Isabelle, Geuna, Stefano, Raimondo, Stefania, Gambarotta, Giovanna, and Víctor, Carriel

Subjects

Adipose-derived stem cells, neuregulin 1, chitosan conduit, nerve repair, fibrin and collagen hydrogel, sciatic nerve, Fibrin and collagen hydrogel, Sciatic nerve, Nerve regeneration, adipose-derived stem cells, nerve regeneration, peripheral nerve, Developmental Neuroscience, Neuregulin 1, Chitosan conduit, Nerve repair

Abstract

Hollow conduits of natural or synthetic origins have shown acceptable regeneration results in short nerve gap repair; however, results are still not comparable with the current gold standard technique “autografts”. Hollow conduits do not provide a successful regeneration outcome when it comes to critical nerve gap repair. Enriching the lumen of conduits with different extracellular materials and cells could provide a better biomimicry of the natural nerve regenerating environment and is expected to ameliorate the conduit performance. In this study, we evaluated nerve regeneration in vivo using hollow chitosan conduits or conduits enriched with fibrin-collagen hydrogels alone or with the further addition of adipose-derived mesenchymal stem cells in a 15 mm rat sciatic nerve transection model. Unexpected changes in the hydrogel consistency and structural stability in vivo led to a failure of nerve regeneration after 15 weeks. Nevertheless, the molecular assessment in the early regeneration phase (7, 14, and 28 days) has shown an upregulation of useful regenerative genes in hydrogel enriched conduits compared with the hollow ones. Hydrogels composed of fibrin-collagen were able to upregulate the expression of soluble NRG1, a growth factor that plays an important role in Schwann cell transdifferentiation. The further enrichment with adipose-derived mesenchymal stem cells has led to the upregulation of other important genes such as ErbB2, VEGF-A, BDNF, c-Jun, and ATF3., Spanish "Plan Nacional de Investigacion Cientifica, Desarrollo e Innovacion Tecnologica, Ministerio de Economia y Competitividad (Instituto de Salud Carlos III) FIS PI14-1343 FIS PI17-0393 FIS PI20-0318, Fondo Europeo de Desarrollo Regional ERDF-FEDER European Union, Plan Andaluz de Investigacion, Desarrollo e Innovacion (PAIDI2020), Consejeria de Transformacion Economica, Industria, Conocimiento y Universidades, Junta de Andalucia, Espana P18-RT-5059, Programa Operativo FEDER Andalucia 2014-2020, Universidad de Granada, Junta de Andalucia, Espana A-CTS-498-UGR18, European Commission

Published

2022

26. Staining Methods for Normal and Regenerative Myelin in the Nervous System

Author

Óscar D, García-García, Tamara, Weiss, Jesús, Chato-Astrain, Stefania, Raimondo, and Víctor, Carriel

Subjects

Osmium Tetroxide, Staining and Labeling, Collagen, Coloring Agents, Hematoxylin, Lipids, Myelin Sheath

Abstract

Histochemical and fluorescence-based techniques enable the specific identification of myelin by bright-field or fluorescence microscopy. In this chapter, we describe four histological methods for the evaluation of myelin on peripheral nerve tissue sections. The first method combines the Luxol fast blue (LFB) technique with a modified Picrosirius staining contrasted with Harris hematoxylin, called MCOLL. This method simultaneously stains myelin, collagen fibers, and cell nuclei, thus giving an integrated overview of the histology, collagen network, and myelin content of the tissue in paraffin-embedded or cryosectioned samples. Secondly, we describe the osmium tetroxide method, which provides a permanent positive reaction for myelin as well as other lipids present in the tissue. The third method is the immunofluorescence-based detection of myelin proteins that allows to combine information about their expression status with other proteins of interest. Finally, the FluoroMyelin™ stains enable a fast detection of the myelin content that can be easily implemented in immunofluorescence staining panels for cryosectioned tissues. Together, this chapter provides a variety of methods to accurately identify myelin in different experimental approaches.

Published

2022

27. Expanded Differentiation Capability of Human Wharton's Jelly Stem Cells Toward Pluripotency: A Systematic Review

Author

Ricardo Fernández-Valadés, Indalecio Sánchez-Montesinos, Rena N. D'Souza, Fernando Campos, Jesús Chato-Astrain, Miguel Alaminos, MA Martín-Piedra, Ingrid Garzón, and Antonio Campos

Subjects

Pluripotent Stem Cells, Homeobox protein NANOG, 0206 medical engineering, Biomedical Engineering, Bioengineering, 02 engineering and technology, Biology, Regenerative Medicine, Biochemistry, Regenerative medicine, Biomaterials, SOX2, Wharton's jelly, Humans, Cell Lineage, Stem Cells, Mesenchymal stem cell, Cell Differentiation, Mesenchymal Stem Cells, 021001 nanoscience & nanotechnology, 020601 biomedical engineering, Embryonic stem cell, Cell biology, Stem cell, 0210 nano-technology, Multipotentiality

Abstract

Human Wharton's jelly stem cells (HWJSC) can be efficiently isolated from the umbilical cord, and numerous reports have demonstrated that these cells can differentiate into several cell lineages. This fact, coupled with the high proliferation potential of HWJSC, makes them a promising source of stem cells for use in tissue engineering and regenerative medicine. However, their real potentiality has not been established to date. In the present study, we carried out a systematic review to determine the multilineage differentiation potential of HWJSC. After a systematic literature search, we selected 32 publications focused on the differentiation potential of these cells. Analysis of these studies showed that HWJSC display expanded differentiation potential toward some cell types corresponding to all three embryonic cell layers (ectodermal, mesodermal, and endodermal), which is consistent with their constitutive expression of key pluripotency markers such as OCT4, SOX2, and NANOG, and the embryonic marker SSEA4. We conclude that HWJSC can be considered cells in an intermediate state between multipotentiality and pluripotentiality, since their proliferation capability is not unlimited and differentiation to all cell types has not been demonstrated thus far. These findings support the clinical use of HWJSC for the treatment of diseases affecting not only mesoderm-type tissues but also other cell lineages. Impact statement Human Wharton's jelly stem cells (HWJSC) are mesenchymal stem cells that are easy to isolate and handle, and that readily proliferate. Their wide range of differentiation capabilities supports the view that these cells can be considered pluripotent. Accordingly, HWJSC are one of the most promising cell sources for clinical applications in advanced therapies.

Published

2020

28. Detergent‐based decellularized peripheral nerve allografts: An in vivo preclinical study in the rat sciatic nerve injury model

Author

Fernando Campos, Jesús Chato-Astrain, Antonio Campos, Daniel Durand-Herrera, Charlot Philips, Annelies Roosens, Óscar Darío García-García, Miguel Alaminos, and Víctor Carriel

Subjects

Pathology, medicine.medical_specialty, 0206 medical engineering, Biomedical Engineering, Medicine (miscellaneous), 02 engineering and technology, Biomaterials, 03 medical and health sciences, Tissue engineering, Peripheral Nerve Injuries, Peripheral nerve, In vivo, Animals, Medicine, Rats, Wistar, 030304 developmental biology, 0303 health sciences, Decellularization, business.industry, Regeneration (biology), Histology, Sciatic nerve injury, Allografts, medicine.disease, Sciatic Nerve, 020601 biomedical engineering, Nerve Regeneration, Rats, Female, Sciatic nerve, business

Abstract

Nerve autograft is the gold standard technique to repair critical nerve defects, but efficient alternatives are needed. The present study evaluated the suitability of our novel Roosens-based (RSN) decellularized peripheral nerve allografts (DPNAs) in the repair of 10-mm sciatic nerve defect in rats at the functional and histological levels after 12 weeks. These DPNAs were compared with the autograft technique (AUTO) and Sondell (SD) or Hudson (HD) based DPNAs. Clinical and functional assessments demonstrated a partial regeneration in all operated animals. RSN-based DPNAs results were comparable with SD and HD groups and closely comparable with the AUTO group without significant differences (p > .05). Overall hematological studies confirmed the biocompatibility of grafted DPNAs. In addition, biochemistry revealed some signs of muscle affection in all operated animals. These results were confirmed by the loss of weight and volume of the muscle and by muscle histology, especially in DPNAs. Histology of repaired nerves confirmed an active nerve tissue regeneration and partial myelination along with the implanted grafts, being the results obtained with HD and RSN-based DPNAs comparable with the AUTO group. Finally, this in vivo study suggests that our novel RSN-based DPNAs supported a comparable tissue regeneration, along the 10-mm nerve gap, after 12-week follow-up to HD DPNAs, and both were superior to SD group and closely comparable with autograft technique. However, further improvements are needed to overcome the efficacy of the nerve autograft technique.

