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1.
Int J Mol Sci ; 23(21)2022 Nov 02.
Article in English | MEDLINE | ID: mdl-36362167

ABSTRACT

Bone defects have prompted the development of biomaterial-based bone substitutes for restoring the affected tissue completely. Although many biomaterials have been designed and evaluated, the combination of properties required in a biomaterial for bone tissue engineering still poses a challenge. In this study, a chitosan-silica-based biocomposite was synthetized, and its physicochemical characteristics and biocompatibility were characterized, with the aim of exploring the advantages and drawbacks of its use in bone tissue engineering. Dynamic light scattering measurements showed that the mean hydrodynamic size of solid silica particles (Sol-Si) was 482 ± 3 nm. Scanning electron microscopy of the biocomposite showed that Sol-Si were homogenously distributed within the chitosan (CS) matrix. The biocomposite swelled rapidly and was observed to have no cytotoxic effect on the [3T3] cell line within 24 h. Biocompatibility was also analyzed in vivo 14 days post-implant using a murine experimental model (Wistar rats). The biocomposite was implanted in the medullary compartment of both tibiae (n = 12). Histologically, no acute inflammatory infiltrate or multinucleated giant cells associated to the biocomposite were observed, indicating good biocompatibility. At the tissue-biocomposite interface, there was new formation of woven bone tissue in close contact with the biocomposite surface (osseointegration). The new bone formation may be attributed to the action of silica. Free silica particles originating from the biocomposite were observed at the tissue-biocomposite interface. According to our results, the biocomposite may act as a template for cellular interactions and extracellular matrix formation, providing a structural support for new bone tissue formation. The CS/Sol-Si biocomposite may act as a Si reservoir, promoting new bone formation. A scaffold with these properties is essential for cell differentiation and filling a bone defect.


Subject(s)
Bone Substitutes , Chitosan , Rats , Mice , Animals , Bone Substitutes/chemistry , Tissue Engineering , Chitosan/chemistry , Silicon Dioxide/chemistry , Rats, Wistar , Biocompatible Materials/pharmacology , Biocompatible Materials/chemistry , Tissue Scaffolds/chemistry
2.
J Biomed Mater Res A ; 110(2): 331-340, 2022 02.
Article in English | MEDLINE | ID: mdl-34374221

ABSTRACT

Bone is a hierarchical material that has inspired the design of biopolymer-derived biocomposites for tissue engineering purposes. The present study sought to synthesize and perform the physicochemical characterization and biocompatibility of a collagen-silica-based biocomposite for potential application in bone tissue engineering. Ultrastructure, biodegradability, swelling behavior, and biocompatibility properties were analyzed to gain insight into the advantages and limitations to the use of this biomaterial as a bone substitute. Scanning electron microscopy analysis showed a packed-collagen fibril matrix and silica particles in the biocomposite three-dimensional structure. As shown by analysis of in vitro swelling behavior and biodegradability, it would seem that the material swelled soon after implantation and then suffered degradation. Biocompatibility properties were analyzed in vivo 14-days postimplantation using an experimental model in Wistar rats. The biocomposite was placed inside the hematopoietic bone marrow compartment of both tibiae (n = 16). Newly formed woven bone was observed in response to both materials. Unlike the pure-collagen-tissue interface, extensive areas of osseointegration were observed at the biocomposite-tissue interface, which would indicate that silica particles stimulated new bone formation. Agglomerates of finely particulate material with no inflammatory infiltrate or multinucleated giant cells were observed in the bone marrow implanted with the biocomposite. The biocomposite showed good biocompatibility properties. Further studies are necessary to evaluate their biological behavior over time.


