• 대한족부족관절학회지
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• 제27권3호
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• pp.112-116
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• 2023

A 74-year-old female patient, who underwent surgery for a left distal tibiofibular fracture 40 years earlier, visited the hospital with an ankle varus deformity due to malunion. The patient complained of discomfort while walking due to the ankle and hindfoot varus deformity but did not complain of ankle pain. Therefore, correction using supramalleolar osteotomy was planned, and through virtual surgical simulation, it was predicted that a correction angle of 24° and an osteotomy gap open of 12 mm would be necessary. An osteotomy guide and an osteotomy gap block were made using three-dimensional (3D) printing to perform the osteotomy and correct the deformity according to the predicted goal. One year after surgery, it was observed that the ankle varus was corrected according to the surgical simulation, and the patient was able to walk comfortably. Thus, for correction of deformity, virtual surgical simulation and a 3D-printed osteotomy guide can be used to predict the target value for correction. This is useful for increasing the accuracy of correction of the deformity.

• 대한정형외과학회지
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• 제53권6호
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• pp.466-477
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• 2018

정형외과는 인체의 모든 근골격계를 담당하기 때문에 3차원(3-dimensional, 3D) 프린팅 기술을 가장 많이 활용할 수 있는 분야이다. 구체적으로 관절염, 척추, 외상, 기형, 종양 등의 다양한 정형외과 질병에 대해 해부학적 모델, 수술용 가이드, 금속 임플란트, 바이오-세라믹 재건, 보조기 등의 형태로 활용될 수 있다. 특히 정형외과 종양 영역은 환자마다 종양의 발생 위치와 크기가 다양한 데 반하여 사지 보존 수술에 활용할 수 있는 기존의 수술 방법이 제한적이었기 때문에 3D 프린팅 기술의 활용이 매우 절실한 분야였다. 최근에 3D 프린팅 환자 맞춤형 임플란트를 짧은 시간 내에 쉽게 제작할 수 있게 되면서 기존 방법으로 골 재건이 어려웠던 부위에 대해서도 해부학적 재건이 가능하게 되었다. 3D 프린팅 기술을 의료 영역에서 더욱 폭넓게 사용하기 위해서는 디자인, 출력, 검증 과정에 필요한 많은 전문가들과 함께 수평적 위치에서 긴밀히 협력해야 한다. 의료계에서 3D 프린팅을 활용을 선도함으로써 다른 분야의 전문가 양성 및 3D 프린팅 관련 산업의 발달을 촉진시킬 수 있다고 판단한 정부도 규제보다는 활성화에 역점을 두고 적극적으로 지원하고 있는 추세이다. 앞으로 정형외과가 전체 의료계에서 3D 프린팅 기술의 도입과 활용을 선도해 가기를 기대하면서 골종양 수술에서 3D 프린팅 기술을 활용하였던 저자의 경험을 소개하고자 한다.

• 구강회복응용과학지
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• 제34권1호
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• pp.46-55
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• 2018

치조골의 흡수와 치주조직의 염증을 동반한 심한 치주질환 환자에서 임플란트를 통한 구강 회복은 임상적으로 어려움이 있다. 하지만 골 형태에 따른 적절한 임플란트 식립 위치를 선정한다면 불필요한 골 이식이나 연조직 수술을 최소로 할 수 있다. 최근에는 cone beam CT 촬영과 소프트웨어를 이용하여 환자의 해부학적 형태와 보철적인 위치를 고려하여 임플란트 식립 위치를 선정할 수 있게 되었고 3D printing 기술을 통해 제작된 surgical guide를 통해 계획된 위치로 정확한 수술이 가능하게 되었다. 본 증례는 70세 여성 환자로 심한 치주질환으로 인해 전악 치아의 발치가 필요하였으며 임플란트 지지 고정성 보철물로 전악 구강회복을 시행하였다. 수술 시에는 보철적인 위치를 고려한 surgical guide를 이용해 flapless 방식으로 임플란트를 식립하였고 수술 전에 CAD/CAM 방식으로 제작된 임시보철물을 즉시 부하하였다. 이후 맞춤형 지대주와 지르코니아를 이용한 보철물을 제작하였으며, 만족스러운 심미 및 기능 회복을 보였기에 보고하는 바이다.

• 대한소아치과학회지
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• 제44권4호
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• pp.461-468
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• 2017

교정치료의 목적으로, 또는 보존 불가능한 치아를 발거 후 치근 형성이 완료된 치아의 자가치아이식을 요구하는 경우가 늘어나고 있지만 미완성 치근 형성 치아를 이식하는 경우에 비하여 치근 형성이 완료된 치아를 이식하는 경우 생존률 및 성공률이 낮음이 보고 되고 있다. 이전의 자가치아이식에서는 공여치와 수여부만을 재현하는 모델만이 사용된 반면에 현재는 불필요한 골삭제와 술식 시간을 감소시켜주는 외과적 가이드 템플레이트들을 3D 프린팅 기술을 통하여 제작, 술식에 추가적으로 이용함으로써 이식시 적절한 방향와 깊이로 수여부를 형성할 수 있으며 술식시간도 감소시켜 자가치아이식의 성공률 및 생존률을 향상시킬 수 있다고 할 수 있다. 본 케이스는 치근 형성이 완료된 치아를 선천성 결손 부위에 자가이식한 케이스로 3D 프린팅 기술을 이용하여 공여치와 수여부 모형 모델 및 외과적 가이드 템플레이트들을 제작함으로써 술식의 성공률과 안정성을 높일 수 있었고 이식치의 양호한 치유 결과를 이끌어냈다.

