PLLA/GO Scaffolds Filled with Canine Placenta Hydrogel and Mesenchymal Stem Cells for Bone Repair in Goat Mandibles
Bone defects in animals can arise from various causes, including diseases, neoplasms, and most commonly, trauma. Comminuted fractures that exceed the critical size may heal poorly due to deficient or interrupted vascularization, resulting in an insufficient number of progenitor cells necessary for b...
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| Published in | Journal of functional biomaterials Vol. 15; no. 10; p. 311 |
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| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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20.10.2024
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| Abstract | Bone defects in animals can arise from various causes, including diseases, neoplasms, and most commonly, trauma. Comminuted fractures that exceed the critical size may heal poorly due to deficient or interrupted vascularization, resulting in an insufficient number of progenitor cells necessary for bone regeneration. In this context, 3D printing techniques using poly-L-lactic acid/graphene oxide (PLLA/GO) aim to address this issue by creating customized scaffolds combined with canine placenta hydrogel and mesenchymal stem cells for use in goat mandibles, compared to a control group using titanium plate fixation. Ten canine placentas were decellularized and characterized using histological techniques. A hydrogel derived from the canine placenta extracellular matrix (cpECM) was produced to improve cell attachment to the scaffolds. In vitro cytotoxicity and cell adhesion to the cpECM hydrogel were assessed by scanning electron microscopy (SEM). The resulting biomaterials, cpECM hydrogel and PLLA/GO scaffolds, maintained their functional structure and supported cell adhesion, maintenance, and proliferation in vitro. Thermography showed that PLLA/GO scaffolds with cpECM hydrogel performed effectively, similar to the control group. Computed tomography scans revealed bone calluses, suggesting an ongoing repair process. These findings demonstrate the innovative technological potential of these materials for use in surgical interventions. Future studies on PLLA/GO scaffolds will provide further insights into their effects on goat models. |
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| AbstractList | Bone defects in animals can arise from various causes, including diseases, neoplasms, and most commonly, trauma. Comminuted fractures that exceed the critical size may heal poorly due to deficient or interrupted vascularization, resulting in an insufficient number of progenitor cells necessary for bone regeneration. In this context, 3D printing techniques using poly-L-lactic acid/graphene oxide (PLLA/GO) aim to address this issue by creating customized scaffolds combined with canine placenta hydrogel and mesenchymal stem cells for use in goat mandibles, compared to a control group using titanium plate fixation. Ten canine placentas were decellularized and characterized using histological techniques. A hydrogel derived from the canine placenta extracellular matrix (cpECM) was produced to improve cell attachment to the scaffolds. In vitro cytotoxicity and cell adhesion to the cpECM hydrogel were assessed by scanning electron microscopy (SEM). The resulting biomaterials, cpECM hydrogel and PLLA/GO scaffolds, maintained their functional structure and supported cell adhesion, maintenance, and proliferation in vitro. Thermography showed that PLLA/GO scaffolds with cpECM hydrogel performed effectively, similar to the control group. Computed tomography scans revealed bone calluses, suggesting an ongoing repair process. These findings demonstrate the innovative technological potential of these materials for use in surgical interventions. Future studies on PLLA/GO scaffolds will provide further insights into their effects on goat models. Bone defects in animals can arise from various causes, including diseases, neoplasms, and most commonly, trauma. Comminuted fractures that exceed the critical size may heal poorly due to deficient or interrupted vascularization, resulting in an insufficient number of progenitor cells necessary for bone regeneration. In this context, 3D printing techniques using poly-L-lactic acid/graphene oxide (PLLA/GO) aim to address this issue by creating customized scaffolds combined with canine placenta hydrogel and mesenchymal stem cells for use in goat mandibles, compared to a control group using titanium plate fixation. Ten canine placentas were decellularized and characterized using histological techniques. A hydrogel derived from the canine placenta extracellular matrix (cpECM) was produced to improve cell attachment to the scaffolds. In vitro cytotoxicity and cell adhesion to the cpECM hydrogel were assessed by scanning electron microscopy (SEM). The resulting biomaterials, cpECM hydrogel and PLLA/GO scaffolds, maintained their functional structure and supported cell adhesion, maintenance, and proliferation in vitro. Thermography showed that PLLA/GO scaffolds with cpECM hydrogel performed effectively, similar to the control group. Computed