• 대한치과교정학회지
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• 제9권1호
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• pp.23-35
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• 1979

The present study has the purpose of investigating various growth and developmental aspects of rabbit snout with the aid of metallic implantation and of improving on the indirect method of growth and developmental studies of its skull. Sixty-eight growing albino rabbits were used. A head holder, film holder, cephalometer, metallic implanting device and implant materials were designed and constructed by the author. Eight metallic pins were implanted with a metallic implanting device in the rabbit snout under general anesthesia. Two metallic pins were implanted on each side of the interfrontal suture and another two were put on each side of the internasal suture near the frontonasal suture. Serial cephalograms were taken with a two-week interval, using the head holder, film holder and cephalometer. Eight items of linear measurement were obtained from the film. On the base of the results of the study, the following conclusions are obtained: 1. The metallic implant method is better than the other indirect methods for growth and developmental studies of the rabbit skull. 2. Most of the vertical growth of the rabbit snout is due to sutural growth at the frontonasal suture and the horizontal growth is at the interfrontal and the internasal suture. 3. The vertical growth of the rabbit snout is greater than the horizontal growth. 4. The horizontal growth of the rabbit snout is greater at the nasal bone than at the frontal bone. 5. The amount of vertical growth of the rabbit snout is almost same at inner and outer side of the interfrontal and internasal suture line, 6. Growth rate of the sutural growth of the rabbit snout tends to decrease by the growth of the rabbit. 7. Implant materials do not disturb growth and development of the rabbit snout, except a slight trauma effect during the first week of metallic implantation.

• 열처리공학회지
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• 제35권1호
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• pp.8-19
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• 2022

The metallic implant materials are widely used in biomedical industries due to their specific mechanical strenth, corrosion registance, and superior biocompatability. These metallic materials, however, suffer from the stress-shielding effect and the generation of artifacts in the magnetic resonance imaging exam. In the present study, we develope a Zr-based alloys for the biomedical implant materials with low elastic modulus and low magnetic susceptibility. The Zr-7Si-xSn alloys were fabricated by an arc melting process. The elastic modulus was 24~31 GPa of the zirconium-based alloy. The average magnetic susceptibility value of the Zr-7Si-xSn alloy was 1.25 × 10^-8cm³g^-1. The average I_corr value of the Zr-7Si-xSn alloy was 0.2 ㎂/cm². The Sn added zirconium alloy, Zr-7Si-xSn, is very interested and attractive as a biomaterial that reduces the stress-shielding effect caused by the difference of elastic modulus between human bone and metallic implant.

• 한국재료학회지
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• 제16권3호
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• pp.178-182
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• 2006

A single electro-discharge-sintering (EDS) pulse (1.0 kJ/0.7 g), from a $300{\mu}F$ capacitor, was applied to atomized spherical Ti-6Al-4V powder in a low vacuum to produce porous-surfaced implant compacts. A solid core surrounded by a porous layer was formed by a discharge in the middle of the compact. XPS (X-ray photoelectron spectroscopy) was used to study the surface characteristics of the implant material. C, O, and Ti were the main constituents, with smaller amounts of Al, V, and N. The implant surface was lightly oxidized and was primarily in the form of $TiO_2$ with a small amount of metallic Ti. A lightly etched EDS implant sample showed the surface form of metallic Ti, indicating that EDS breaks down the oxide film of the as-received Ti-6Al-4V powder during the discharge process. The EDS Ti-6Al-4V implant surface also contained small amounts of aluminum oxide in addition to $TiO_2$. However, V detected in the EDS Ti-6Al-4V implant surface, did not contribute to the formation of the oxide film..

• 한국컴퓨터정보학회논문지
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• 제12권5호
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• pp.285-292
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• 2007

