Comparison of two obturation techniques on adhesion and proliferation of human periodontal ligament fibroblasts / Comparación de la adhesión y proliferación de fibroblastos periodontales humanos en dos técnicas de obturación endodóntica

The present study aimed to compare the adhesion and proliferation of human periodontal ligament fibroblasts (hPDL) in transverse sections of the teeth sealed with two different obturation techniques, BioRoot RCS/hydraulic obturation (HO) and AH-Plus/continuous-wave condensation (CWC). The techniques were tested using an in vitro model to simulate the interaction between periodontal tissues and the materials. The root canals were instrumented and sterilized. A total of 15 samples were obturated with BioRoot RCS/HO and 15 samples with AH-Plus/CWC. Then, roots were sectioned to obtain obturated teeth slices, and hPDL cells were seeded onto the root slices. The results were obtained at intervals of 4 and 24h for cell adhesion; and at 3,7,14, and 21 days for cell proliferation. Empty cell culture plates were use as controls. The cell adhesion was increased at 4 and 24h for both groups, with an increased response observed in the BioRoot RCS/HO group (p<0.05). The difference in cell proliferation was also found between experimental groups. After 14 days of culture, BioRoot RCS/HO group showed an increase response than control and AH-Plus/CWC groups (p<0.05), and after 21 days both groups behaved better than control group, with an increased response observed in the BioRoot RCS/HO group. This study demonstrated that both root canal sealers allow the attach and growth of periodontal ligament fibroblasts, with an increased biological response in the BioRoot RCS/HO group.

El presente estudio se enfocó en comparar la adhesión y proliferación de fibroblastos de ligamento periodontal humano (hPDL) en secciones transversales de raíces previamente obturadas con dos técnicas de obturación diferentes: obturación hidráulica empleando cono único de gutapercha y BioRoot RCS como sellador (HO), y obturación de condensación de onda continua y AH-Plus como sellador (CWC). Los selladores se usaron en un modelo in vitro que simula la interacción entre los tejidos periodontales y los materiales de obturación. Los conductos radiculares fueron instrumentados, esterilizados y obturados. La muestra se compuso de un total de 15 raíces con la técnica BioRoot RCS/HO y 15 raíces con la técnica AH-Plus/CWC. Las células de hPDL fueron sembradas en condiciones estándar de cultivo sobre las raíces seccionadas. Los resultados fueron obtenidos a intervalos de 4 y 24h para adhesión celular, y a los 3,5,7,14 y 21 días de cultivo para proliferación celular. La adhesión celular a las 4 y 24 horas mostró ser diferente para ambas técnicas en comparación con el grupo control, siendo más importante en el grupo BioRoot RCS/HO. La diferencia en la proliferación entre grupos se observó a los 14 días de cultivo, únicamente para el grupo BioRoot RCS/HO; Sin embargo para el día 21 ambas técnicas mostraron mayor proliferación celular que el grupo control, con mejor respuesta para el grupo BioRoot RCS/HO. Este estudio ha demostrado que ambos selladores de conductos permiten la adhesión y crecimiento de fibroblastos de ligamento periodontal, siendo el grupo BioRoot RCS/HO el que mostró mayor biocompatibilidad.

Silicato Tricálcico en Endodoncia Compleja

RESUMEN: En casos complejos como el que se presenta, es necesario detallar cada una de las dificultades que se debe sortear, para brindar al diente la posibilidad de seguir formando parte del sistema estomatognático. Para planificar un tratamiento endodóntico integral es necesario evidenciar la complejidad de los diferentes ítems: desde el retiro del instrumento separado en el conducto distal, la localización del conducto mesiolingual parcialmente calcificado, la desobturación del conducto mesiobucal, el sellado de la perforación en la zona de la furcación y la limpieza exhaustiva del sistema de conductos radiculares, así, se le entrega a la biología, el tiempo necesario para reaccionar y reparar las lesiones osteolíticas presentes tanto a nivel de la furcación como en apical en ambas raíces; para, por último, rehabilitar el diente devolviéndole su funcionalidad y estética. En este caso clínico, se aprecia la perforación en la zona de la furcación, a nivel de la cresta ósea en el tercio corono radicular. Cuanto mayor es el tamaño de la perforación menor posibilidad de éxito. En la actualidad, con el empleo de los nuevos biomateriales de obturación y sellado endodóntico, como los cementos biocerámicos de última generación, se logra mejorar los aspectos clínicos, mecánicos y biológicos, con la posibilidad de realizar procedimientos que antes eran impensados, mejorando así su pronóstico.

