• Journal of Korean Neurosurgical Society
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• 제60권6호
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• pp.611-619
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• 2017

Objective : In addition to bone bridging inside a cage or graft (intragraft bone bridging, InGBB), extragraft bone bridging (ExGBB) is commonly observed after anterior cervical discectomy and fusion (ACDF) with a stand-alone cage. However, solid bony fusion without the formation of ExGBB might be a desirable condition. We hypothesized that an insufficient contact area for InGBB might be a causative factor for ExGBB. The objective was to determine the minimal area of InGBB by finite element analysis. Methods : A validated 3-dimensional, nonlinear ligamentous cervical segment (C3-7) finite element model was used. This study simulated a single-level ACDF at C5-6 with a cylindroid interbody graft. The variables were the properties of the incorporated interbody graft (cancellous bone [Young's modulus of 100 or 300 MPa] to cortical bone [10000 MPa]) and the contact area between the vertebra and interbody graft (Graft-area, from 10 to $200mm^2$). Interspinous motion between the flexion and extension models of less than 2 mm was considered solid fusion. Results : The minimal Graft-areas for solid fusion were $190mm^2$, $140mm^2$, and $100mm^2$ with graft properties of 100, 300, and 10000 MPa, respectively. The minimal Graft-areas were generally unobtainable with only the formation of InGBB after the use of a commercial stand-alone cage. Conclusion : ExGBB may be formed to compensate for insufficient InGBB. Although various factors may be involved, solid fusion with less formation of ExGBB may be achieved with refinements in biomaterials, such as the use of osteoinductive cage materials; changes in cage design, such as increasing the area of polyetheretherketone or the inside cage area for bone grafts; or surgical techniques, such as the use of plate/screw systems.

• 한국산학기술학회논문지
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• 제19권4호
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• pp.578-585
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• 2018

본 논문은 고속철도차량에 전기기계제동장치(EMB : Electric Mechanical Brake)를 적용하기 위한 주요 구성품인 3상 매입형영구자석동기전동기(IPMSM : Interior Permanent Magnet Synchronous Motor)의 설계방법과 이를 이용한 인버터 제어시스템의 압부력제어 시뮬레이션 방법을 제안한다. 최근 자동차에서 주로 사용하는 유압식 제동장치는 유압을 발생시키기 위해 필요한 오일류와 유압 라인의 관리, 유지보수성 및 유압펌프의 동작으로 인한 효율성 등이 문제로 제기되면서 EMB에 대한 관심이 높아지고 있으나 비용증가 및 안전측면의 보완이 지속적으로 요구되고 있다. 공압식 제동장치를 주로 사용하는 철도차량은 EMB 시스템을 적용할 경우 차량 하부에 큰 공간을 차지하는 공기압축기, 제동공기통 및 연결 배관 등의 부품이 필요하지 않으므로 50% 이상의 소형화가 가능하며 인버터를 적용한 전동기 구동방식으로 인하여 상대적으로 빠른 응답속도와 정밀제어를 통해 공주거리를 단축시킬 수 있는 장점을 갖는다. 또한, 철도차량은 다수의 제동장치가 제동력을 분담하는 구조로 설계되어 자동차와 비교하여 EMB 적용이 안전측면에서 유리하다. 본 논문에서는 JMAG을 활용하여 고속철도의 제동 캘리퍼와 제동력 출력에 적합한 모터설계 및 전자계해석을 수행하였다. 제동 압부력 제어 시뮬레이션을 위해 기계구동부는 기존 EMB 시스템에 주로 적용된 볼스크류 형태의 동작방식과는 달리 고속철도차량에 적용된 편심축 회전을 이용한 구동방식으로 모델링하였다. IPMSM 제어를 통한 제동압부력 및 제동력 출력결과는 Matlab/Simulink를 활용하여 JMAG의 IPMSM 모델과 co-simulation을 통해 보였으며 결과의 타당성은 차세대고속철도(HEMU-430X)의 제동사양과의 비교를 통해 검증하였다.