본 논문은 정형외과영역인 대퇴부에 고정하여 사용하는 금속판으로 골 고정 골절치료의 유합술 골절치료를 할 수 있도록 구성하였는데, 사용되는 치료방법은 견고하고, 안정적이며, 역동적인 생물학적 금속판으로 고정 골수강 내 고정술을 적용되도록 견고한 골접촉 곡선형 시스템을 분석하였다. 금속판은 두 가지 유형으로 장형과 단형으로 구성되고, 금속판의 굴곡이 구조적이고 기하학적으로 경성 및 강도가 고루 분포하도록 최적화 하였다. 장 플레이트의 골접촉에 따른 곡선형으로 굽힙강도는 11,000N 이고, 단 플레이트의 골접촉에 따른 곡선형으로 굽힙강도는 6,525N 이며, 금속판에 골편간 압박을 주는 인장강도는 $1573N/m^2,\;1539N/m^2$정도이다. 금속판은 곡선부와 금속판부의 두 가지 부분으로 나뉘어져 있는데, 곡선부만 있는 단형과 밑 부분의 금속판이 달려있는 장형으로 진행되며, 곡선부의 단형은 전체적인 Profile이 낮고, 금속판이 달려있는 장형은 슬리브의 일체형으로 Profile보다 약간 높아져서 있다. 본 논문의 결과로 제공되는 것은 Hip Implant의 Revision case에 있어 보완뿐만 아니라 Hip Neck Fracture 경우에 사용되었던 Compression Hip Screw의 사용이 가능할 것으로 예상된다.

• 대한치과의사협회지
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• 제56권2호
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• pp.94-102
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• 2018

The present study was conducted to assess the growth changes of human chin in childhood and adolescence at various stages of skeletal maturation using metallic implant installed in mandibular body. Lateral cephalographs including 23 subjects (9 males and 14 females) between 7-18 years old were used, which had been taken at University of California in San Francisco and kept at University of the Pacific. Three lateral cephalographs were chosen for each subject according to CVM (Cervical Vertebral Maturation) method (CVM stage 1 to 2, CVM stage 3 to 4, and CVM stage 5 to 6) which assess the extent of the skeletal maturation using the second, third, and fourth cervical vertebrae. V-ceph was used in order to mark the 8 landmarks (S, N, A, B, Pog, Me, Go, Imp) on lateral cephalographs and obtain 8 angular and linear measurements(ANB, SNPog, SN-GoMe, Imp-B, Imp-Pog, B-Pog//GoMe, $GoMe{\bot}B$, $GoMe{\bot}Pog$). Among 8 measurements, ANB, SNPog, SN-GoMe, B-Pog//GoMe, $GoMe{\bot}B$ showed statistically significant growth changes at various stages of skeletal maturation according to CVM method, while there were no significant differences on Imp-B, Imp-Pog, $GoMe{\bot}Pog$. The results suggest that the increasing prominence of human chin is greatly influenced by the vertical growth of B point area, in addition to the change and growth in chin and mandible proper.

• Clinics in Shoulder and Elbow
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• 제10권1호
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• pp.84-91
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• 2007

목적: 총 7예의 금속형 요골 골두 치환술을 경험하여 적응증을 바탕으로 국내 요골두 치환술의 실태와 필요성을 소개하고자 하였다. 대상 및 방법: 2006년 4월부터 고려대학교 정형외과 교실에서 경험하였던 총 7예의 환자를 대상으로 수술 적응증, 수술 소견 및 수술 후 상태를 조사하였다. 그리고 치환물의 술 전 준비상태와 보험 적용 여부를 조사하였다. 금속형 치환물은 양극성 유형의 요골두 치환물(Tornier SA. Saint-Ismier, France)을 사용하였다. 결과: 전 예에서 요골두 분쇄 골절 이외에 $1{\sim}2$ 곳의 다른 골절 및 연부조직 손상을 동반한 복합 손상으로 요골두 치환술의 적응증에 해당되었다. 요골두 골절은 Mason 분류상 III형이 3예, IV형이 4예였고 분쇄골절로 인해 만족할만한 내고정을 얻지 못해 치환술을 시행하였다. 술 후 평가에서는 우수 2예, 양호 4예, 불량 1예였고 추시 시 치환물의 문제로 인한 합병증은 보이지 않았다. 술 전 수술 기구의 공급 부족으로 2예에서 수술 날짜를 변경하였고 치환물에 대한 비용은 산재 환자 2예를 제외한 5예에서 환자 개인이 부담하였다. 결론: 요골 골두의 분쇄를 포함한 주관절의 복합 손상에서 금속형 치환물은 술 전 계획 하에 준비되어야 하며, 의료보험의 적용으로 의사 및 환자들의 치료 선택에 도움을 주어야 할 것으로 생각되었다.