Published

2020

29. Basic Nerve Histology and Histological Analyses Following Peripheral Nerve Repair and Regeneration

Author

David Sánchez-Porras, Jesús Chato-Astrain, Óscar Darío García-García, Víctor Carriel, and Fernando Campos

Subjects

Pathology, medicine.medical_specialty, Peripheral nerve, business.industry, Regeneration (biology), medicine, Histology, business

Published

2022

30. Generation of a novel model of bioengineered human oral mucosa with increased vascularization potential

Author

Antonio España-López, Salvador Oyonarte, Miguel Angel Martin-Piedra, Miguel Alaminos, Cristina Blanco-Elices, María del Carmen Sánchez-Quevedo, Jesús Chato-Astrain, Ingrid Garzón, Fabiola Bermejo-Casares, and Ricardo Fernández-Valadés

Subjects

CD31, CD34, Mice, Nude, Neovascularization, Physiologic, Mice, Vasculogenesis, Tissue engineering, In vivo, medicine, Human Umbilical Vein Endothelial Cells, Animals, Humans, Oral mucosa, Tissue Engineering, business.industry, Mesenchymal stem cell, Vascularization, Mouth Mucosa, Mesenchymal Stem Cells, Cell Differentiation, medicine.anatomical_structure, Cancer research, Periodontics, Mesenchymal stem cells, Bone marrow, business

Abstract

Spanish Plan Nacional de Investigacion Cientifica, Desarrollo e Innovacion Tecnologica (I+D+I) of the Spanish Ministry of Science and Innovation (Instituto de Salud Carlos III), Grant/Award Number: FIS PI18/331, FIS PI21/00980, FIS PI18/332 and ICI19/00024; Consejeria de Salud y Familias, Junta de Andalucia, Spain, Grant/Award Number: PI-0442--2019; FEDER funds, European Union, Objective: The aim of this study was to generate novel models of bioartificial human oral mucosa with increased vascularization potential for future use as an advanced therapies medicinal product, by using different vascular and mesenchymal stem cell sources. Background: Oral mucosa substitutes could contribute to the clinical treatment of complex diseases affecting the oral cavity. Although several models of artificial oral mucosa have been described, biointegration is a major issue that could be favored by the generation of novel substitutes with increased vascularization potential once grafted in vivo. Methods: Three types of mesenchymal stem cells (MSCs) were obtained from adipose tissue, bone marrow, and dental pulp, and their in vitro potential was evaluated by inducing differentiation to the endothelial lineage using conditioning media. Then, 3D models of human artificial oral mucosa were generated using biocompatible fibrin-agarose biomaterials combined with human oral mucosa fibroblasts and each type of MSC before and after induction to the endothelial lineage, using human umbilical vein endothelial cells (HUVEC) as controls. The vascularization potential of each oral mucosa substitute was assessed in vitro and in vivo in nude mice. Results: In vitro induction of MSCs kept in culture was able to increase the expression of VEGF, CD31, and vWF endothelial markers, especially in bone marrow and dental pulp-MSCs, and numerous proteins with a role in vasculogenesis become overexpressed. Then, in vivo grafting resulted in a significant increase in blood vessels formation at the interface area between the graft and the host tissues, with significantly positive expression of VEGF, CD31, vWF, and CD34 as compared to negative controls, especially when pre-differentiated MSCs derived from bone marrow and dental pulp were used. In addition, a significantly higher number of cells committed to the endothelial lineage expressing the same endothelial markers were found within the bioartificial tissue. Conclusion: Our results suggest that the use of pre-differentiated MSCs could contribute to a rapid generation of a vascular network that may favor in vivo biointegration of bioengineered human oral mucosa substitutes., Spanish Plan Nacional de Investigacion Cientifica, Desarrollo e Innovacion Tecnologica (I+D+I) of the Spanish Ministry of Science and Innovation (Instituto de Salud Carlos III) FIS PI18/331 FIS PI21/00980 FIS PI18/332 ICI19/00024, Junta de Andalucia PI-0442-2019, European Commission

Published

2021

31. Human fibroblast behavior cultured in the eggshell membranes for tissue engineering applications

Author

Jesús Chato-Astrain, Fernando Campos, Isabel Chato-Astrain, Simona Stoykova, Víctor Carriel, and Juan-Ángel Rodríguez-Pozo

Subjects

General Medicine

Abstract

espanolLa membrana de la cascara del huevo ha sido considerada durante mucho tiempo como un material de desecho. Sin embargo, estudios recientes han demostrado su utilidad para diferentes propositos, como las aplicaciones biologicas. En el presente trabajo, se ha realizado un estudio para identificar los componentes principales de la membrana de la cascara del huevo y para determinar la posibilidad de usarlo como un biomaterial en ingenieria tisular. Para ello, se cultivaron fibroblastos en una membrana de cascara de huevo y luego se realizaron analisis histologicos e histoquimicos. Los resultados muestran no solo la presencia de colageno y proteoglicanos, sino tambien la viabilidad de las celulas dentro de la membrana. Estos resultados revelan el potencial de la membrana de la cascara del huevo para ser utilizado como biomaterial en ingenieria tisular. EnglishThe eggshell membrane has been long time considered as a waste material. However, recent studies have shown its usefulness for different purposes such as biological applications. In the present work, a study has been carried out to identify the eggshell membrane main components and to determine its feasibility for being used as a biomaterial in tissue engineering. Fibroblasts were cultured in eggshell membrane and then histological and histochemical analysis were performed. Results show not only the presence of collagen and proteoglycans, but also the viability of cells inside the membrane. These results revealed the eggshell membrane potential used as a biomaterial in tissue engineering.

Published

2019

32. Ex Vivo Generation and Characterization of Human Hyaline and Elastic Cartilaginous Microtissues for Tissue Engineering Applications

Author

Ana B. Paes, Rik Verplancke, José Darío Sánchez-López, Jan Vanfleteren, Óscar Darío García-García, Víctor Carriel, Daniel Durand-Herrera, Jesús Chato-Astrain, Fernando Campos, David Sánchez-Porras, [Sánchez-Porras,D, Durand-Herrera,D, Chato-Astrain,J, García-García,OD, Campos,F, Carriel,V] Department of Histology, Tissue Engineering Group, Faculty of Medicine, University of Granada, Granada, Spain. [Sánchez-Porras,D, Carriel,V] Instituto de Investigación Biosanitaria ibs. GRANADA, Granada, Spain. [Sánchez-Porras,D] Doctoral Program in Biomedicine, Doctoral School, University of Granada, Granada, Spain. [Paes,AB] Master Program in Tissue Engineering and Advanced Therapies, International School for Postgraduate Studies, University of Granada, Granada, Spain. [Verplancke,R, Vanfleteren,J] Centre for Microsystems Technology (CMST), imec and Ghent University, Ghent, Belgium. [Sánchez-López,JD] Division of Maxillofacial Surgery, University Hospital Complex of Granada, Granada, Spain., This study was supported by grants FIS PI17/0393 and PI20/0318 from the Spanish Ministry of Science and Innovation (Instituto de Salud Carlos III), grants PI-0257-2017 and PE-0395- 2019 from Consejería de Salud y Familias, Junta de Andalucía, España, grant P18-RT-5059 from Consejería de Economía, Conocimiento, Empresas y Universidad, Junta de Andalucía, España, and grant A-CTS-498-UGR18 from the University of Granada and Junta de Andalucía, España. It was co-funded by FEDER-ERDF funds.

Subjects

Technology and Engineering, Hyaline cartilage, extracellular matrix, Human hyaline chondrocytes, Organoides, Medicine (miscellaneous), Microtissues, Anatomy::Musculoskeletal System::Cartilage::Hyaline Cartilage [Medical Subject Headings], Anatomy::Cells::Connective Tissue Cells::Chondrocytes [Medical Subject Headings], Chemicals and Drugs::Carbohydrates::Polysaccharides::Sepharose [Medical Subject Headings], human hyaline chondrocytes, General Biochemistry, Genetics and Molecular Biology, Article, Extracellular matrix, Organisms::Eukaryota::Animals::Chordata::Vertebrates::Mammals::Primates::Haplorhini::Catarrhini::Hominidae::Humans [Medical Subject Headings], Tissue engineering, Anatomy::Musculoskeletal System::Cartilage::Elastic Cartilage [Medical Subject Headings], In vivo, human elastic chondrocytes, Elastic cartilage, Phenomena and Processes::Cell Physiological Phenomena::Cell Physiological Processes::Cell Survival [Medical Subject Headings], Psychiatry and Psychology::Psychological Phenomena and Processes::Psychophysiology::Arousal::Attention [Medical Subject Headings], Medicine and Health Sciences, Viability assay, Analytical, Diagnostic and Therapeutic Techniques and Equipment::Investigative Techniques::Epidemiologic Methods::Data Collection::Vital Statistics::Morbidity::Prevalence [Medical Subject Headings], lcsh:QH301-705.5, Analytical, Diagnostic and Therapeutic Techniques and Equipment::Investigative Techniques::Culture Techniques::Cell Engineering::Tissue Engineering [Medical Subject Headings], Hyaline, organoids, Cartílago hialino, Anatomy::Cells::Cellular Structures::Extracellular Space::Extracellular Matrix [Medical Subject Headings], High prevalence, microtissues, Disciplines and Occupations::Natural Science Disciplines::Biological Science Disciplines::Biotechnology::Biomimetics [Medical Subject Headings], Chemistry, Biology and Life Sciences, Chondrogenesis, Human elastic chondrocytes, Organoids, lcsh:Biology (General), tissue engineering, Cartílago elástico, Ingeniería de tejidos, Matriz extracelular, Ex vivo, Biomedical engineering