• Journal of Korean Neurosurgical Society
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• 제50권4호
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• pp.348-356
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• 2011

Objective : The safety and efficacy of various fusion substitutes in pyogenic osteomyelitis has not been investigated. We evaluated and compared the cadaveric allograft and titanium cages used to reconstruct, maintain alignment and achieve fusion in the management of pyogenic spinal infection. Methods : There were 33 patients with pyogenic osteomyelitis underwent fusion in this study. Fifteen of the 33 patients were operated on by fusion with allografts (cadaveric patella bones) and 18 of those were operated with titanium mesh cages filled with autologous cancellous iliac bone. After the affected disc and vertebral body resection with pus drainage, cadaveric allograft or titanium cages were inserted into the resected space. Posterior transpedicular screw fixation and rod compression in resected space, where cadaveric allograft or titanium cages were inserted, was performed to prevent the malposition in all patients except in 1 case. Recurrent infection was identified by serial erythrocyte sedimentation rate and cross reactive protein follow-up. Osseous union and recurred infection available at a minimum of 2 years following operation was identified. The amount of kyphosis correction and the subsidence were measured radiographically. Results : Spinal fusion was achieved in 29 of 33 patients. In the cadaveric allograft group, 93.3% of patient (14 of 15) showed the osseous union while 83.3% of patient (15 of 18) in the titanium cage group showed union. Subsidence was noted in 12 of the patients. Twelve patients (36.3%) showed unsettling amounts of subsidence postoperatively whereas 46.6% of patients in the cadaveric allograft group and 37.7% of patients in the titanium cage group showed similar subsidence, respectively. There were statistical difference in the fusion rate (p=0.397) and subsidence rate (p=0.276) between the two groups. There was significant statistical difference in the postoperative improvement of segmental kyphosis between the two groups (p=0.022), that is the improvement in sagittal alignment was greater in the titanium cage group than in the cadaveric allograft group. There was no case of recurred infection. Conclusion : The cadaveric allograft and titanium cages are effective and safe in restoring and maintaining sagittal plane alignment without increased incidence in infection recurrence in pyogenic osteomyelitis. The postoperative improvement of segmental kyphosis was better in the cage group.

• 제어로봇시스템학회:학술대회논문집
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• 제어로봇시스템학회 2005년도 ICCAS
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• pp.2430-2434
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• 2005

Automatic FPC punching instrument for the improvement of working condition and cost saving is introduced in this paper. FPC(flexible printed circuit) is used to detect the contact position of K/B and button like a cellular phone. Depending on the quality of the printed ink and position of reference punching point to the FPC, the resistance and current are varied to the malfunctioning values. The size of reference punching point is 2mm and the above. Because the punching operation is done manually, the accuracy of the punching degree is varied with operator's condition. Recently, The punching accuracy has deteriorated severely to the 2mm punching reference hall so that assembly of the K/B has hardly done. To improve this manual punching operation to the FPC, automatic FPC punching system is introduced. Precise mechanical parts like a 5-step stepping motor and ball screw mechanism are designed and tested and low cost PC camera is used for the sake of cost down instead of using high quality vision systems for the FA. 3D Mechanical design tool(Pro/E) is used to manage the exact tolerance circumstances and avoid design failures. Simulation is performed to make the complete vision based punching machine before assembly, and this procedure led to the manufacturing cost saving. As the image processing algorithms, dilation, erosion, and threshold calculation is applied to obtain an exact center position from the FPC print marks. These image processing algorithms made the original images having various noises have clean binary pixels which is easy to calculate the center position of print marks. Moment and Least square method are used to calculate the center position of objects. In this development circumstance, Moment method was superior to the Least square one at the calculation of speed and against noise. Main control panel is programmed by Visual C++ and graphical Active X for the whole management of vision based automatic punching machine. Operating modes like manual, calibration, and automatic mode are added to the main control panel for the compensation of bad FPC print conditions and mechanical tolerance occurring in the case of punch and die reassembly. Test algorithms and programs showed good results to the designed automatic punching system and led to the increase of productivity and huge cost down to law material like FPC by avoiding bad quality.