Subject(s)
Silicon Dioxide , Tissue Engineering , Animals , Biocompatible Materials/chemistry , Biocompatible Materials/pharmacology , Bone and Bones , Collagen , Rats , Rats, Wistar , Tissue Engineering/methods
3.
J Biomater Sci Polym Ed ; 30(6): 486-499, 2019 04.
Article in English | MEDLINE | ID: mdl-30776982

ABSTRACT

High density polyethylene (HDPE) is a synthetic biomaterial used as a three-dimensional scaffold for bone defect reconstruction. Reports differ with regard to its biological response, particularly its osteoconductive capacity. The aim of the present work was to histologically and histomorphometrically evaluate tissue response to porous HDPE. An in vivo study was conducted in rat tibia to evaluate osteogenic capacity, angiogenesis, inflammatory response, and the presence of multinucleated giant cells 14 and 60 days post-biomaterial implantation. Histological examination 14 days post-implantation showed fibrovascular tissue inside pores and on the surface of porous HDPE, acute inflammatory response, scant multinucleated giant cells (MNGCs), and lamellar bone in contact with the biomaterial. An increase in the proportion of lamellar bone tissue, no inflammatory response, and a decrease in the number of MNGCs were observed at 60 days. The histomorphometric study showed a significant time-dependent increase both in the area of bone tissue formed in contact with the porous HDPE (14d: 24.450 ± 11.623 µm2 vs. 60d: 77.104 ± 26.217 µm2, p < 0.05) and in the percentage of bone tissue in contact with the porous HDPE (osseointegration). A significant decrease in the number of MNGCs was also observed at 60 days post-implantation. Porous HDPE showed adequate osteoconductive properties, and only caused an initial inflammatory response. Although this biomaterial has traditionally been used juxtaosseoulsy, its adequate osteoconductive properties broaden the scope of its application to include intraosseous placement.


Subject(s)
Biocompatible Materials/chemistry , Biocompatible Materials/pharmacology , Polyethylene/chemistry , Polyethylene/pharmacology , Tibia/drug effects , Tissue Engineering , Tissue Scaffolds/chemistry , Animals , Male , Porosity , Rats , Tibia/cytology
4.
Rev. argent. cardiol ; 86(3): 86-89, jun. 2018. graf
Article in Spanish | LILACS-Express | LILACS | ID: biblio-1003192

ABSTRACT

RESUMEN Introducción: Es conocido que la adenosina está involucrada en el mecanismo de precondicionamiento isquémico clásico, actuando a través de los receptores A1 y A3. Objetivo: El objetivo de nuestro estudio fue evaluar si el precondicionamiento isquémico remoto (rIPC) activa los receptores de adenosina A1 antes de la isquemia o en la reperfusión y, de ese modo, reduce el tamaño del infarto de miocardio. Corazones aislados de rata fueron sometidos a 30 minutos de isquemia y 60 minutos de reperfusión (I/R). En otro grupo de ratas, se realizó un protocolo de rIPC. El tamaño del infarto se midió con trifenil de tetrazolio. Resultados: El rIPC disminuyó significativamente el tamaño del infarto. Este efecto fue abolido cuando se administró DPCPX (bloqueante del receptor A1) o L-NAME (inhibidor de la síntesis de óxido nítrico) durante la reperfusión. Conclusión: Empleando un modelo de corazón aislado de rata demostramos que el rIPC reduce el tamaño del infarto de mio cardio mediante la activación del receptor A1 de adenosina al inicio de la reperfusión miocárdica. Este efecto protector también estaría mediado por la activación de la enzima óxido nítrico sintasa durante la reperfusión.