Abstract

This study was supported by grants FIS PI17/0393 and PI20/0318 from the Spanish Ministry of Science and Innovation (Instituto de Salud Carlos III); grants PI-0257-2017 and PE-0395- 2019 from Consejería de Salud y Familias, Junta de Andalucía, España; grant P18-RT-5059 from Consejería de Economía, Conocimiento, Empresas y Universidad, Junta de Andalucía, España; grant A-CTS-498-UGR18 from the University of Granada and Junta de Andalucía, España. It was co-funded by FEDER-ERDF funds., Authors are grateful to Fabiola Bermejo Casares for the technical histological assistance. Special thanks to Ariane Ruyffelaert for her critical review and proofreading service. This work forms part of the doctoral thesis conducted by David Sánchez Porras (Doctoral Program in Biomedicine, Doctoral School, University of Granada, Spain)., Considering the high prevalence of cartilage-associated pathologies, low self-repair capacity and limitations of current repair techniques, tissue engineering (TE) strategies have emerged as a promising alternative in this field. Three-dimensional culture techniques have gained attention in recent years, showing their ability to provide the most biomimetic environment for the cells under culture conditions, enabling the cells to fabricate natural, 3D functional microtissues (MTs). In this sense, the aim of this study was to generate, characterize and compare scaffold-free human hyaline and elastic cartilage-derived MTs (HC-MTs and EC-MTs, respectively) under expansion (EM) and chondrogenic media (CM). MTs were generated by using agarose microchips and evaluated ex vivo for 28 days. The MTs generated were subjected to morphometric assessment and cell viability, metabolic activity and histological analyses. Results suggest that the use of CM improves the biomimicry of the MTs obtained in terms of morphology, viability and extracellular matrix (ECM) synthesis with respect to the use of EM. Moreover, the overall results indicate a faster and more sensitive response of the EC-derived cells to the use of CM as compared to HC chondrocytes. Finally, future preclinical in vivo studies are still needed to determine the potential clinical usefulness of these novel advanced therapy products., Instituto de Salud Carlos III Spanish Government FIS PI17/0393 PI20/0318, Junta de Andalucia PI-0257-2017 PE-03952019, Junta de Andalucia P18-RT-5059, University of Granada A-CTS-498-UGR18, Junta de Andalucia A-CTS-498-UGR18, FEDER-ERDF funds

Published

2021

33. Implementación de un modelo de aula invertida para el autoaprendizaje de la ingeniería tisular en el grado de Farmacia

Author

Jesús Chato-Astrain, Fernando Campos, MA Martín-Piedra, María del Carmen Sánchez-Quevedo, D. Durand, D. Sánchez, Óscar-Darío García-García, and C. Blanco

Subjects

Pharmacy curriculum, Docencia, Flipped learning, Aula invertida, General Engineering, Ingeniería tisular, Histología, Aprendizaje inverso, Psychology, Farmacia, Humanities

Abstract

espanolIntroduccion. El presente trabajo describe y evalua la implementacion de un modelo de aula invertida en la materia de Histologia para el aprendizaje de ingenieria tisular en el grado de Farmacia con el objetivo de incorporar dichos conocimientos ante su escasa presencia en dicho grado. Sujetos y metodos. El modelo consiste en intercalar en el curso ordinario de Histologia del grado de Farmacia un modulo de autoaprendizaje inverso. Participan 110 alumnos que responden a un cuestionario sobre ambitos conceptuales, procedimentales y actitudinales al comienzo y al final del proceso. Los resultados se analizan estadisticamente. Resultados. Los resultados muestran valores superiores en la evaluacion final con respecto a la evaluacion inicial. Esta diferencia fue estadisticamente significativa (p Conclusion. Los valores mas elevados observados en los componentes actitudinal y procedimental, tras la implementacion del modelo propuesto, ponen de relieve la necesidad de incrementar el componente conceptual en la formacion de la ingenieria tisular en el curriculo de farmacia EnglishIntroduction. This paper describes and evaluates the implementation of a flipped learning model in the discipline of histology for learning tissue engineering contents in the Pharmacy degree, with the aim of incorporating this knowledge for the scarce presence of such matter in that degree. Subjects and methods. The model consists of inserting in the ordinary course of Histology of the pharmacy degree an inverse self-learning module. A questionnaire on conceptual, procedural and attitudinal fields was answered by the 110 students involved in the study at the beginning and end of the process. Results were statistically analysed. Results. The results after the implementation of the flipped learning model show statistically significant higher values (p Conclusion. The highest values observed in the attitudinal and procedural components, after the implementation of the proposed model, highlight the need to increase the conceptual component in the formation of tissue engineering in the pharmacy curriculum

Published

2021

34. Generation and Evaluation of Novel Biomaterials Based on Decellularized Sturgeon Cartilage for Use in Tissue Engineering

Author

Roke-Iñaki Oruezabal, David Sánchez-Porras, Miguel Alaminos, Jesús Chato-Astrain, Antonio Campos, Olimpia Ortiz-Arrabal, Óscar-Darío García-García, Víctor Carriel, A. Domezain, and Ramón Carmona

Subjects

QH301-705.5, Type II collagen, Sturgeon, Medicine (miscellaneous), 02 engineering and technology, sturgeon, Article, General Biochemistry, Genetics and Molecular Biology, Extracellular matrix, 03 medical and health sciences, Tissue engineering, medicine, Biology (General), cartilage, Decellularization, 030304 developmental biology, 0303 health sciences, Chemistry, Cartilage, Mesenchymal stem cell, Biomaterial, 021001 nanoscience & nanotechnology, Cell biology, medicine.anatomical_structure, tissue engineering, decellularization, 0210 nano-technology, Ex vivo

Abstract

Because cartilage has limited regenerative capability, a fully efficient advanced therapy medicinal product is needed to treat severe cartilage damage. We evaluated a novel biomaterial obtained by decellularizing sturgeon chondral endoskeleton tissue for use in cartilage tissue engineering. In silico analysis suggested high homology between human and sturgeon collagen proteins, and ultra-performance liquid chromatography confirmed that both types of cartilage consisted mainly of the same amino acids. Decellularized sturgeon cartilage was recellularized with human chondrocytes and four types of human mesenchymal stem cells (MSC) and their suitability for generating a cartilage substitute was assessed ex vivo and in vivo. The results supported the biocompatibility of the novel scaffold, as well as its ability to sustain cell adhesion, proliferation and differentiation. In vivo assays showed that the MSC cells in grafted cartilage disks were biosynthetically active and able to remodel the extracellular matrix of cartilage substitutes, with the production of type II collagen and other relevant components, especially when adipose tissue MSC were used. In addition, these cartilage substitutes triggered a pro-regenerative reaction mediated by CD206- positive M2 macrophages. These preliminary results warrant further research to characterize in greater detail the potential clinical translation of these novel cartilage substitutes., Spanish Plan Nacional de Investigación Científica, Desarrollo e Innovación Tecnológica (I+D+i) of the Spanish Ministry of Economy and Competitiveness (Instituto de Salud Carlos III), Grant FIS PI20/0317, FEDER funds (European Union), Consejería de Salud y Familias, Junta de Andalucía, Spain - PI-0257-2017

Published

2021

35. Histological, Biomechanical, and Biological Properties of Genipin-Crosslinked Decellularized Peripheral Nerves

Author

David Sánchez-Porras, Jesús Chato-Astrain, David González-Quevedo, Víctor Carriel, Marwa El Soury, Óscar Darío García-García, Fernando Campos, [García-García,ÓD, El Soury,M, González-Quevedo,D, Sánchez-Porras,D, Chato-Astrain,J, Campos,F, Carriel,V] Tissue Engineering Group, Department of Histology, University of Granada, Granada, Spain. [García-García,ÓD, Carriel,V] Instituto de Investigación Biosanitaria ibs. GRANADA, Granada, Spain. [García-García,ÓD] Doctoral Program in Biomedicine, University of Granada, Granada, Spain. [El Soury,M] Department of Clinical and Biological Sciences and Neuroscience Institute Cavalieri Ottolenghi (NICO), University of Torino, Orbassano, Italy. [González-Quevedo,D] Department of Orthopedic Surgery and Traumatology, Regional University Hospital of Málaga, Málaga, Spain., This research was funded by the Spanish 'Plan Nacional de Investigación Científica, Desarrollo e Innovación Tecnológica, Ministerio de Economía y Competitividad (Instituto de Salud Carlos III), Grants No FIS PI14-1343, FIS PI17-0393, FIS PI20-0318 co-financed by the 'Fondo Europeo de Desarrollo Regional ERDF-FEDER European Union', Grant No P18-RT-5059 by 'Plan Andaluz de Investigación, Desarrollo e Innovación (PAIDI 2020), Consejería de Transformación Económica, Industria, Conocimiento y Universidades, Junta de Andalucía, España', and and Grant A-CTS-498- UGR18 by 'Programa Operativo FEDER Andalucía 2014–2020, Universidad de Granada, Junta de Andalucía, España', co-funded by ERDF-FEDER, the European Union.