• Maxillofacial Plastic and Reconstructive Surgery
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• 제30권5호
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• pp.457-464
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• 2008

Purpose: The aim of this study was to evaluate the clinical results of implants which were installed with maxillary sinus elevation by using lateral window technique. Materials and methods: We performed the maxillary sinus elevation by lateral window technique to 87 patients who visited Dept. of Oral & Maxillofacial Surgery, Chonnam National University Hospital from January, 2003 to January, 2007. When the residual bone height was from 3 mm to 7 mm, the sinus elevation and simultaneous implant installation was mostly performed. When the residual bone height was less than 3 mm, the sinus elevation was performed and the delayed implant installation was done after 5 or 6 months. No artificial membranes were used for coverage of the lateral bony window site and freeze dried fibrin sealant was applied to the grafted bone. The mean follow-up period was 28.5 months (ranged from 10 months to 48 months) Results: 1. Unilateral sinus elevations were performed in 51 patients and bilateral sinus elevations were performed in 36 patients. And the total number of sinus elevation procedure was 123 cases. 2. The sinus elevation and simultaneous implant installation was performed in 89 sinuses and 249 implants were installed. The sinus elevation and delayed implant installation was performed in 44 sinuses and 141 implants were installed. The total number of implants were 390 in 133 sinuses. The average healing period after sinus elevations was 6.1 months in delayed implant installation. 3. Only autogenous bone, autogenous bone mixing with allografts or autogenous bone mixing with xenografts were used as graft materials. 4. The average period from first surgery to second surgery was about 7.2 months. 5. Some patients complications, such as perforation of sinus membrane, swelling, infection and exposure of cover screw. Two implants were removed in the infected sinus. 6. The survival rate of implants with maxillary sinus elevation by lateral window technique was 99.5% and the success rate of implants was 95.1%. Conclusions: These results indicated that the implants which were installed with maxillary sinus elevation by lateral window technique showed high survival and success rates.

• Maxillofacial Plastic and Reconstructive Surgery
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• 제30권5호
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• pp.407-416
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• 2008

Purpose: The aim of the present study is to evaluate the effect of repetitive distraction and compression on new bone formation during distraction period. Materials and methods: Sixteen healthy rabbits, weighing about 2.5kg, were used in this experiment. A unilateral mandibular osteotomy was performed in the left mandible and the distractor(Track 1 $plus^{(R)}$, Gebruder Martin $GmbH^{(R)}$, Germany) was fixed with four screws (Cross driver screw $TI^{(R)}$, Gebruder Martin $GmbH^{(R)}$, Germany). After 4 days, the mandibles were distracted at a rate of 0.6mm/day for 10 days to obtain the amount of 6mm distraction in the control group(n=4). In the experimental group A(n=6), they were distracted at a rate of 1.2mm/day for 5 days and then compression of 0.6mm length and distraction of 0.6mm per 12 hours were carried out as counter direction for 5 days, relatively. In the experimental group B(n=6), distraction of 1.2mm length and compression of 0.6mm length per 12 hours were repeated for 10 days to obtain the amount of 6mm distraction finally. The experimental animals were sacrificed at 2 and 4 weeks after surgery and block specimens were obtained. With histologic and histomorphometric analysis, we observed the histologic changes of the cells and bone formation after H-E and Masson- Trichrome staining and then, measured Bone Deposition Rate with TOMORO $ScopeEye^{TM}$ ver. 3.5(Olympus, Japan), Results: Histologically, new bone formation was examined in all experimental groups and the control. But, the ability of bone formation of the experimental group A was somewhat better than any other groups. On the histomorphometric analysis, Bone Deposition Rate was higher in the experimental group A$(50.67{\pm}4.36%)$ than in the control group$(45.94{\pm}3.97%)$ and in the experimental group B$(42.68{\pm}5.70%)$. These data showed significant differences statistically(p<0.05). Conclusion: These results show that the distraction osteogenesis using repetitive compression and distraction force in the early consolidation period may be effective for new bone formation.