5.
Acta Odontol Latinoam ; 31(3): 164-169, 2018 Dec.
Article in English | MEDLINE | ID: mdl-30829372

ABSTRACT

The aim of this study was to evaluate thickening of the Schneiderian membrane and to determine its association with periapical pathologies, using computerized cone beam tomography. An observational, analytical, cross-sectional retrospective study was conducted. A total 179 maxillary sinuses were evaluated using CBCT. The presence of sinus membrane thickening and its association with unhealthy teeth was analyzed. Results are shown as percentages with 95% confidence intervals (95%CI); Chi square test was used with a significance level of 5%.Sinus membrane thickening was detected in 70 cases (39%; 95%CI=32% to 46%) and no sinus membrane thickening was observed in 109 (61%; 95%CI = 54% to 68%) (p<0.05). The 70 cases showing sinus membrane thickening included 46 of odontogenic origin (66%; 95%CI = 54% to 76%) and 24 (34%; 95%CI = 24% to 46%) of non odontogenic origin (p<0.05). The frequency of odontogenic causes followed a heterogeneous distribution (p<0.05): penetrating caries, failing endodontic therapy, root remnants, deep restorations, implants, periodontal pathology. The main cause was caries (46%; 95%CI=32% to 60%) followed by failing endodontic therapy (26%, 95% CI=16% to 40%). The frequency distribution of involved teeth was uneven (p<0.05), with tooth 16 (33%; 95%CI=21% to 47%) being the most frequently involved, followed by tooth 26 (30%; 95%CI=19% to 45%).The high incidence of sinus pathology of odontogenic origin shows the need for interdisciplinary work involving dentists and ear-nose-throat specialists. Caries, inadequate restorations, periodontal lesions, implants, and the presence of root remnants are the main causes of Schneiderian membrane thickening. The use of CBCT for diagnosis and treatment planning allows detecting maxillary sinus membrane thickening and determining its association with an odontogenic etiology.


El objetivo del presente trabajo fue evaluar el engrosamiento de la membrana de Schneider y determinar su asociación con patologías periapicales, mediante tomografía computarizada cone beam (CBCT). Se realizó un estudio observacional, analítico, retrospectivo y transversal. Un total de 179 senos maxilares fueron evaluados utilizando CBCT. Se analizó la presencia de engrosamiento de la membrana sinusal y su asociación con piezas dentarias sin vitalidad pulpar. Los resultados se muestran como porcentajes con intervalos de confianza del 95% (IC del 95%). Se utilizó la prueba de Chi cuadrado con un nivel de significación del 5%. Se detectó engrosamiento de la membrana sinusal en 70 casos (39%; IC del 95% = 32% a 46%) y no se observó engrosamiento de la membrana sinusal en 109 (61%; IC del 95% = 54% a 68%) (p < 0.05). Los 70 casos que mostraron engrosamiento de la membrana sinusal incluyeron 46 de origen odontogénico (66%; IC del 95% = 54% a 76%) y 24 (34%; IC del 95% = 24% a 46%) de origen no odontogénico (p <0,05). La frecuencia de las causas odontogénicas siguió una distribución heterogénea (p <0.05): caries penetrantes, tratamiento endodóntico deficiente, restos radiculares, restauraciones profundas, implantes, patología periodontal. La principal causa fue la caries (46%; IC 95% = 32% a 60%), seguida por endodoncia deficiente (26%, IC 95% = 16% a 40%). La frecuencia se distribuyó en forma heterogénea entre las distintas piezas (p<0,05). Las piezas más afectadas fueron la 16 (33%; IC95=21% a 47%) y la 26 (30%; IC95=19% a 45%). La alta incidencia de patología sinusal de origen odontogénico implica la necesidad del trabajo interdisciplinario entre odontólogos y otorrinolaringólogos. Caries, restauraciones inadecuadas, lesiones periodontales, implantes y la presencia de restos radiculares son las principales causas del engrosamiento de la membrana de Schneider. El uso de CBCT para el diagnóstico y la planificación del tratamiento permite detectar el engrosamiento de la membrana del seno maxilar y determinar su asociación con una etiología odontogénica.


Subject(s)
Cone-Beam Computed Tomography , Dental Caries/physiopathology , Nasal Mucosa/anatomy & histology , Adult , Cross-Sectional Studies , Dental Caries/complications , Dental Implantation, Endosseous, Endodontic/adverse effects , Dental Restoration, Permanent/adverse effects , Female , Humans , Male , Maxillary Sinus , Nasal Mucosa/diagnostic imaging , Nasal Mucosa/physiopathology , Retrospective Studies
6.
Acta odontol. latinoam ; 31(3): 164-169, 2018. ilus, graf
Article in English | LILACS | ID: biblio-988042