Subjects

0301 basic medicine, Pathology, Biocompatible Materials, 02 engineering and technology, Anatomy::Body Regions::Transplants::Allografts [Medical Subject Headings], lcsh:Chemistry, chemistry.chemical_compound, Tissue engineering, Cellbiomaterials interactions, Iridoids, Nerve Tissue, Analytical, Diagnostic and Therapeutic Techniques and Equipment::Investigative Techniques::Culture Techniques::Cell Engineering::Tissue Engineering [Medical Subject Headings], lcsh:QH301-705.5, Spectroscopy, Decellularization, Tissue Scaffolds, Histocytochemistry, General Medicine, chemical crosslinking, Andamios del tejido, Computer Science Applications, Biomechanical Phenomena, Extracellular Matrix, cellbiomaterials interactions, Cross-Linking Reagents, tissue engineering, cardiovascular system, cell-biomaterials interactions, Chemicals and Drugs::Chemical Actions and Uses::Specialty Uses of Chemicals::Laboratory Chemicals::Indicators and Reagents::Cross-Linking Reagents [Medical Subject Headings], hormones, hormone substitutes, and hormone antagonists, natural biomaterials, medicine.medical_specialty, Biocompatibility, 0206 medical engineering, Anatomy::Nervous System::Peripheral Nervous System::Peripheral Nerves::Spinal Nerves::Lumbosacral Plexus::Sciatic Nerve [Medical Subject Headings], nerve tissue decellularization, Article, Catalysis, Inorganic Chemistry, histology, 03 medical and health sciences, nerve repair, genipin, biomechanical and structural properties, In vivo, Fenómenos biomecánicos, medicine, Chemicals and Drugs::Amino Acids, Peptides, and Proteins::Proteins::Scleroproteins::Extracellular Matrix Proteins [Medical Subject Headings], Nervio ciático, Physical and Theoretical Chemistry, Molecular Biology, Analytical, Diagnostic and Therapeutic Techniques and Equipment::Equipment and Supplies::Prostheses and Implants::Tissue Scaffolds [Medical Subject Headings], Regeneración nerviosa, Tissue Engineering, business.industry, Organic Chemistry, Mesenchymal stem cell, Histology, Histología, 020601 biomedical engineering, Phenomena and Processes::Biological Phenomena::Biological Processes::Regeneration::Nerve Regeneration [Medical Subject Headings], Nerve Regeneration, 030104 developmental biology, chemistry, lcsh:Biology (General), lcsh:QD1-999, Genipin, Ingeniería de tejidos, Phenomena and Processes::Physical Phenomena::Biophysical Phenomena::Biomechanical Phenomena [Medical Subject Headings], business, Ex vivo

Abstract

Acellular nerve allografts (ANGs) represent a promising alternative in nerve repair. Our aim is to improve the structural and biomechanical properties of biocompatible Sondell (SD) and Roosens (RS) based ANGs using genipin (GP) as a crosslinker agent ex vivo. The impact of two concentrations of GP (0.10% and 0.25%) on Wistar rat sciatic nerve-derived ANGs was assessed at the histological, biomechanical, and biocompatibility levels. Histology confirmed the differences between SD and RS procedures, but not remarkable changes were induced by GP, which helped to preserve the nerve histological pattern. Tensile test revealed that GP enhanced the biomechanical properties of SD and RS ANGs, being the crosslinked RS ANGs more comparable to the native nerves used as control. The evaluation of the ANGs biocompatibility conducted with adipose-derived mesenchymal stem cells cultured within the ANGs confirmed a high degree of biocompatibility in all ANGs, especially in RS and RS-GP 0.10% ANGs. Finally, this study demonstrates that the use of GP could be an efficient alternative to improve the biomechanical properties of ANGs with a slight impact on the biocompatibility and histological pattern. For these reasons, we hypothesize that our novel crosslinked ANGs could be a suitable alternative for future in vivo preclinical studies., Spanish "Plan Nacional de Investigacion Cientifica, Desarrollo e Innovacion Tecnologica, Ministerio de Economia y Competitividad (Instituto de Salud Carlos III) FIS PI14-1343 FIS PI17-0393 FIS PI20-0318, Fondo Europeo de Desarrollo Regional ERDF-FEDER European Union, Plan Andaluz de Investigacion, Desarrollo e Innovacion (PAIDI 2020), Consejeria de Transformacion Economica, Industria, Conocimiento y Universidades, Junta de Andalucia, Espana P18-RT-5059, Programa Operativo FEDER Andalucia 2014-2020, Universidad de Granada, Junta de Andalucia, Espana A-CTS-498UGR18, ERDF-FEDER, the European Union

Published

2021

36. Histological Profiling of the Human Umbilical Cord: A Potential Alternative Cell Source in Tissue Engineering

Author

Cristina Blanco-Elices, Jesús Chato-Astrain, Alberto González-González, David Sánchez-Porras, Víctor Carriel, Ricardo Fernández-Valadés, María del Carmen Sánchez-Quevedo, Miguel Alaminos, and Ingrid Garzón

Subjects

MSC, umbilical cord, vascular differentiation, Medicine (miscellaneous)

Abstract

This work was supported by the Spanish Plan Nacional de Investigacion Cientifica, Desarrollo e Innovacion Tecnologica (I+D+i) of the Spanish Ministry of Science and Innovation (Instituto de Salud Carlos III), Grants FIS PI21/0980, FIS PI18/0331, FIS PI18/0332, FIS PI20/0317, FIS PI20/318, and ICI19-00024, co-financed by FEDER funds (European Union). It was also supported by grant PE-0395-2019 from Consejeria de Salud y Familias, Junta de Andalucia, Spain, and grants B-CTS-450-UGR20 and A-CTS-498-UGR18 (Proyectos de I+D+i en el marco del Programa Operativo FEDER Andalucia 2014-2020) from the University of Granada, Consejeria de Transformacion Economica, Industria, Conocimiento y Universidades, Junta de Andalucia and European Union and P18-RT-5059 from Consejeria de Transformacion Economica, Industria, Conocimiento y Universidades, Junta de Andalucia. Co-financed by FEDER funds (European Union)., The embryonic development of the human umbilical cord (hUC) is complex, and different regions can be identified in this structure. The aim of this work is to characterize the hUC at in situ and ex vivo levels to stablish their potential use in vascular regeneration. Human umbilical cords were obtained and histologically prepared for in the situ analysis of four hUC regions (intervascular—IV, perivascular—PV, subaminoblastic—SAM, and Wharton’s jelly—WH), and primary cell cultures of mesenchymal stem cells (hUC-MSC) isolated from each region were obtained. The results confirmed the heterogeneity of the hUC, with the IV and PV zones tending to show the higher in situ expression of several components of the extracellular matrix (collagens, proteoglycans, and glycosaminoglycans), vimentin, and MSC markers (especially CD73), although isolation and ex vivo culture resulted in a homogeneous cell profile. Three vascular markers were positive in situ, especially vWF, followed by CD34 and CD31, and isolation and culture revealed that the region associated with the highest expression of vascular markers was IV, followed by PV. These results confirm the heterogeneity of the hUC and the need for selecting cells from specific regions of the hUC for particular applications in tissue engineering., Spanish Plan Nacional de Investigacion Cientifica, Desarrollo e Innovacion Tecnologica (I+D+i) of the Spanish Ministry of Science and Innovation (Instituto de Salud Carlos III) FIS PI21/0980 FIS PI18/0331 FIS PI18/0332 FIS PI20/0317 FIS PI20/318 ICI19-00024, European Commission, Junta de Andalucia PE-0395-2019, University of Granada B-CTS-450-UGR20 CTS-498-UGR18, Consejeria de Transformacion Economica, Industria, Conocimiento y Universidades, Junta de Andalucia, European Commission Junta de Andalucia P18-RT-5059

Published

2022

37. Generation of a novel human dermal substitute functionalized with antibiotic‑loaded nanostructured lipid carriers (NLCs) with antimicrobial properties for tissue engineering