ABSTRACT: In cases as complex as the one that is presented, it is necessary to detail each of the difficulties that must be overcome, to give the tooth the possibility of continuing to form part of the stomatognathic system. To plan a comprehensive endodontic treatment, it will be necessary to demonstrate the complexity of the different items present: from the removal of the file separated from the distal canal, the location of the calcified mesiolingual canal, the deobturation of the mesiobuccal canal, the sealing of the perforation in the area of the furcation, up to the exhaustive cleaning of the root canal system, are important to give biology the time necessary to repair the osteolytic lesions present both at the level of the furcation and apically in both roots; to finally rehabilitate the tooth, restoring its functionality and aesthetics.In this particular case, the perforation can be seen in the furcation area, at the level of the bone crest in the Root crown third. The larger the piercing, the less success is expected of the treatment. Thanks to the use of technologies applied to obtain new endodontic filling and sealing materials such as the latest generation of bioceramic cements, clinical, mechanical and biological aspects are improved, providing the possibility of performing procedures that were previously unthinkable, thus improving prognosis.

Retreatment Efficacy of Endodontic Bioceramic Sealers: A Review of the Literature / Eficacia del retratamiento de cementos endodónticos biocerámicos: Revisión de Literatura

Abstract The endodontic retreatment is a feasible solution when post-operative apical periodontitis persists or develops. The complete removal of the filling materials is important in order to ensure the unobstructed contact of the intracanal disinfectants with the microbes. As a new generation of bioceramic endodontic sealers has emerged, their removal efficacy from the root canal system during retreatment is a matter of concern among clinicians. The aim of this article is to provide a comprehensive review of the current literature on the retreatability of these novel obturating materials. A significant amount of bioceramic sealer remnants in the root canal walls was observed in all studies. Even though canal cleanliness could not be obtained at an ideal level, the re-establishment of the working length and patency can be considered manageable and comparable to other endodontic sealers.

Resumen El retratamiento endodóntico es una solución factible cuando la periodontitis apical post-operatoria persiste o se desarrolla. La eliminación completa de los materiales obturadores es importante para garantizar el contacto y acción de los desinfectantes e irrigantes endodónticos con los microorganismos persistentes. A medida que ha surgido una nueva generación de selladores endodónticos biocerámicos, su eficacia de eliminación del sistema de conductos radiculares durante el retratamiento es motivo de preocupación entre los profesionales. El objetivo de este artículo es proporcionar una revisión exhaustiva de la literatura actual sobre la influencia o posibles limitantes del uso de este tipo de cementos bioactivos durante el retratamiento endodóntico. Los estudios determinaron una cantidad significativa de restos de selladores biocerámicos en las paredes del conducto radicular. Aunque la limpieza del canal no se pudo obtener a un nivel "ideal", el restablecimiento de la longitud de trabajo y la permeabilidad se puede considerar manejable y comparable a otros selladores endodónticos.

BioRoot inlay: An innovative technique in teeth with wide open apex

This article reports an innovative technique in the treatment of a central incisor with a wide open apex and parallel dentinal walls. Root canal treatment was initiated, and calcium hydroxide intracanal medicament was placed in the canal for a month. The intracanal medicament was removed by instrumentation and irrigation with 3% sodium hypochlorite and 17% ethylenediaminetetraacetic acid. A light body impression of the root canal space was made and replicated the three-dimensional root canal space in a putty impression. Mineral trioxide aggregate (MTA) was condensed into the impression and allowed to set for 24 h in the presence of moisture to obtain a BioRoot inlay. This BioRoot inlay was cemented into the canal. Follow-up of every 6 months for 4 years revealed clinically asymptomatic and satisfactory healing of periapical lesion.