• 대한인간공학회지
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• 제27권2호
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• pp.83-89
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• 2008

Study was developed the metallic plate for fixation in the femur fracture and plates has a firm place in fracture treatment. This plates can be stabilized for fracture fixation as well as biological and dynamical device. The device's designation and sizing has a optimization with bending structural stiffness and strength, known meaning that is reliable regardless of the plate by the short type and long type. The bending strength of the curved metallic long plate has to evaluate a 11,000N and the bending strength of the curved metallic short plate has to evaluate a 6,525N. This see the X-ray image of bending angle made certain of 15$^{\circ}$ at number 2 and same 82.87$^{\circ}$ at number 2, 4, 5, 7, 8, 9, 10 by outside angle, and confirmed 25.26$^{\circ}$ at number 3, 3.68$^{\circ}$ at number 6, 15.64$^{\circ}$ at number 9 by inside angle. This study shows that keep up the metallic plate for fixation in the femur fracture through X-ray Image and the device can be used to support Revision case of Hip Implant and to use a case of Hip screw compression of Hip Neck Fracture. Short plate have a wrapping of femur and long plate have to preserve a pole of femur.

• 한국재료학회지
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• 제31권12호
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• pp.690-696
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• 2021

The purpose of this study is to develop a zirconium-based alloy with low modulus and magnetic susceptibility to prevent the stress-shielding effect and the generation of artifacts. Zr-7Cu-xSn (x = 1, 5, 10, 15 mass%) alloys are prepared by an arc melting process. Microstructure characterization is performed by microscopy and X-ray diffraction. Mechanical properties are evaluated using micro Vickers hardness and compression test. The magnetic susceptibility is evaluated using a SQUID-VSM. The average magnetic susceptibility value of the Zr-7Cu-xSn alloy is 1.176 × 10^-8 cm³g^-1. Corrosion tests of zirconium-based alloys are conducted through polarization test. The average Icorr value of the Zr-7Cu-xSn alloy is 0.1912 ㎂/cm². The elastic modulus value of 14 ~ 18 GPa of the zirconium-based alloy is very similar to the elastic modulus value of 15 ~ 30 GPa of the human bone. Consequently, the Sn added zirconium alloy, Zr-7Cu-xSn, is very interesting and attractive as a biomaterial that reduces the stress-shielding effect caused by differences of elastic modulus between human bone and metallic implants. In addition, this material has the potential to be used in metallic dental implants to effectively eliminate artifacts in MRI images due to low magnetic susceptibility.

• 대한안전경영과학회지
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• 제18권1호
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• pp.153-158
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• 2016

Beam hardening artifact can be caused by metal material when performing PET exam. Therefore, we studied a solution decreasing artifact caused by metallic dental implant. The higher voltage, the lesser artifact in CT exam. But Higher voltage dosen't affect PET exam. The thicker silicon the lesser artifact in CT and PET exam. Both methods make less artifact in CT and PET exam. But considering safety of patient, the way of using silicon is better.

• The Journal of Advanced Prosthodontics
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• 제12권2호
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• pp.67-74
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• 2020

PURPOSE. This study evaluated the influence of prosthesis weight and number of implants on the bone tissue microstrain. MATERIALS AND METHODS. Fifteen (15) fixed full-arch implant-supported prosthesis designs were created using a modeling software with different numbers of implants (4, 6, or 8) and prosthesis weights (10, 15, 20, 40, or 60 g). Each solid was imported to the computer aided engineering software and tetrahedral elements formed the mesh. The material properties were assigned to each solid with isotropic and homogeneous behavior. The friction coefficient was set as 0.3 between all the metallic interfaces, 0.65 for the cortical bone-implant interface, and 0.77 for the cancellous bone-implant interface. The standard earth gravity was defined along the Z-axis and the bone was fixed. The resulting equivalent strain was assumed as failure criteria. RESULTS. The prosthesis weight was related to the bone strain. The more implants installed, the less the amount of strain generated in the bone. The most critical situation was the use of a 60 g prosthesis supported by 4 implants with the largest calculated magnitude of 39.9 mm/mm, thereby suggesting that there was no group able to induce bone remodeling simply due to the prosthesis weight. CONCLUSION. Heavier prostheses under the effect of gravity force are related to more strain being generated around the implants. Installing more implants to support the prosthesis enables attenuating the effects observed in the bone. The simulated prostheses were not able to generate harmful values of peri-implant bone strain.