Author

María Villar-Vidal, Silvia Villullas, Ángela Ponce-Polo, Fabiola Bermejo-Casares, Óscar-Darío García-García, Fernando Campos, Isabel Chato-Astrain, Garazi Gainza, Jesús Chato-Astrain, Claudia Vairo, Miguel Alaminos, Víctor Carriel, Roke-Iñaki Oruezabal, Ingrid Garzón, and David Sánchez-Porras

Subjects

Cell Survival, Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), Bioengineering, Human skin, Biocompatible Materials, 02 engineering and technology, Colistimethate, Applied Microbiology and Biotechnology, Severe burns, 03 medical and health sciences, Tissue engineering, Dermis, medicine, Humans, Viability assay, Functionalization, Amikacin, Cells, Cultured, 030304 developmental biology, Cell Proliferation, Skin, Artificial, 0303 health sciences, Drug Carriers, Nanostructured lipid carriers, Tissue Engineering, Chemistry, Cell growth, Colistin, Research, Fibroblasts, Dermal substitute, 021001 nanoscience & nanotechnology, Antimicrobial, Lipids, Anti-Bacterial Agents, Nanostructures, medicine.anatomical_structure, Biophysics, Molecular Medicine, Surface modification, 0210 nano-technology

Abstract

Background: Treatment of patients affected by severe burns is challenging, especially due to the high risk of Pseudomonas infection. In the present work, we have generated a novel model of bioartificial human dermis substitute by tissue engineering to treat infected wounds using fibrin-agarose biomaterials functionalized with nanostructured lipid carriers (NLCs) loaded with two anti-Pseudomonas antibiotics: sodium colistimethate (SCM) and amikacin (AMK). Results: Results show that the novel tissue-like substitutes have strong antibacterial effect on Pseudomonas cultures, directly proportional to the NLC concentration. Free DNA quantification, WST-1 and Caspase 7 immunohistochemical assays in the functionalized dermis substitute demonstrated that neither cell viability nor cell proliferation were affected by functionalization in most study groups. Furthermore, immunohistochemistry for PCNA and KI67 and histochemistry for collagen and proteoglycans revealed that cells proliferated and were metabolically active in the functionalized tissue with no differences with controls. When functionalized tissues were biomechanically characterized, we found that NLCs were able to improve some of the major biomechanical properties of these artificial tissues, although this strongly depended on the type and concentration of NLCs. Conclusions: These results suggest that functionalization of fibrin-agarose human dermal substitutes with antibioticloaded NLCs is able to improve the antibacterial and biomechanical properties of these substitutes with no detectable side effects. This opens the door to future clinical use of functionalized tissues., NanoGSkin project of EuroNanoMed-III (ERA-NET Cofund scheme of the Horizon 2020 Research and Innovation Framework Programme), EU, Instituto de Salud Carlos III AC17/00013, Centro para el Desarrollo Tecnológico Industrial -CDTI 00108589, Spanish Government, Junta de Andalucía PE-0395-2019, Fundacion Benefica Anticancer San Francisco Javier y Santa Candida, Granada, Spain, Department of Economic Development and Infrastructure of the Basque Government budget, through the HAZITEK business R + D support program ZE-2017/00014, European Union (EU) OTRI.35A-07

Published

2020

38. Improving the regenerative microenvironment during tendon healing by using nanostructured fibrin/agarose-based hydrogels in a rat Achilles tendon injury model

Author

Antonio Campos, Víctor Carriel, Jesús Chato-Astrain, Fernando Campos, Miriam Díaz-Ramos, Iskandar Tamimi, David Sánchez-Porras, and David González-Quevedo

Subjects

Male, medicine.medical_specialty, Biocompatible Materials, 02 engineering and technology, Achilles Tendon, Fibrin, Tendons, 03 medical and health sciences, chemistry.chemical_compound, Random Allocation, 0302 clinical medicine, Tissue engineering, Achilles tendon injury, Tendon Injuries, medicine, Animals, Regeneration, Orthopedics and Sports Medicine, Rats, Wistar, Tendon healing, 030222 orthopedics, Achilles tendon, Wound Healing, biology, Tissue Engineering, business.industry, Hydrogels, 021001 nanoscience & nanotechnology, Surgery, Elastin, Nanostructures, Rats, Disease Models, Animal, medicine.anatomical_structure, chemistry, Cellular Microenvironment, Self-healing hydrogels, Orthopedic surgery, biology.protein, Agarose, Collagen, 0210 nano-technology, business

Abstract

AimsAchilles tendon injuries are a frequent problem in orthopaedic surgery due to their limited healing capacity and the controversy surrounding surgical treatment. In recent years, tissue engineering research has focused on the development of biomaterials to improve this healing process. The aim of this study was to analyze the effect of tendon augmentation with a nanostructured fibrin-agarose hydrogel (NFAH) or genipin cross-linked nanostructured fibrin-agarose hydrogel (GP-NFAH), on the healing process of the Achilles tendon in rats.MethodsNFAH, GP-NFAH, and MatriDerm (control) scaffolds were generated (five in each group). A biomechanical and cell-biomaterial-interaction characterization of these biomaterials was then performed: Live/Dead Cell Viability Assay, water-soluble tetrazolium salt-1 (WST-1) assay, and DNA-released after 48 hours. Additionally, a complete section of the left Achilles tendon was made in 24 Wistar rats. Animals were separated into four treatment groups (six in each group): direct repair (Control), tendon repair with MatriDerm, or NFAH, or GP-NFAH. Animals were euthanized for further histological analyses after four or eight weeks post-surgery. The Achilles tendons were harvested and a histopathological analysis was performed.ResultsTensile test revealed that NFAH and GP-NFAH had significantly higher overall biomechanical properties compared with MatriDerm. Moreover, biological studies confirmed a high cell viability in all biomaterials, especially in NFAH. In addition, in vivo evaluation of repaired tendons using biomaterials (NFAH, GP-NFAH, and MatriDerm) resulted in better organization of the collagen fibres and cell alignment without clinical complications than direct repair, with a better histological score in GP-NFAH.ConclusionIn this animal model we demonstrated that NFAH and GP-NFAH had the potential to improve tendon healing following a surgical repair. However, future studies are needed to determine the clinical usefulness of these engineered strategies. Cite this article: Bone Joint J 2020;102-B(8):1095–1106.

Published

2020

39. Evaluación diagnóstica de competencias en un modelo de aprendizaje+servicio en el grado de Medicina

Author

David Sánchez-Porras, Jesús Chato-Astrain, Fernando Campos, S. Oyonarte-Gómez, Antonio Santisteban-Espejo, and MA Martín-Piedra

Subjects

Service-learning, Blood donation, Medicina, Educación sanitaria, General Medicine, Diagnostic evaluation, Blood donor, Procedural skill, Health education, Medicine, Aprendizaje+Servicio, Psychology, Humanities, Hemodonación

Abstract

Objetivos: El objetivo de este trabajo es la evaluación diagnóstica de las competencias conceptuales, procedimentales y actitudinales en estudiantes de Medicina previo a la realización de un modelo de aprendizaje+servicio sobre hemodonación. Métodos: 161 estudiantes de Medicina participaron en este estudio realizando una encuesta de valoración de 15 competencias cocneptuales, procedimentales y actitudinales justo antes de la rotación por diferentes estaciones de aprendizaje + servicio en un Centro Regional de Transfusión Sanguínea. Las valoraciones fueron analizadas como evaluación diagnóstica previa. Resultados: 12 de las 15 competencias evaluadas obtuvieron una puntuación superior a 3, por lo que las compentecias previas fueron bastante buenas en el alumnado. Las comptencias de tipo actitudinal fueron las más valoradas (4.29 ± 0.54), siendo significativamente superiores a las procedimentales (3.50 ± 0.65); y estas, a su vez, superiores a las de tipo conceptual (2.78 ± 0.77). Las competencias conpcetuales fueron peor valiradas debido a la inclusión de algunas nociones técnicas que los estudiantes deberán aprender. Conclusiones: Los participantes en el estudio mostraron un nivel elevado de competencias a nivel procedimental y actitudinal previa a la relización de un aprendizaje+servicio sobre hemodonación. La adquisición de los nuevos conceptos permitirán reforzar aquellas actitudes y procedimientos que derivan de dichos conceptos, dotando al alumno de una educación sanitaria más completa que la provista por otros métodos pedagógicos tradicionales., Aim: The objective of this work is the diagnostic evaluation of conceptual, procedural and attitudinal skills in medical students previous to the realization of a model of service-learning on blood donation. Methods: 161 medical students participated in this study by conducting a survey to assess 15 conceptual, procedural and attitudinal competencies just before rotation through different servicelearning stations in a Regional Blood Transfusion Center. The assessments were analyzed as a previous diagnostic evaluation. Results: 12 of the 15 competencies evaluated obtained a score higher than 3, so that the previous competences were high in the students. Attitudinal skills were the most valued (4.29 ± 0.54), being significantly higher than procedural skills (3.50 ± 0.65); and these, in turn, were higher than conceptual skills (2.78 ± 0.77). The conceptual competences were less valued due to the inclusion of some technical notions that the students are still to learn. Conclusions: The participants in this study showed a high level of procedural and attitudinal competencies before the performance of a service-learning on blood donation. The acquisition of the new concepts will allow to strengthen those derived attitudes and procedures from those concepts, providing the student with a more complete health education than that provided by other traditional pedagogical methods.