ABSTRACT

The aim of this study was to evaluate thickening of the Schneiderian membrane and to determine its association with periapical pathologies, using computerized cone beam tomo graphy. An observational, analytical, crosssectional retrospective study was conducted. A total 179 maxillary sinuses were evaluated using CBCT. The presence of sinus membrane thickening and its association with unhealthy teeth was analyzed. Results are shown as percentages with 95% confidence intervals (95%CI); Chi square test was used with a significance level of 5%. Sinus membrane thickening was detected in 70 cases (39%; 95%CI=32% to 46%) and no sinus membrane thickening was observed in 109 (61%; 95%CI =54% to 68%) (p<0.05). The 70 cases showing sinus membrane thickening included 46 of odontogenic origin (66%; 95%CI =54% to 76%) and 24 (34%; 95%CI =24% to 46%) of non odontogenic origin (p<0.05). The frequency of odontogenic causes followed a heterogeneous distribution (p<0.05): penetrating caries, failing endodontic therapy, root remnants, deep restorations, implants, periodontal pathology. The main cause was caries (46%; 95%CI=32% to 60%) followed by failing endodontic therapy (26%, 95% CI=16% to 40%). The frequency distribution of involved teeth was uneven (p<0.05), with tooth 16 (33%; 95%CI=21% to 47%) being the most frequently involved, followed by tooth 26 (30%; 95%CI=19% to 45%). The high incidence of sinus pathology of odontogenic origin shows the need for interdisciplinary work involving dentists and earnosethroat specialists. Caries, inadequate restorations, periodontal lesions, implants, and the presence of root remnants are the main causes of Schneiderian membrane thickening. The use of CBCT for diagnosis and treatment planning allows detecting maxillary sinus membrane thickening and determining its association with an odontogenic etiology (AU)


El objetivo del presente trabajo fue evaluar el engrosamiento de la membrana de Schneider y determinar su asociación con patologías periapicales, mediante tomografía computarizada cone beam (CBCT). Se realizó un estudio observacional, analítico, retrospectivo y transversal. Un total de 179 senos maxilares fueron evaluados utilizando CBCT. Se analizó la presencia de engrosamiento de la membrana sinusal y su asociación con piezas dentarias sin vitalidad pulpar. Los resultados se muestran como porcentajes con intervalos de confianza del 95% (IC del 95%). Se utilizó la prueba de Chi cuadrado con un nivel de significación del 5%. Se detectó engrosamiento de la membrana sinusal en 70 casos (39%; IC del 95% = 32% a 46%) y no se observó engrosamiento de la membrana sinusal en 109 (61%; IC del 95% = 54% a 68%) (p < 0.05). Los 70 casos que mostraron engrosamiento de la membrana sinusal incluyeron 46 de origen odontogénico (66%; IC del 95% = 54% a 76%) y 24 (34%; IC del 95% = 24% a 46%) de origen no odontogénico (p <0,05). La frecuencia de las causas odontogénicas siguió una distribución heterogénea (p <0.05): caries penetrantes, tratamiento endodóntico deficiente, restos radiculares, restauraciones profundas, implantes, patolo gía periodontal. La principal causa fue la caries (46%; IC 95% = 32% a 60%), seguida por endodoncia deficiente (26%, IC 95% = 16% a 40%). La frecuencia se distribuyó en forma heterogénea entre las distintas piezas (p<0,05). Las piezas más afectadas fueron la 16 (33%; IC95=21% a 47%) y la 26 (30%; IC95=19% a 45%). La alta incidencia de patología sinusal de origen odontogénico implica la necesidad del trabajo interdisciplinario entre odontólogos y otorrinolaringólogos. Caries, restauraciones inadecuadas, lesiones periodontales, implantes y la presencia de restos radiculares son las principales causas del engrosamiento de la membrana de Schneider. El uso de CBCT para el diagnóstico y la planificación del tratamiento permite detectar el engrosamiento de la membrana del seno maxilar y determinar su asociación con una etiología odontogénica (AU)


Subject(s)
Humans , Male , Female , Periapical Diseases , Cone-Beam Computed Tomography , Maxillary Sinus , Argentina , Chi-Square Distribution , Cross-Sectional Studies , Data Interpretation, Statistical , Retrospective Studies , Observational Study
7.
Acta Odontol Latinoam ; 28(3): 231-5, 2015 Dec.
Article in English | MEDLINE | ID: mdl-27095623