tomography scans revealed bone calluses, suggesting an ongoing repair process. These findings demonstrate the innovative technological potential of these materials for use in surgical interventions. Future studies on PLLA/GO scaffolds will provide further insights into their effects on goat models.Bone defects in animals can arise from various causes, including diseases, neoplasms, and most commonly, trauma. Comminuted fractures that exceed the critical size may heal poorly due to deficient or interrupted vascularization, resulting in an insufficient number of progenitor cells necessary for bone regeneration. In this context, 3D printing techniques using poly-L-lactic acid/graphene oxide (PLLA/GO) aim to address this issue by creating customized scaffolds combined with canine placenta hydrogel and mesenchymal stem cells for use in goat mandibles, compared to a control group using titanium plate fixation. Ten canine placentas were decellularized and characterized using histological techniques. A hydrogel derived from the canine placenta extracellular matrix (cpECM) was produced to improve cell attachment to the scaffolds. In vitro cytotoxicity and cell adhesion to the cpECM hydrogel were assessed by scanning electron microscopy (SEM). The resulting biomaterials, cpECM hydrogel and PLLA/GO scaffolds, maintained their functional structure and supported cell adhesion, maintenance, and proliferation in vitro. Thermography showed that PLLA/GO scaffolds with cpECM hydrogel performed effectively, similar to the control group. Computed tomography scans revealed bone calluses, suggesting an ongoing repair process. These findings demonstrate the innovative technological potential of these materials for use in surgical interventions. Future studies on PLLA/GO scaffolds will provide further insights into their effects on goat models. |
| Author | da Silva-Júnior, Leandro Norberto Canola, Paulo Alescio de Oliveira, Fabrício Singaretti Santos-Silva, Thamires Queiroz, Andrea Barros Piazzon S Araujo, Michelle Silva Horvath-Pereira, Bianca de Oliveira Soares, Marcelo Melo Viana, Inácio Silva Dias, Luís Gustavo Gosuen G Miglino, Maria Angelica |
| AuthorAffiliation | 2 Department of Veterinary Clinic and Surgery, School of Agricultural and Veterinary Sciences, São Paulo State University, Jaboticabal Campus 14884-900, SP, Brazil; inacio.viana@unesp.br (I.S.V.); paulo.canola@unesp.br (P.A.C.); gustavo.gosuen@unesp.br (L.G.G.G.D.) 5 Department of Animal Anatomy, University of Marilia, Mirante, Marília 17525-902, SP, Brazil 4 Institute of Orofacial Osteogenesis Rehabilitation S/S Ltda., Vila Olímpia 04532-060, SP, Brazil; marcelomelo61@gmail.com 1 Department of Surgery, School of Veterinary Medicine and Animal Science, University of São Paulo, São Paulo 05508-270, SP, Brazil; thamiresssilva@usp.br (T.S.-S.); horvath@usp.br (B.d.O.H.-P.); leandronorberto@unimar.br (L.N.d.S.-J.); msa.vet@hotmail.com (M.S.A.) 3 Department of Animal Morphology and Physiology, School of Agricultural and Veterinary Sciences, São Paulo State University, Jaboticabal Campus 14884-900, SP, Brazil; andrea.queiroz@unesp.br (A.B.P.S.Q.); fabricio.singaretti@unesp.br (F.S.d.O.) |
| AuthorAffiliation_xml | – name: 2 Department of Veterinary Clinic and Surgery, School of Agricultural and Veterinary Sciences, São Paulo State University, Jaboticabal Campus 14884-900, SP, Brazil; inacio.viana@unesp.br (I.S.V.); paulo.canola@unesp.br (P.A.C.); gustavo.gosuen@unesp.br (L.G.G.G.D.) – name: 3 Department of Animal Morphology and Physiology, School of Agricultural and Veterinary Sciences, São Paulo State University, Jaboticabal Campus 14884-900, SP, Brazil; andrea.queiroz@unesp.br (A.B.P.S.Q.); fabricio.singaretti@unesp.br (F.S.d.O.) – name: 4 Institute of Orofacial Osteogenesis Rehabilitation S/S Ltda., Vila Olímpia 04532-060, SP, Brazil; marcelomelo61@gmail.com – name: 1 Department of Surgery, School of Veterinary Medicine and Animal Science, University of São Paulo, São Paulo 05508-270, SP, Brazil; thamiresssilva@usp.br (T.S.-S.); horvath@usp.br (B.d.O.H.-P.); leandronorberto@unimar.br (L.N.d.S.-J.); msa.vet@hotmail.com (M.S.A.) – name: 5 Department of Animal Anatomy, University of Marilia, Mirante, Marília 17525-902, SP, Brazil |
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| SubjectTerms | Adhesion Animals Biocompatibility Biomaterials Biomedical materials Bone biomaterials bone defect Bone growth Bone healing Cell adhesion Cell size Computed tomography computed tomography scans Cytotoxicity decellularization Electron microscopes Ethics Extracellular matrix Fractures Goats Graphene Hydrogels Mandible Mechanical properties Medical innovations Mesenchymal stem cells Metal plates Neoplasms Osteoprogenitor cells Placenta Polylactic acid Progenitor cells Regeneration Regeneration (physiology) Scaffolds Scanning electron microscopy Stem cells Surgical equipment Thermography Three dimensional printing Tissue engineering Vascularization |
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| Title | PLLA/GO Scaffolds Filled with Canine Placenta Hydrogel and Mesenchymal Stem Cells for Bone Repair in Goat Mandibles |
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