Published

2020

40. Identificación de los componentes afectivo-motivacionales para el aprendizaje de la ciencia en estudiantes del grado de farmacia

Author

C. Blanco-Elices, A. Milla, Óscar-Darío García-García, D. González-Quevedo, Daniel Durand-Herrera, A. Campos-Sánchez, David Sánchez-Porras, Fernando Campos, and Jesús Chato-Astrain

Subjects

Ciencia, Medical education, Aprendizaje, Affective-motivational components, business.industry, Science, Pharmacy, General Medicine, Farmacia, Learning sciences, Componentes afectivomotivacionales, Learning, Identification (biology), business, Psychology

Abstract

En el artículo se identifican los componentes afectivo–motivacionales para el aprendizaje de la ciencia en estudiantes de farmacia al condicionar la incidencia de los distintos componentes el proceso de aprendizaje. Se realiza el estudio mediante un cuestionario específico observándose variaciones en la autodeterminación, la autoeficacia, la motivación intrínseca y la motivación a corto y largo plazo con diferencias entre ambos géneros., In the article the affective-motivational components for science learning in pharmacy students are identified because the learning process is conditioned by these components. The study was carried out using a specific questionnaire. The results showed variations in self-determination, self-efficacy, intrinsic motivation, and short and long-term motivation, with differences between both genders.

Published

2020

41. Evaluation of the optical and biomechanical properties of bioengineered human skin generated with fibrin-agarose biomaterials

Author

Ana Maria Ionescu, Jesús Chato-Astrain, Ingrid Garzón Bello, Fernando Campos, María del Mar Pérez Gómez, Miguel Alaminos, and Juan de la Cruz Cardona Pérez

Subjects

Paper, optical properties, Materials science, Biomedical Engineering, Biocompatible Materials, Human skin, fibrin-agarose biomaterial, Absorption (skin), 01 natural sciences, Fibrin, Absorption, 010309 optics, Biomaterials, Bioengineered skin, Scattering, chemistry.chemical_compound, 0103 physical sciences, Skin substitutes, Humans, General, Skin, Physical point, Tissue Engineering, integumentary system, biology, Optical properties, Sepharose, scattering, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Fibrin-agarose biomaterial, Tissue optics, chemistry, bioengineered skin, biology.protein, Agarose, absorption, Biomedical engineering

Abstract

Significance: Recent generation of bioengineered human skin allowed the efficient treatment of patients with severe skin defects. However, the optical and biomechanical properties of these models are not known. Aim: Three models of bioengineered human skin based on fibrin-agarose biomaterials (acellular, dermal skin substitutes, and complete dermoepidermal skin substitutes) were generated and analyzed. Approach: Optical and biomechanical properties of these artificial human skin substitutes were investigated using the inverse adding-doubling method and tensile tests, respectively. Results: The analysis of the optical properties revealed that the model that most resembled the optical behavior of the native human skin in terms of absorption and scattering properties was the dermoepidermal human skin substitutes after 7 to 14 days in culture. The time-course evaluation of the biomechanical parameters showed that the dermoepidermal substitutes displayed significant higher values than acellular and dermal skin substitutes for all parameters analyzed and did not differ from the control skin for traction deformation, stress, and strain at fracture break. Conclusions: We demonstrate the crucial role of the cells from a physical point of view, confirming that a bioengineered dermoepidermal human skin substitute based on fibrin-agarose biomaterials is able to fulfill the minimal requirements for skin transplants for future clinical use at early stages of in vitro development., Ministry of Science, Innovation and Universities of Spain PGC2018-101904-A-I0, Instituto de Salud Carlos III (ISCIII), Ministry of Science, Innovation and Universities, through AES 2017 AC17/00013, Instituto de Salud Carlos III (ISCIII), Ministry of Science, Innovation and Universities within EuroNanoMed framework, EU AC17/00013, University of Granada A.TEP.280.UGR18, Junta de Andalucía PE-0395-2019, Fundación Benéfica Anticancer San Francisco Javier y Santa Cándida, Granada, Spain, OTRI.35A-07

Published

2020

42. Gelatin-crosslinked hydrogels for Tissue Engineering applications. A preliminar Study

Author

V Albaladejo-Garcia, David Sánchez-Porras, Óscar-Darío García-García, Jesús Chato-Astrain, A. Irastorza-Lorenzo, M Diaz-Ramos, Daniel Durand-Herrera, Fernando Campos, Ingrid Garzón, and Víctor Carriel

Subjects

Chemistry, Context (language use), General Medicine, Molecular biology

Abstract

espanolLos biomateriales juegan un papel esencial en el desarrollo de nuevos sustitutos tisulares ya que proporcionan el entorno tridimensional esencial para promover la adhesion, migracion y proliferacion celular. En este sentido, los biomateriales naturales aportan moleculas biologicamente activas que tipicamente promueven la adhesion y el crecimiento optimo de las celulas. La gelatina es un biomaterial cuyo alto contenido de colageno y cuya red tridimensional interconectada podria contribuir a la generacion de tejidos artificiales similares a los tejidos nativos. En este contexto, diferentes tecnicas de entrecruzamiento quimico han sido utilizadas con el fin de mejorar las propiedades fisicas y mecanicas de los biomateriales de uso en Ingenieria Tisular. El glutaraldehido (GA) es un entrecruzante quimico bien conocido que puede proporcionar materiales con una mejora sustancial en las propiedades de traccion. El objetivo de este articulo es determinar la concentracion optima de GA en hidrogeles de gelatina para determinar la posible aplicacion de estos nuevos biomateriales entrecruzados en la clinica traslacional. A este respecto, se obtuvieron resultados interesantes que podrian ser utiles para disenar andamios con propiedades controladas segun su grado de entrecruzamiento que facilitaria la produccion de productos mas similares a los tejidos nativos. Los hidrogeles de gelatina entrecruzados con GA al 5% mostraron patrones morfologicos adecuados que sugieren una posible aplicacion para la regeneracion del tejido cardiovascular. EnglishBiomaterials play a key role in the development of new tissue substitutes as they provide the essential 3D environment to promote cell adhesion, migration and proliferation. In this sense natural biomaterials offer biologically active molecules which typically promote excellent cells adhesion and growth. Gelatin is a biomaterial whose high collagen content and its interbranching 3D network could certainly contribute to the construction of more native-like tissues. In this context, different techniques of chemical cross-linking have been used in order to improve the physical and mechanical properties of biomaterials for use in Tissue Engineering. Glutaraldehyde (GA) is a well-known chemical crosslinker that can provide materials with substantial improvement in tensile properties. The aim of this article is to test different GA concentrations to crosslink gelatin hydrogels to evaluate the potential application of these new crosslinked biomaterials according to the specific properties of the different tissues in the translational clinic. In this regard interesting findings were obtained that could be helpful to design controlled-properties scaffolds regarding its crosslinked degree that would facilitate the production of more suitable tissue-like products. The proposed 5% GA crosslinked gelatin hydrogels shown morphological patterns and meet the requirements of a first macroscopic and microscopic evaluation which suggests a potential application for the regeneration of cardiovascular tissue.

Published

2018

43. An Evolutive and Scientometric Research on Tissue Engineering Reviews

Author

Miguel Angel Martin-Piedra, Jose A. Moral-Munoz, Antonio Campos, Jesús Chato-Astrain, Óscar Darío García-García, David Sánchez-Porras, Fernando Campos, and Antonio Santisteban-Espejo

Subjects

Engineering, Biomedical Research, Tissue Engineering, business.industry, Publications, Biomedical Engineering, Measure (physics), Bioengineering, Scientometrics, Biochemistry, Data science, Biomaterials, Animals, Humans, business, Systematic Reviews as Topic

Abstract

Number of publications has been widely used as a measure of research output, especially academic and university research. Number of publications in tissue engineering (TE) has increased year by year since early 1990s. However, after an exponential growth phase, recently publications increase at lower rates, suggesting a consolidation process in which reviews become a relevant and high-evidence document type. The aim of this study is to perform a scientometric evaluation of published literature reviews on TE to assess the status of scientific evolution and confirm the consolidation of TE as a research area. Published reviews on TE from 1991 to 2018 were retrieved from Web of Science core collection and this corpus of knowledge was analyzed by growth rate, research area, source title, and citation. Our results revealed that TE can be considered a consolidating area as it leaves the forefront stage of a gompertzian growth curve model. Original research/review ratio is lineally decreasing during the past decade. The emergence of reviews serves to confirm and refute hypothesis and build up a more reliable theoretical framework as well as a guide for future educational approaches. Distribution assessment of categories and journals indicates the multidisciplinary profile of this area focused on the design and development of new tissues. Biomedical sciences become relevant productors of reviews as they need to support TE innovations with high evidence leading to a safer and more efficient treatment of current injuries and diseases. Impact statement Scientometric analysis of published reviews about tissue engineering (TE) suggests that TE can be considered a consolidating area as it leaves the forefront stage of a gompertzian growth curve model. Biomedical sciences become relevant productors of reviews as they need to support TE innovations with high evidence leading to a safer and more efficient treatment of current injuries and diseases.

