ABSTRACT
Objetivo: apresentar um caso clínico de instalação de implante imediato em região de bifurcação após exodontia de molar com uma técnica de osteotomia alternativa com o preparo do sitio implantar previamente à remoção das raízes. Materiais e métodos: em dezembro de 2017, JNPS, 39 anos de idade, sexo masculino, compareceu à Faculdade de Odontologia com queixa do dente 46 fraturado sem sintomatologia dolorosa. Nos exames clínicos e radiográficos o dente 46 apresentava tratamento endodôntico, sem remanescente coronário e amplo septo inter-radicular que favorecia a instalação de implante imediato. A cirurgia ocorreu em fevereiro de 2018 com o preparo do leito do implante na região do centro do dente previamente à exodontia. Em seguida foi realizada a extração das raízes de forma minimamente traumática, visando preservar a estrutura circundante. Foi utilizado um implante Cone Morse 3,75x9mm (Titamax CM Cortical Neodent, Curitiba, Brasil). O torque final de inserção foi de 20 N/cm e foi instalado o cicatrizador para procedimento cirúrgico de 1 estágio. Após 4 meses foi instalado o pilar protético (Pilar CM Neodent, Curitiba, Brasil) com altura de 2,5 mm e nas sessões seguintes foram realizados os procedimentos para confecção de coroa metalocerâmica. Resultados: no acompanhamento de 12 meses após instalação do implante, verificou-se aspectos clínicos e radiográficos de normalidade, além de satisfação do paciente com o tratamento. Conclusão: a técnica utilizada facilita o preparo do leito receptor e a instalação de implante em condições de estabilidade favorável, podendo ser empregada em situações clínicas semelhantes.
Objective: to present a case report of immediate implant surgery in the region of an extensively damaged molar using an alternative osteotomy technique with bone drilling prior to root extraction. Materials and methods: in December 2017 JNPS, 39-years-old male patient, attended to the Faculty of Dentistry, complaining about a fractured tooth without pain symptoms. At clinical and radiographic exams, tooth #46 was endodontically treated without coronal structure and wide inter-radicular septum, favoring the insertion of an immediate implant. Implant surgery was performed in February 2018 by drilling the implant bone site in the central region of the tooth prior to extraction. Then, the roots were extracted using minimally traumatic procedures, aiming to preserve the surrounding bone structure. A 3.75x9 mm morse taper implant (Titamax CM Cortical, Neodent, Curitiba, Brazil) was inserted. The final insertion torque was 20 N/cm was obtained and a healing cap was installed for a onestage surgical procedure. After 4 months, a 2.5mm height prosthetic abutment (Pilar CM - Neodent, Curitiba, Brazil) was installed and in the following appointments the procedures for fabrication of a metalceramic crown were performed. Results: in the 12-month follow-up, clinical and radiographic aspects of normality were observed, and patient reported satisfaction with the treatment. Conclusion: the technique used in this clinical case facilitated the bone preparation for implant insertion, preserving bone structure for a favorable implant stability, and may be recommended for similar clinical situations.
ABSTRACT
Abstract This study aimed to evaluate the influence of the type of prosthetic abutment associated to different implant connection on bone biomechanical behavior of immediately and delayed loaded implants. Computed tomography-based finite element models comprising a mandible with a single molar implant were created with different types of prosthetic abutment (UCLA or conical), implant connection (external hexagon, EH or internal hexagon, IH), and occlusal loading (axial or oblique), for both immediately and delayed loaded implants. Analysis of variance at 95%CI was used to evaluate the peak maximum principal stress and strain in bone after applying a 100 N occlusal load. The results showed that the type of prosthetic abutment influences bone stress/strain in only immediately loaded implants. Attachment of conical abutments to IH implants exhibited the best biomechanical behavior, with optimal distribution and dissipation of the load in peri-implant bone.
Subject(s)
Bone and Bones/physiology , Dental Abutments , Immediate Dental Implant Loading/methods , Dental Implant-Abutment Design/methods , Stress, Mechanical , Biomechanical Phenomena , Reproducibility of Results , Analysis of Variance , Computer-Aided Design , Finite Element Analysis , Imaging, Three-Dimensional/methods , Cone-Beam Computed Tomography , Models, BiologicalABSTRACT
Objective: The aim of the present study was to analyze the influence of root canal and glass fiber post diameters on the biomechanical behavior of the dentin/cement/post interface of a root-filled tooth using 3D finite element analysis. Material and Methods: Six models were built using micro-CT imaging data and SolidWorks 2007 software, varying the root canal (C) and the glass fiber post (P) diameters: C1P1-C=1 mm and P=1 mm; C2P1-C=2 mm and P=1 mm; C2P2-C=2 mm and P=2 mm; C3P1-C=3 mm and P=1 mm; C3P2-C=3 mm and P=2 mm; and C3P3-C=3 mm and P=3 mm. The numerical analysis was conducted with ANSYS Workbench 10.0. An oblique force (180 N at 45º) was applied to the palatal surface of the central incisor. The periodontal ligament surface was constrained on the three axes (x=y=z=0). Maximum principal stress (σmax) values were evaluated for the root dentin, cement layer, and glass fiber post. Results: The most evident stress was observed in the glass fiber post at C3P1 (323 MPa), and the maximum stress in the cement layer occurred at C1P1 (43.2 MPa). The stress on the root dentin was almost constant in all models with a peak in tension at C2P1 (64.5 MPa). CONCLUSION: The greatest discrepancy between root canal and post diameters is favorable for stress concentration at the post surface. The dentin remaining after the various root canal preparations did not increase the stress levels on the root. .