ABSTRACT

Tooth loss leads to a decrease in alveolar bone volume, and consequently to the need for guided bone regeneration (GBR) techniques to restore bone anatomy, and the adequate choice of therapy. Fascia lata membrane (FLM) has been used in surgical procedures in neurology, orthopedics, otorhinolaryngology, cardiology, vascular surgery, gynecology, and dentistry for guided tissue regeneration. The aim of the present preliminary study was to evaluate bone tissue response in rat calvarial bone defects covered with human fascia lata membrane (FLM). Eight Wistar rats, 230g body weight, were subjected to bone surgery to create a 5x5mm long/ 1mm deep calvarial bone defect on either side of the median suture, using a piezoelectric scalpel and irrigation. The animals were treated according to the following protocol: Group I (GI): placement of a single layer of FLM (Biotar, Rosario, Prov. de Santa Fe, Argentina) to cover the defects; Group II (GII): double layer of FLM to cover the defects; Group III: no membrane; Group IV: control. All the animals were euthanized 60 days post-surgery; the heads were resected, radiographed, decalcified, and processed for embedding in paraffin and Hematoxylin-Eosin and Masson's trichrome staining. All bone defects covered with a single or double layer of FLM showed adequate osteogenesis, and none exhibited an inflammatory response. Groups III and IV Control showed scant osteogenesis and no alterations in soft tissues. The results obtained with this experimental model show biocompatibility of FML with the surrounding tissues at the studied time points. No alterations were observed in osteocytic lacunae or osteocytes in the bone after osteotomy using a piezoelectric scalpel. Further studies need to be conducted to assess bone tissue response to FLM in combination with bone substitutes.


La pérdida de piezas dentarias conlleva la disminución volumétrica del hueso alveolar y la necesidad de recurrir a técnicas de regeneración ósea guiada (ROG) para restablecer las condiciones anatómicas y aplicar las terapéuticas adecuadas. La membrana de fascia lata (MFL) ha sido utilizada en intervenciones quirúrgicas del área neurológica, ortopédica, otorrinolaringológica, cardiológica, vascular, ginecológica y odontológica para regeneración tisular guiada. El objetivo de este trabajo preliminar fue evaluar la respuesta tisular de defectos óseos en calota de rata recubiertos con MFL. Se utilizaron 8 ratas Wistar de 230 gr de peso, a las que se les realizó en la calota 2 defectos óseos de 5 x 5 mm de lado por 1 mm de profundidad, con bisturí piezoeléctrico e irrigación, a ambos lados de la línea media, según técnica estandarizada. Se realizó el siguiente protocolo: Grupo I (G I): colocación de una sola capa de MFL (Biotar, Rosario, Prov. de Santa Fe, Argentina) para cubrir el defecto; Grupo II (G II): colocación de MFL en doble capa para cubrir el defecto; Grupo III (G III): sin membrana; Grupo IV (G IV): control. Se les provocó la eutanasia a los 60 días. Las calotas fueron resecadas, radiografiadas y procesadas, previa descalcificación, para su inclusión en parafina y coloración con Hematoxilina-Eosina y Tricrómico de Masson. En todos los defectos óseos recubiertos con MFL simple o doble se evidenció una adecuada osteogénesis y ausencia de respuesta inflamatoria y macrófagos. El G III y el G Sham evidenciaron escasa osteogénesis y no mostraron alteraciones en el tejido blando. La MFL en el modelo experimental utilizado evidenció una respuesta compatible con el tejido circundante en los períodos estudiados. El tejido óseo remanente a la osteotomía con bisturí piezoeléctrico presentó las lagunas osteocíticas ocupadas con osteocitos y sin alteraciones. En estudios futuros se evaluará la respuesta tisular con MFL y utilizando un sustituto óseo.