Published

2019

44. Evaluation of the awareness of novel advanced therapies among family medicine residents in Spain

Author

Fernando Campos, Jesús Chato-Astrain, Miguel Sola, Miguel Alaminos, Ingrid Garzón, Óscar-Darío García-García, Carmen Sanchez-Quevedo, MA Martín-Piedra, and Víctor Carriel

Subjects

Questionnaires, Male, 0301 basic medicine, Medical Doctors, Physiology, Health Care Providers, Endocrinology, 0302 clinical medicine, Surveys and Questionnaires, Medicine and Health Sciences, Medical Personnel, 030212 general & internal medicine, media_common, Multidisciplinary, Stem Cell Therapy, Cognition, Gene Therapy, Awareness, Preference, Professions, Health Education and Awareness, Feeling, Research Design, Medicine, Female, Curriculum, Family Practice, Psychology, Research Article, Adult, medicine.medical_specialty, Drug Research and Development, Patients, Science, media_common.quotation_subject, MEDLINE, Research and Analysis Methods, 03 medical and health sciences, Physicians, Growth Factors, Perception, medicine, Humans, Clinical Trials, Molecular Biology Techniques, Molecular Biology, Clinical Genetics, Pharmacology, Survey Research, Endocrine Physiology, Biology and Life Sciences, Internship and Residency, Residency program, Health Care, Clinical trial, 030104 developmental biology, Spain, Family medicine, People and Places, Population Groupings, Clinical Medicine

Abstract

Advanced therapies are increasingly demanded by patients with the intent of treating some incurable conditions. Because family medicine professionals play an important role as health educators, their residency programs should incorporate new knowledge related to advanced therapies. To successfully implement these programs, how family medicine residents perceive these therapies should be investigated. The main components of perception, i.e. conceptual, procedural and attitudinal, refer to knowledge, skills and feelings, respectively. We designed a specific questionnaire to assess the components of perceptions of advanced therapies in 300 medical residents enrolled in the Spanish National Family Medicine Residency Program. Each component consisted of 4 or 5 topics and each topic contained 6 items. Respondents scored highest in the procedural component (average 4.12±1.00), followed by the attitudinal (3.94±1.07) and conceptual component (3.04±1.43). Differences among the three components were statistically significant (p, This work was supported by CTS-115 (Tissue Engineering Group), Junta de Andalucia.

Published

2019

45. Effective use of mesenchymal stem cells in human skin substitutes generated by tissue engineering

Author

Miguel Angel Martin-Piedra, Ingrid Garzón, Camilo Andrés Alfonso-Rodríguez, María del Carmen Sánchez-Quevedo, Jesús Chato-Astrain, Miguel Alaminos, Fernando Campos, Daniel Durand-Herrera, and A Zapater

Subjects

lcsh:Diseases of the musculoskeletal system, 0206 medical engineering, lcsh:Surgery, Mice, Nude, Human skin, 02 engineering and technology, Filaggrin Proteins, Biology, Regenerative medicine, Tissue engineering, HLA Antigens, Dental pulp stem cells, bioartificial skin, Animals, Humans, Skin, Artificial, Tissue Engineering, integumentary system, Regeneration (biology), Mesenchymal stem cell, regenerative medicine, Bone Marrow Stem Cell, Epithelial Cells, Mesenchymal Stem Cells, lcsh:RD1-811, Dermis, 020601 biomedical engineering, Extracellular Matrix, Cell biology, Bioartificial skin, Gene Expression Regulation, Mesenchymal stem cells, lcsh:RC925-935, Stem cell, Biomarkers

Abstract

Mesenchymal stem cells (MSCs) can differentiate toward epithelial cells and may be used as an alternative source for generation of heterotypical artificial human skin substitutes, thus, enhancing their development and translation potential to the clinic. The present study aimed at comparing four types of heterotypical human bioengineered skin generated using MSCs as an alternative epithelial cell source. Adipose-tissue-derived stem cells (ADSCs), dental pulp stem cells (DPSCs), Wharton’s jelly stem cells (WJSCs) and bone marrow stem cells (BMSCs) were used for epidermal regeneration on top of dermal skin substitutes. Heterotypic human skin substitutes were evaluated before and after implantation in immune-deficient athymic mice for 30 d. Histological and genetic studies were performed to evaluate extracellular matrix synthesis, epidermal differentiation and human leukocyte antigen (HLA) molecule expression. The four cell types differentiated into keratinocytes, as shown by the expression of cytokeratin 10 and filaggrin 30 d post-grafting; also, they induced dermal fibroblasts responsible for the synthesis of extracellular fibrillar and non-fibrillar components, in a similar way among each other. WJSCs and BMSCs showed higher expression of cytokeratin 10 and filaggrin, suggesting these cells were more prone to epidermal regeneration. The absence of HLA molecules, even when the epithelial layer was differentiated, supports the future clinical use of these substitutes – especially ADSCs, DPSCs and WJSCs – with low rejection risk. MSCs allowed the generation of bioengineered human skin substitutes with potential clinical usefulness. According to their epidermal differentiation potential and lack of HLA antigens, WJSCs should preferentially be used., Spanish Ministry of Economy and Competitiveness (Instituto de Salud Carlos III), FIS PI15/2048 (co-financed by ERDF-FEDER, European Union), award number AC17/00013 (NanoGSkin) by ISCIII thorough AES 2017 and within the EuroNanoMed framework and PE-0393-201

Published

2019

46. Identification of Cognitive and Social Framework of Tissue Engineering by Science Mapping Analysis

Author

Fernando Campos, Óscar Darío García-García, Miguel Angel Martin-Piedra, Jesús Chato-Astrain, Antonio Campos, Daniel Durand-Herrera, Jose A. Moral-Munoz, and Antonio Santisteban-Espejo

Subjects

Social framework, Engineering, Biomedical Research, 0206 medical engineering, Biomedical Engineering, Medicine (miscellaneous), Bioengineering, Cognitive structure, 02 engineering and technology, Social Environment, 03 medical and health sciences, Research Support as Topic, Humans, Cooperative Behavior, 030304 developmental biology, 0303 health sciences, Tissue Engineering, business.industry, Management science, Information Dissemination, Cornerstone, Cognition, 020601 biomedical engineering, Science mapping, Clinical Practice, Identification (biology), business

Abstract

This study evaluates the cognitive structure and social behavior of tissue engineering (TE) based on a science mapping analysis. Understanding the terms and topics that play a key role in the development of TE can help administrative authorities to better plan funding. Moreover, a better knowledge of collaborative networks in TE and the identification of potential new opportunities for collaboration may enhance synergies in scientific activities to implement future approaches to therapy.