• 대한치과교정학회지
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• 제39권2호
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• pp.95-104
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• 2009

본 연구는 self-tapping screw의 특징적 구조인 cutting flute의 길이 및 형태 변화에 따른 미니 임플랜트의 식립 및 제거 토크를 비교해보기 위해 시행되었다. 외경, 내경, 길이 및 pitch 등 다른 조건이 모두 동일하고 cutting flute의 형태만 다른 세 종류의 미니 임플랜트를 사용하였다(A군; 2.6 mm 길이의 flute가 형성된 그룹, B군; 3.9 mm의 길이이면서 직선형의 flute를 갖는 그룹, C군; 3.9 mm의 길이이면서 나선형의 flute를 갖는 그룹). 골밀도를 균일하게 하기 위해 실험용 인공골(Sawbones Inc., USA)을 사용하였으며, 수직력 및 회전속도를 일정하게 하기 위해 구동식 토크시험기를 이용하였다. 그 결과 다음과 같은 결론을 얻었다. 총 삽입 시간은 2 mm 두께의 피질골 시편에서는 세 군간에 차이를 보이지 않으나, 4 mm 두께의 피질골 시편에서는 C군 > B군 > A군 순으로 짧은 삽입 시간을 보였다. 최대 삽입 토크는 2 mm 두께의 시편에서는 A군이 다른 두 군에 비해 높은 값을 보이나, 4 mm 두께의 피질골 시편에서는 C군 > A군 > B군 순으로 높은 값을 보였다. 최대 제거 토크는 2 mm 두께의 피질골 시편에서는 세 군 사이에 차이가 없으나, 4 mm 두께의 피질골 시편에서는 C군이 다른 두 군에 비해 높은 값을 보여주었다. 이상의 결과로 보아 피질골이 두꺼운 부위에 미니 임플랜트를 식립할 경우 cutting flute의 길이 및 형태 또한 고려하여 미니 임플랜트를 선택하는 것이 바람직하다.

• Journal of the Korean Association of Oral and Maxillofacial Surgeons
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• 제30권4호
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• pp.331-338
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• 2004

Stress transfer to the surrounding tissues is one of the factors involved in the design of dental implants. Unfortunately, insufficient data are available for stress transfer within the regenerated bone surrounding dental implants. The purpose of this study was to investigate the concentration of stresses within the regenerated bone surrounding the implant using three-dimensional finite element stress analysis method. Stress magnitude and contours within the regenerated bone were calculated. The $3.75{\times}10-mm$ implant (3i, USA) was used for this study and was assumed to be 100% osseointegrated, and was placed in mandibular bone and restored with a cast gold crown. Using ANSYS software revision 6.0, a program was written to generate a model simulating a cylindrical block section of the mandible 20 mm in height and 10 mm in diameter. The present study used a fine grid model incorporating elements between 165,148 and 253,604 and nodal points between 31,616 and 48,877. This study was simulated loads of 200N at the central fossa (A), at the outside point of the central fossa with resin filling into screw hole (B), and at the buccal cusp (C), in a vertical and $30^{\circ}$ lateral loading, respectively. The results were as follows; 1. In case the regenerated bone (bone quality type IV) was surrounded by bone quality type I and II, stresses were increased from loading point A to C in vertical loading. And stresses according to the depth of regenerated bone were distributed along the implant evenly in loading point A, concentrated on the top of the cylindrical collar loading point B and C in vertical loading. And, In case the regenerated bone (bone quality type IV) was surrounded by bone quality type III, stresses were increase from loading point A to C in vertical loading. And stresses according to the depth of regenerated bone were distributed along the implant evenly in loading point A, B and C in vertical loading. 2. In case the regenerated bone (bone quality type IV) was surrounded by bone quality type I and II, stresses were decreased from loading point A to C in lateral loading. Stresses according to the depth of regenerated bone were concentrated on the top of the cylindrical collar in loading point A and B, distributed along the implant evenly in loading point C in lateral loading. And, In case the regenerated bone (bone quality type IV) was surrounded by bone quality type III, stresses were decreased from loading point A to C in lateral loading. And stresses according to the depth of regenerated bone were distributed along the implant evenly in loading point A, B and C in lateral loading. In summary, these data indicate that both bone quality surrounding the regenerated bone adjacent to implant fixture and load direction applied on the prosthesis could influence concentration of stress within the regenerated bone surrounding the cylindrical type implant fixture.

