• 대한치과보철학회지
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• 제51권1호
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• pp.33-38
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• 2013

교합평면은 시상면적인 치열궁 형태를 나타내는 것으로, 악구강계를 구성하는 요소의 하나인 교합을 형태적으로 구성한다. 본 증례에서는 생체의 정중 시상면에 대한 수평, 측방좌표를 교합기상에 재현하여 상하악 치아 및 결손부 치조제에 대한 좌우 동적인 위치관계 얻기 위해 Shilla system (Hamans, Tokyo, Japan)을 이용하여 교합평면을 재구성 하였다. 본 증례의 환자는 41세의 남자 환자로 상악 전치부 10본금속-도재 고정성국소의치 파절 및 탈락과 전반적인 치료를 주소로 내원하였다. 임상 검사, 방사선 검사, 모형분석을 통해 임플란트 식립을 동반한 완전구강회복술을 하기로 결정하였다. Gothic Arch device (Centrofix; AmannGirrbach GmbH, Germany)를 이용하여 악간관계를 채득하고 마운팅 후, Shilla system을 이용하여 기존 교합평면을 평가, 분석하여 진단 납형을 제작하였다. 이를 토대로 방사선 스텐트를 제작하여 임플란트 식립하였고, 진단 납형을 이용하여 임시수복물을 제작하였다. 임시 수복물의 형태 및 교합 양식을 재현하기 위해 맞춤 전방유도판을 제작하고, 교차 마운팅을 시행하였으며 최종 수복물은 지르코니아 코핑을 이용한 완전 도재관으로 제작하였다. 이상과 같이 전악수복환자에서 진단과 치료 과정에서 Shilla system을 이용하여 적절한 심미적, 기능적 수복 결과를 얻을 수 있었다.

• 대한치과의사협회지
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• 제55권8호
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• pp.528-536
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• 2017

Treatment with removable partial denture is effective for partially edentulous patients who are unable to obtain sufficient retention and stability for functional and esthetic restoration. There are several cases reporting the improvement of retention and stability of the partial denture using a small number of implants. However, there are limited studies on the implant-assisted removable partial denture using a small number of remaining teeth and the bar locator system. The bar locator system has an advantage in that it could compensate the angle of insertion of removable prosthesis on implant with inconsistent placement angle due to anatomical constraints compared to when using the locator only. This case report describes the patient with $Parkinson^{\circ}$Øs disease who was treated with the Locator bar system using two previously placed implants and two remaining teeth on maxilla. No additional implants could be placed because of the medical and economic condition of the patients, and the angle of one of two implants could not be matched with the direction of the removable partial denture insertion. Considering the angle of the implants, the patient was treated with implant-assisted RPD using the Locator bar system and had satisfactory results in the aspect of esthetics, masticatory function, and oral hygiene maintenance.

• Journal of the Korean Association of Oral and Maxillofacial Surgeons
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• 제34권2호
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• pp.166-179
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• 2008

Excessive concentration of stress which is occurred in occlusion around the implant in case of the implant supported fixed partial denture has been known to be the main cause of the crestal bone destruction. Therefore, it is essential to evaluate the stress analysis on supporting tissue to get higher success rates of implant. The purpose of this study was to evaluate the effects of stress distribution and deformation in 3 different types of three-unit fixed partial denture sup-ported by two implants, using a three dimensional finite element analysis in a three dimensional model of a whole mandible. A mechanical model of an edentulous mandible was generated from 3D scan, assuming two implants were placed in the left premolars area. According to the position of pontic, the experiments groups were divided into three types. Type I had a pontic in the middle position between two implants, type II in the anterior posi-tion, and type III in the posterior position. A 100-N axial load was applied to sites such as the central fossa of anterior and posterior implant abutment, central fossa of pontic, the connector of pontic or the connector between two implants, the mandibular boundary conditions were modeled considering the real geometry of its four-masticatory muscular supporting system. The results obtained from this study were as follows; 1. The mandible deformed in a way that the condyles converged medially in all types under muscular actions. In comparison with types, the deformations in the type II and type III were greater by 2-2.5 times than in the type I regardless of the loading location. 2. The values of von Mises stresses in cortical and cancellous bone were relatively stable in all types, but slightly increased as the loading position was changed more posteriorly. 3. In comparison with type I, the values of von Mises stress in the implant increased by 73% in Type II and by 77% in Type III when the load was applied anterior and posterior respectively, but when the load was applied to the middle, the values were similar in all types. 4. When the load was applied to the centric fossa of pontic, the values of von Mises stress were nearly $30{\sim}35%$ higher in the type III than type I or II in the cortical and cancellous bone. Also, in the implant, the values of von Mises stress of the type II or III were $160{\sim}170%$ higher than in the type I. 5. When the load was applied to the centric fossa of implant abutment, the values of von Mises stress in the cortical and cancellous bone were relatively $20{\sim}25%$ higher in the type III than in the other types, but in the implant they were 40-45% higher in the type I or II than in the type III. According to the results of this study, musculature modeling is important to the finite element analysis for stress distribution and deformation as the muscular action causes stress concentration. And the type I model is the most stable from a view of biomechanics. Type II is also a clinically accept-able design when the implant is stiff sufficiently and mandibular deformation is considered. Considering the high values of von Mises stress in the cortical bone, type III is not thought as an useful design.