Subject(s)
Fascia Lata , Animals , Argentina , Bone Regeneration , Bone Substitutes , Guided Tissue Regeneration , Humans , Rats , Rats, Wistar , Skull
8.
Acta odontol. latinoam ; Acta odontol. latinoam;28(3): 231-235, 2015. ilus
Article in English | LILACS | ID: biblio-949697

ABSTRACT

Tooth loss leads to a decrease in alveolar bone volume, and consequently to the need for guided bone regeneration (GBR) techniques to restore bone anatomy, and the adequate choice of therapy. Fascia lata membrane (FLM) has been used in surgical procedures in neurology, orthopedics, otorhinolaryngology, cardiology, vascular surgery, gynecology, and dentistry for guided tissue regeneration. The aim of the present preliminary study was to evaluate bone tissue response in rat calvarial bone defects covered with human fascia lata membrane (FLM). Eight Wistar rats, 230g body weight, were subjected to bone surgery to create a 5x5mm long/ 1mm deep calvarial bone defect on either side of the median suture, using a piezoelectric scalpel and irrigation. The animals were treated according to the following protocol: Group I (GI): placement of a single layer of FLM (Biotar, Rosario, Prov. de Santa Fe, Argentina) to cover the defects; Group II (GII): double layer of FLM to cover the defects; Group III: no membrane; Group IV: control. All the animals were euthanized 60 days post-surgery; the heads were resected, radiographed, decalcified, and processed for embedding in paraffin and Hematoxylin-Eosin and Masson's trichrome staining. All bone defects covered with a single or double layer of FLM showed adequate osteogenesis, and none exhibited an inflammatory response. Groups III and IV Control showed scant osteogenesis and no alterations in soft tissues. The results obtained with this experimental model show biocompatibility of FML with the surrounding tissues at the studied time points. No alterations were observed in osteocytic lacunae or osteocytes in the bone after osteotomy using a piezoelectric scalpel. Further studies need to be conducted to assess bone tissue response to FLM in combination with bone substitutes.


La perdida de piezas dentarias conlleva la disminucion volumetrica del hueso alveolar y la necesidad de recurrir a tecnicas de regeneracion osea guiada (ROG) para restablecer las condiciones anatomicas y aplicar las terapeuticas adecuadas. La membrana de fascia lata (MFL) ha sido utilizada en intervenciones quirurgicas del area neurologica, ortopedica, otorrinolaringologica, cardiologica, vascular, ginecologica y odontologica para regeneracion tisular guiada. El objetivo de este trabajo preliminar fue evaluar la respuesta tisular de defectos oseos en calota de rata recubiertos con MFL. Se utilizaron 8 ratas Wistar de 230 gr de peso, a las que se les realizo en la calota 2 defectos oseos de 5 x 5 mm de lado por 1 mm de profundidad, con bisturi piezoelectrico e irrigacion, a ambos lados de la linea media, segun tecnica estandarizada. Se realizo el siguiente protocolo: Grupo I (G I): colocacion de una sola capa de MFL (Biotar, Rosario, Prov. de Santa Fe, Argentina) para cubrir el defecto; Grupo II (G II): colocacion de MFL en doble capa para cubrir el defecto; Grupo III (G III): sin membrana; Grupo IV (G IV): control. Se les provoco la eutanasia a los 60 dias. Las calotas fueron resecadas, radiografiadas y procesadas, previa descalcifica - cion, para su inclusion en parafina y coloracion con Hematoxilina-Eosina y Tricromico de Masson. En todos los defectos oseos recubiertos con MFL simple o doble se evidencio una adecuada osteogenesis y ausencia de respuesta inflamatoria y macrofagos. El G III y el G Sham evidenciaron escasa osteogenesis y no mostraron alteraciones en el tejido blando. La MFL en el modelo experimental utilizado evidencio una respuesta compatible con el tejido circundante en los periodos estudiados. El tejido oseo remanente a la osteotomia con bisturi piezoelectrico presento las lagunas osteociticas ocupadas con osteocitos y sin alteraciones. En estudios futuros se evaluara la respuesta tisular con MFL y utilizando un sustituto oseo.