• Journal of the Korean Association of Oral and Maxillofacial Surgeons
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• 제42권6호
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• pp.352-357
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• 2016

Objectives: This study aimed to evaluate the stability of prosthetic screws from three types of craniofacial prostheses retention systems (bar-clip, ball/O-ring, and magnet) when submitted to mechanical cycling. Materials and Methods: Twelve models of acrylic resin were used with implants placed 20 mm from each other and separated into three groups: (1) bar-clip (Sistema INP, São Paulo, Brazil), (2) ball/O-ring (Sistema INP), and (3) magnet (Metalmag, São Paulo, Brazil), with four samples in each group. Each sample underwent a mechanical cycling removal and insertion test (f=0.5 Hz) to determine the torque and the detorque values of the retention screws. A servo-hydraulic MTS machine (810-Flextest 40; MTS Systems, Eden Prairie, MN, USA) was used to perform the cycling with 2.5 mm and a displacement of 10 mm/s. The screws of the retention systems received an initial torque of 30 Ncm and the torque values required for loosening the screw values were obtained in three cycles (1,080, 2,160, and 3,240). The screws were retorqued to 30 Ncm before each new cycle. Results: The sample was composed of 24 screws grouped as follows: bar-clip (n=8), ball/O-ring (n=8), and magnet (n=8). There were significant differences between the groups, with greater detorque values observed in the ball/O-ring group when compared to the bar-clip and magnet groups for the first cycle. However, the detorque value was greater in the bar-clip group for the second cycle. Conclusion: The results of this study indicate that all prosthetic screws will loosen slightly after an initial tightening torque, also the bar-clip retention system demonstrated greater loosening of the screws when compared with ball/O-ring and magnet retention systems.

• 한국식품과학회지
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• 제31권4호
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• pp.1011-1016
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• 1999

식물의 세포벽 모형에 근거하여 고온고압의 조건하에서 기계적인 전단웅력을 식물 세포벽에 가할 경우 수용성 다당류를 효과적으로 분리할 수 있다는 가설에 근거하여 사과박으로부터 펙틴을 추출하기 위해 압출처리법을 도입하였다. L/D비가 20: 1인 동방향완전맞물림형 이축압출기를 이용하여 압출기의 축회전수, 원료의 공급률 및 원료의 수분함량을 공정변수로 하고 압출기의 비기계에너지를 시스템의 매개변수로 하여 압출처리에 의한 수용성 다당류의 수율, 평균 분자량 및 galacturonic acid 함량을 분석한 후, 각각의 모형을 개발하였다. 펙틴의 수율과 품질을 동시에 비교해 볼때, 비기계에너지를 증가시키면 펙틴의 수율이 향상되는 것으로 나타났으나, 수율을 향상시키는 압출조건은 품질의 저하를 초래하는 것으로 나타났다. 비기계에너지가 191 kWh/ton인 고강도의 추출조건에서 수율은 20.1%로 나타나 기존의 산처리법에 의한 14.4% 수율보다 월등히 향상된 수율을 얻을 수 있었다. 한편, 비기계에너지가 96 kWh/ton인 저강도의 추출조건에서는 분자량이 240,000인 펙틴을 얻을 수 있어 산처리시 분자량 181,000의 펙틴보다 훨씬 양질의 펙틴을 얻을 수 있었다. 따라서, 목표로 하는 품질의 펙틴을 생산할 수 있으면서 최고의 수율을 얻을 수 있는 압출조건을 설정해야 하며, 이를 위해서 본 연구에서 제시한 펙틴의 수율 및 품질 모형을 이용할 수 있다.