Published

2018

47. Hyaluronidase pre-treatment enhances collagen staining in sturgeon notochord

Author

A. Irastorza-Lorenzo, Jesús Chato-Astrain, Miguel Alaminos, Fernando Campos, David Sánchez-Porras, Víctor Carriel, A. Domezáin, Óscar-Darío García-García, Daniel Durand-Herrera, and Ramón Carmona

Subjects

Pre treatment, Histoquímica, Sturgeon, Notochord, Hialuronidasa, Hyaluronidase, General Medicine, Molecular biology, Esturión, Notocorda, Picrosirius red, Staining, chemistry.chemical_compound, Picrosirius, Picrosirius-red, chemistry, Homogeneous, Collagen bundle, Collagen network, medicine, Sirius Red, Histochemical, medicine.drug

Abstract

Objective: The current study aimed to design a histological method to determine the presence and organization of the collagen network in sturgeon notochord. Methods: Serial sections of sturgeon notochord (Acipenser naccarii) were used and assigned to two different experimental groups: Hyaluronidase pre-treatment (HP) in an alcohol acid solution (1% HCl in 70% alcohol solution) for 15 min and hyaluronidase solution in a 2 µg/ ml concentration (pre-heated at 37º C), and control (CTR) group, without pre-treatment. Then, the ECM was assessed by two histochemical methods: Picrosirius Red (PR) staining for 30 min with Sirius red (0.1% of Sirius red in saturated aqueous picric acid), for collagen bundle staining, and Alcian Blue (AB) staining for glycosaminoglycans detection. Results: Samples analyzed in this study showed positive histochemical reaction for collagen fibers in both experimental groups. Referring to PR staining, the CTR group presented a larger and homogeneous reaction was observed in the entire samples, whereas HP group presented a more definite and intense pattern of collagen network. Also, this more intense signal in HP group matched with an increase of birefringence in polarized microscopy images of PR. However, HP group showed a lower intense and more heterogeneous signal when was compared with CTR group in AB staining. Conclusion: Using a simple histological example, our study illustrates the capability of a hyaluronidase pre-treatment to enhance picrosirius red staining in sturgeon notochord trough light and polarized microscopy., Objetivo: El presente estudio tiene por objetivo diseñar un método histológico para determinar la presencia y organización de la red de colágeno en la notocorda del esturión. Métodos: Secciones seriada de la notocorda de esturión (Acipenser naccarii) fueron utilizadas y se asignaron a dos grupos experimentales diferentes: pretratamiento de hialuronidasa (HP) en una solución de alcohol ácido (HCl al 1% en solución de alcohol al 70%) durante 15 minutos y posteriormente a una solución de hialuronidasa en una concentración de 2 μg / ml (precalentada a 37º C) y grupo de control (CTR), sin tratamiento previo. Luego, la ECM se evaluó mediante dos métodos histoquímicos: tinción Picrosirius Red (PR) durante 30 minutos con rojo Sirio (0,1% de rojo Sirio en una solución saturada de ácido pícrico), para la tinción de colágeno; y tinción con Alcian Blue (AB) para detección de glicosaminoglicanos. Resultados: Las muestras analizadas en este estudio mostraron una reacción histoquímica positiva para las fibras de colágeno en ambos grupos experimentales. Con respecto a la tinción PR, el grupo CTR presentó una reacción mayor y más homogénea en toda la superficie de las muestras, mientras que el grupo HP presentó un patrón red de colágeno más definido e intenso. Además, esta señal más intensa en el grupo HP coincidió con un aumento de la birrefringencia en las imágenes de microscopía polarizada de PR. Sin embargo, el grupo HP mostró una señal menos intensa y más heterogénea cuando se comparó con el grupo CTR en la tinción AB. Conclusión: Utilizando un ejemplo histológico simple, nuestro estudio ilustra la capacidad de un pretratamiento de hialuronidasa para mejorar la tinción de picrosirius en la notocorda del esturión a través de la luz y la microscopía polarizada.

Published

2018

48. The IS2 Element Improves Transcription Efficiency of Integration-Deficient Lentiviral Vector Episomes

Author

Per Anderson, Francisco Martin, Karim Benabdellah, Sabina Sánchez-Hernández, Laura Sánchez, Alejandra Gutierrez-Guerrero, Ana Belén Carrillo-Gálvez, Sandra Rodriguez-Perales, Jesús Chato-Astrain, Jose L. Garcia-Perez, Rocio Martin-Guerra, María Tristán-Manzano, Marina Cortijo-Gutiérrez, Pedro J. Real, Rosa Montes, Ricardo Fernández-Valadés, Instituto de Salud Carlos III, Unión Europea. Fondo Europeo de Desarrollo Regional (FEDER/ERDF), Ministerio de Ciencia e Innovación (España), and European Research Council

Subjects

0301 basic medicine, Cell type, HS4 insulator, Transgene, Genetic enhancement, lcsh:RM1-950, Biology, Scaffold or matrix attachment regions, Viral vector, Cell biology, 03 medical and health sciences, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, Histone, Gene therapy, Cell culture, Drug Discovery, biology.protein, Molecular Medicine, IDLV, Lentiviral vector, Progenitor cell, Induced pluripotent stem cell

Abstract

Integration-defective lentiviral vectors (IDLVs) have become an important alternative tool for gene therapy applications and basic research. Unfortunately, IDLVs show lower transgene expression as compared to their integrating counterparts. In this study, we aimed to improve the expression levels of IDLVs by inserting the IS2 element, which harbors SARs and HS4 sequences, into their LTRs (SE-IS2-IDLVs). Contrary to our expectations, the presence of the IS2 element did not abrogate epigenetic silencing by histone deacetylases. In addition, the IS2 element reduced episome levels in IDLV-transduced cells. Interestingly, despite these negative effects, SE-IS2-IDLVs outperformed SE-IDLVs in terms of percentage and expression levels of the transgene in several cell lines, including neurons, neuronal progenitor cells, and induced pluripotent stem cells. We estimated that the IS2 element enhances the transcriptional activity of IDLV LTR circles 6- to 7-fold. The final effect the IS2 element in IDLVs will greatly depend on the target cell and the balance between the negative versus the positive effects of the IS2 element in each cell type. The better performance of SE-IS2-IDLVs was not due to improved stability or differences in the proportions of 1-LTR versus 2-LTR circles but probably to a re-positioning of IS2-episomes into transcriptionally active regions. This study is financed by the ISCIII Health Research Fund (Spain)and the European Regional Development Fund (FEDER) throughresearch grants PI12/01097 and PI15/02015 (F.M.) and CD09/0020,PI15/00794, and CPII15/00032 (P.A.); the ISCIII Cellular TherapyNetwork (TerCel, RD12/0019/0006) (F.M.); a Juan de la Cierva fellowship (JCI_2012_12666; to R.M.); the CICE and CS of the Juntade Andalucía FEDER/European Cohesion Fund (FSE) for Andalucía2007-2013 through research grants P09-CTS-04532, PI-57069, PI-0001/2009, and PAIDI-Bio-326 (F.M.) and PI-0160/2012 and PI-0014-2016 (K.B.);the Ministerio de Economía, Industria y competi-tividad through research grant SAF2017-89745-R (J.L.G.-P.); aRYC contract. (RYC-2015-18382; to P/J.R.); an FPU fellowship(FPU16/05467; to M.T.-M.); a PEJ contract (PEJ-2014-A-46314; to A.B.C.-G. and PEJ-2014-A-17105 S.S.-H.); the European Research (ERC-Consolidator ERC-STG-2012-233764); and a privatedonation from Ms. Francisca Serrano (Trading y Bolsa para Torpes,Granada, Spain).We also wish to tand a private donation from Ms. Francisca Serrano (Trading y Bolsa para Torpes, Granada, Spain).We also wish to thank Michael O’Shea for proofreading the article. J.L.G.-P’s lab is supported by MINECO-FEDER (SAF2017-89745-R). Sí

Published

2018

49. Scleral surgical repair through the use of nanostructured fibrin/agarose-based films in rabbits

Author

Indalecio Sánchez-Montesinos, Jesús Chato-Astrain, Gerson Vizcaíno-López, Fernando Campos, Miguel Alaminos, Antonio Campos, Daniel Durand-Herrera, and Víctor Carriel

Subjects

Male, 0301 basic medicine, Biocompatible Materials, Fibrin Tissue Adhesive, Fibrin, 03 medical and health sciences, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Eye Injuries, 0302 clinical medicine, Tissue engineering, In vivo, medicine, Animals, Surgical repair, Loose connective tissue, biology, business.industry, Sepharose, Sensory Systems, Nanostructures, Sclera, Ophthalmology, 030104 developmental biology, medicine.anatomical_structure, chemistry, Self-healing hydrogels, 030221 ophthalmology & optometry, biology.protein, Genipin, Rabbits, business, Biomedical engineering

Abstract

Scleral defects can result as a consequence of trauma, infectious diseases or cancer and surgical repair with allogeneic scleral grafts can be required. However, this method has limitations and novel alternatives are needed. Here, the efficacy of acellular nanostructured fibrin-agarose hydrogel-based substitutes (NFAH) in the repair of scleral defects in rabbits was studied. For this, scleral defects of 5-mm diameter were made on 18 adult-male New Zealand rabbits and repaired with acellular NFAH, NFAH crosslinked with genipin (NFAH-GP) or glutaraldehyde (NFAH-GA), allogeneic scleral grafts as control (C-CTR) or not repaired (negative control N-CTR) (n = 3 each). Macroscopic and histological analyses were performed after 40-days. Macroscopy confirmed the repair of all defects in a comparable manner than the C-CTR. Histology showed no degradation nor integration in C-CTR while NFAH-GP and NFAH-GA biomaterials were encapsulated by connective and inflammatory tissues with partial biodegradation. The NFAH were fully biodegraded and replaced by a loose connective tissue and sclera covering the defects. This in vivo study demonstrated that the NFAH are a promising biocompatible and pro-regenerative alternative to the use of allogeneic cadaveric grafts. However, large defects and long-term studies are needed to demonstrate the potential clinical usefulness of these substitutes.

Published

2019