Subject(s)
Animals , Humans , Rats , Fascia Lata , Argentina , Skull , Bone Regeneration , Rats, Wistar , Bone Substitutes , Guided Tissue Regeneration
9.
Acta Odontol Latinoam ; 25(3): 306-11, 2012.
Article in English | MEDLINE | ID: mdl-23798078

ABSTRACT

The dimensions of the alveolar bone surrounding the tooth are not maintained post tooth-extraction probably as a consequence of the bone remodeling process and the biomechanical demands on bone. The use of biomaterials as bone substitutes in the post-tooth-extraction socket promotes bone repair, regardless of damage to bone structures during the surgical procedures. The aim of the present study was to evaluate the effectiveness of anorganic bovine bone matrix (ABBM) as a bone substitute, in an experimental model of post-tooth extraction bone healing in the rat. Radiographic follow-up was performed at 7, 14, and 30 days, and showed persistence of the biomaterial inside the experimental alveoli. At 14 and 30 days post-tooth extraction, particles surrounded by bone tissue were observed in the middle sector of the alveoli. The osteoconductive property of ABBM was demonstrated using the present experimental model of active osteogenesis, thus showing its usefulness as a bone substitute. Persistence of the particles at the studied experimental time points did not affect post-tooth extraction bone healing.


Subject(s)
Bone Matrix , Bone Regeneration , Bone Substitutes , Tooth Socket , Animals , Cattle , Male , Models, Animal , Rats , Rats, Wistar
10.
Acta odontol. latinoam ; Acta odontol. latinoam;25(3): 306-311, 2012. ilus
Article in English | LILACS | ID: biblio-949681

ABSTRACT

The dimensions of the alveolar bone surrounding the tooth are not maintained post tooth-extraction probably as a consequence of the bone remodeling process and the biomechanical demands on bone. The use of biomaterials as bone substitutes in the post-tooth-extraction socket promotes bone repair, regardless of damage to bone structures during the surgical procedures. The aim of the present study was to evaluate the effectiveness of anorganic bovine bone matrix (ABBM) as a bone substitute, in an experimental model of post-tooth extraction bone healing in the rat. Radiographic follow-up was performed at 7, 14, and 30 days, and showed persistence of the biomaterial inside the experimental alveoli. At 14 and 30 days post-tooth extraction, particles surrounded by bone tissue were observed in the middle sector of the alveoli. The osteoconductive property of ABBM was demonstrated using the present experimental model of active osteogenesis, thus showing its usefulness as a bone substitute. Persistence of the particles at the studied experimental time points did not affect post-tooth extraction bone healing.


Las dimensiones del hueso alveolar que rodea a la pieza dentaria, no se mantienen después de la exodoncia. Este hecho seria consecuencia del proceso de remodelado óseo y del requerimiento biomecánico. La utilización de biomateriales como sustitutos óseos en los alveolos, facilitan o promueven la reparación ósea, independientemente que se haya producido traumatismo de las estructuras óseas durante la maniobra quirúrgica. El objetivo del presente estudio fue evaluar la efectividad de una matriz ósea esponjosa anorgánica (MOEA) como sustituto óseo, en un modelo experimental de reparación ósea en el alveolo post-extracción en ratas. Se realizo el estudio radiográfico en los distintos tiempos experimentales: 7, 14 y 30 dias, evidenciando la persistencia del biomaterial. A los 14 y 30 días post-exodoncia se evidenciaron las partículas rodeadas de tejido óseo en el sector medio del alveolo. Es importante destacar que la utilización de (MOEA), como sustituto óseo en el alveolo post-exodoncia de rata, evidencio su capacidad osteoconductiva. La persistencia de las partículas del biomaterial en los tiempos estudiados no interfirió en la reparación ósea.