Elaboración de un biodiente: enfoque actual y desafíos / Making a Bio-tooth: Current Approaches and Challenges

Antecedentes: El edentulismo es uno de los mayores problemas de salud oral que cause alteraciones fisiológicas, sociales, estéticas, fonéticas y nutricionales. Las terapias actuales para el remplazo dental son artificiales y no satisfacen los requisitos básicos de un diente natural. La bioingeniería de tejidos constituye una alternativa para la sustitución de dientes perdidos. Objetivo: Identificar los enfoques/técnicas disponibles actualmente para obtener un diente completo por bioingeniería (biodiente), así como puntualizar sus desafíos y perspectivas futuras. Métodos: Se realizó una revisión integrativa de la literatura, por medio de las siguientes palabras clave: biodiente, bioingeniería de tejidos, diente entero y células madre. Los años de la búsqueda fueron 2000-2018, en las bases de datos: PubMed, Scopus, EBSCO, Science Direct, Wiley Online Library, Lilacs y Google Académico/Scholar, en inglés y español. Se seleccionaron únicamente artículos y libros de mayor relevancia y pertinencia. Resultados: Se obtuvieron 53 artículos y 10 libros. Para la elaboración de un biodiente se emplean los siguientes métodos: andamios, sin andamios, células madre pluripotentes inducidas, germen de órganos, diente quimérico y estimulación de la formación de la tercera dentición. El tamaño y forma normales del diente, así como la obtención de células epiteliales, son los principales desafíos. Conclusiones: La posibilidad de crear y desarrollar un biodiente en un ambiente oral adulto es cada vez más real gracias a los avances biotecnológicos que ocurren diariamente. Es posible que estos conceptos sean la base de la odontología restauradora en un futuro próximo.

Background: Edentulism is one of the major oral health problems that cause physiological, social, aesthetic, phonetic, and nutritional issues. Current therapies for dental replacement are artificial and do not satisfy the basic requirements of a natural tooth. Tissue bioengineering could be a viable alternative to substitute lost teeth. Objective: To identify current available approaches/techniques to obtain a complete bioengineered tooth (bio-tooth) and to point out future challenges and perspectives. Methods: This was an integrative literature review. Search keywords used were: bio-tooth, tissue bioengineering, whole tooth, stem cells. The search included the years 2000 through 2018, using the databases PubMed, Scopus, EBSCO, Science Direct, Wiley Online Library, Lilacs and Google Scholar, both in English and Spanish. Only relevant and pertinent articles and books were selected. Results: 53 articles and 10 books were obtained. Methods for bio-tooth generation found were: scaffolds, scaffold-free, induced pluripotent stem cells, tooth organ germ, chimeric tooth, and stimulation of third dentition formation. Achieving normal tooth size and shape and obtaining epithelial cells are the main challenges. Conclusions: The possibility of creating and developing a whole bioengineered tooth (bio-tooth) in an adult oral environment is becoming more realistic, considering the daily biotechnological advances. It is possible that these concepts will be the basis of restorative dentistry in a near future.

The key factors which affect the bio-root regeneration / 中华口腔医学杂志

The morbidity of tooth missing is the highest one among all the human organ diseases. The present restorations used in clinic, including fixed bridges, removable dentures and implant prosthetics, all exhibit their own defects, and hardly to restore the whole tooth structure and function. With the development of stem cells and tissue engineering, as an alternative, tooth regeneration, aiming at the generation of a structure like nature tooth, will be the therapeutic orientation to restore the lost tooth. The dental root, which supports the crown and occlusal force, is the fundamental part for tooth function. Based on the theory of tissue engineering, bio-roots were successfully generated by using mesenchymal stem cells (MSC) in miniature pigs. But the success rate of bio-root is not too high, is urgent to be improved for future clinic application. MSC mediated bio-root regeneration is depended on the dentinogenic differentiation regulation of MSC. Up to now, many factors affect the directed differentiation of MSC and further for the success rate of bio-root, including seeding cells, scaffold, growth factors and microenvironmental niche, etc. Microenvironmental niche is the key factor for affecting the MSC characteristics and special tissue regeneration. Basically, the bio-root is regenerated in jaw, while the jaw microenvironmental niche is prone to induce MSC for osteogenic differentiation, instead of dentinogenic differentiation. How to improve the dentinogenic differentiation of MSC in jaw microenvironmental niche is the key issue for increasing the success rate of bio-root.

Stem Cells: A Step Ahead in Regenerative Dentistry with Accent on Orthodontics.

Stem cells are undifferentiated cells that can give rise to different cell types for performing several specialized functions or remain undifferentiated. They have provided an upfront in various fields of dentistry. In Orthodontics, they provide a step ahead in the field of craniofacial research and development. This article provides an insight into the various aspects of stem cells including their advantages, disadvantages and future perspectives.