Subject(s)
Animals , Cattle , Male , Rats , Bone Matrix , Bone Regeneration , Bone Substitutes , Tooth Socket , Rats, Wistar , Models, Animal
11.
Acta Odontol Latinoam ; 23(1): 42-6, 2010.
Article in English | MEDLINE | ID: mdl-20645642

ABSTRACT

In recent years there has been increasing interest in the choice of the best material for bone substitutes. Experimental models enable estimation of biological potential, efficacy and safety of a biomaterial before its clinical application. The aim of this study was to evaluate the response of a bone substitute, UNC bone matrix powder (MOeP-UNC), for repairing the post-extraction alveolus in Wistar rats. Rats' first lower molars were extracted. The right alveoli were filled with MOeP-UNC hydrated with physiological saline (Experimental Group, EG), and the left alveoli were used as Control Group (CG). Thirty days after extraction, the animals were killed and the samples processed. Histological sections were made in vestibular-lingual direction at the level of the mesial alveolus of the first inferior molar (Guglielmotti et al. J. Oral Maxillofac. Surg. 1985;43(5):359-364). Repair of the alveoli at 30 days after extraction was evaluated histologically. Repair of the alveolus was optimum in the control group at 30 days, and the EG showed presence of MOeP-UNC particles in close contact with newly formed bone tissue (osseointegration). In the experimental model used, at 30 days post-surgery, the MOeP-UNC particles integrate compatibly with newly formed bone tissue.


Subject(s)
Bone Substitutes , Tooth Extraction , Tooth Socket , Animals , Male , Rats , Rats, Wistar
12.
Acta odontol. latinoam ; Acta odontol. latinoam;23(1): 42-46, Apr. 2010. ilus, graf
Article in English | LILACS | ID: biblio-949635

ABSTRACT

In recent years there has been increasing interest in the choice of the best material for bone substitutes. Experimental models enable estimation of biological potential, efficacy and safety of a biomaterial before its clinical application. The aim of this study was to evaluate the response of a bone substitute, UNC bone matrix powder (MOeP-UNC), for repairing the postextraction alveolus in Wistar rats. Rats' first lower molars were extracted. The right alveoli were filled with MOeP-UNC hydrated with physiological saline (Experimental Group, EG), and the left alveoli were used as Control Group (CG). Thirty days after extraction, the animals were killed and the samples processed. Histological sections were made in vestibular- lingual direction at the level of the mesial alveolus of the first inferior molar (Guglielmotti et al. J. Oral Maxillofac. Surg. 1985;43(5):359-364). Repair of the alveoli at 30 days after extraction was evaluated histologically. Repair of the alveolus was optimum in the control group at 30 days, and the EG showed presence of MOeP-UNC particles in close contact with newly formed bone tissue (osseointegration). In the experimental model used, at 30 days post-surgery, the MOeP-UNC particles integrate compatibly with newly formed bone tissue.


En los ultimos anos se ha incrementado el interes por la eleccion del material mas adecuado como sustituto oseo. Los modelos experimentales permiten estimar el potencial biologico, la eficacia y seguridad de un biomaterial, previo a su aplicacion clinica. El objetivo del presente estudio fue evaluar la respuesta de un sustituto oseo, matriz osea-UNC en polvo (MOeP-UNC), en la reparacion alveolar post-exodoncia en ratas Wistar. Se realizo la exodoncia de los primeros molares inferiores. En los alveolos derechos se coloco MOeP-UNC hidratada con solucion fisiologica (Grupo Experimental, GE). Los alveolos izquierdos, fueron utilizados como Grupo Control (GC). A los 30 dias post-exodoncia los animales fueron sacrificados y las muestras obtenidas se procesaron, se realizaron cortes histologicos en sentido vestibulo-lingual a la altura del alveolo mesial del primer molar inferior (Guglielmotti et al. J Oral Maxillofac Surg. 1985;43(5):359-364). Se realizo la evaluacion histologica de la reparacion de los alveolos a los 30 dias post cirugia. El grupo control presento una optima reparacion alveolar a los 30 dias y en el GE se evidencio la presencia de las particulas de MOeP-UNC en intimo contacto con el tejido oseo neoformado (oseointegracion). En el modelo experimental utilizado, a los 30 dias post-cirugia las particulas MOePUNC se integran de manera compatible con el tejido oseo neoformado.


Subject(s)
Animals , Male , Rats , Tooth Extraction , Bone Substitutes , Tooth Socket , Rats, Wistar
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