• 한국임상수의학회지
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• 제39권5호
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• pp.246-252
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• 2022

Multilobular osteochondrosarcoma (MLO) reportedly has a good prognosis after complete resection. This study reports the successful treatment of MLO in two dogs using 3-dimensional (3D) printing technology. A nine-year-old castrated male Maltese (Case 1) and a five-year-old castrated male poodle (Case 2) both presented with a mass in the skull. Diagnostic imaging revealed a cranial mass arising from the cranio-orbital and parieto-occipital bones. The masses were resected using 3D-printed osteotomy guides, and the resulting defects were reconstructed using 3D-printed patient-specific implants. Histopathological results confirmed the resection of MLOs with clean margins. Patients routinely recover from surgery without complications. To date, the two patients remain alive without clinical signs of tumor recurrence at 20 and 12 months postoperatively, respectively. In the management of MLO in dogs, 3D printing technology can allow accurate tumor resection, reduced surgical time, and successful reconstruction of large defects.

• The Journal of Advanced Prosthodontics
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• 제10권4호
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• pp.279-285
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• 2018

PURPOSE. The aim of this clinical study was to assess the accuracy of the implants placed using a universal digital surgical guide. MATERIALS AND METHODS. Among 17 patients, 28 posterior implants were included in this study. The digital image of the soft tissue acquired from cast scan and hard tissue from CBCT have been superimposed and planned the location, length, diameter of the implant fixture. Then digital surgical guides were created using 3D printer. Each of angle deviations, coronal, apical, depth deviations of planned and actually placed implants were calculated using CBCT scans and casts. To compare implant positioning errors by CBCT scans and plaster casts, data were analyzed with independent samples t-test. RESULTS. The results of the implant positioning errors calculated by CBCT and casts were as follows. The means for CBCT analyses were: angle deviation: $4.74{\pm}2.06^{\circ}$, coronal deviation: $1.37{\pm}0.80mm$, and apical deviation: $1.77{\pm}0.86mm$. The means for cast analyses were: angle deviation: $2.43{\pm}1.13^{\circ}$, coronal deviation: $0.82{\pm}0.44mm$, apical deviation: $1.19{\pm}0.46mm$, and depth deviation: $0.03{\pm}0.65mm$. There were statistically significant differences between the deviations of CBCT scans and cast. CONCLUSION. The model analysis showed lower deviation value comparing the CBCT analysis. The angle and length deviation value of the universal digital guide stent were accepted clinically.

• Journal of International Society for Simulation Surgery
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• 제2권2호
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• pp.90-93
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• 2015

The fibula free flap has now become the most reliable and frequently used option for mandible reconstruction. Recently, three dimensional images and printing technologies are applied to mandibular reconstruction. We introduce our recent experience of mandibular reconstruction using three dimensionally planned fibula free flap in a patient with gunshot injury. The defect was virtually reconstructed with three-dimensional image. Because bone fragments are dislocated from original position, relocation was necessary. Fragments are virtually relocated to original position using mirror image of unaffected right side of the mandible. A medical rapid prototyping (MRP) model and cutting guide was made with 3D printer. Titanium reconstruction plate was adapted to the MRP model manually. 7 cm-sized fibula bone flap was designed on left lower leg. After dissection, proximal and distal margin of fibula flap was osteotomized by using three dimensional cutting guide. Segmentation was also done as planned. The fibula bone flap was attached to the inner side of the prebent reconstruction plate and fixed with screws. Postoperative evaluation was done by comparison between preoperative planning and surgical outcome. Although dislocated condyle is still not in ideal position, we can see that reconstruction was done as planned.

• Journal of Dental Anesthesia and Pain Medicine
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• 제21권3호
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• pp.253-260
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• 2021

Therapeutic injections into the craniofacial region can be a complex procedure because of the nature of its anatomical structure. This technical note demonstrates a process for creating an extra-oral template to inject therapeutic substances into the temporomandibular joint and the lateral pterygoid muscle. The described process involves merging cone-beam computed tomography data and extra-oral facial scans obtained using a mobile device to establish a correlated data set for virtual planning. Virtual injection points were simulated using existing dental implant planning software to assist clinicians in precisely targeting specific anatomical structures. A template was designed and then 3D printed. The printed template showed adequate surface fit. This innovative process demonstrates a potential new clinical technique. However, further validation and in vivo trials are necessary to assess its full potential.

• 한국CDE학회논문집
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• 제21권2호
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• pp.196-203
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• 2016

In this paper, we propose a virtual surgical planning system specialized to mandible reconstruction surgery. Mandible reconstruction surgery is one of the most difficult surgeries, even for experienced surgeons. Compared to the traditional surgical procedures, virtual surgical planning can reduce the operation time in operating room while expecting better surgical outcome with optimized planning. However, with existing software systems, it requires much time and manual operations in virtual surgical planning. To reduce preparation time and improve accuracy of virtual surgical planning, we have developed optimized functions for virtual surgical simulation of mandible reconstruction with user-friendly interface. We found that the proposed system shortened the preparation time by half compared to the existing system from the experiments. The proposed system supports surgeons to make accurate plan faster and easier. The virtually planned results are used to make surgical cutting guide by 3D printing, and this will enhance surgical performance in operating room.

• Archives of Plastic Surgery
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• 제47권5호
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• pp.428-434
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• 2020

Background Three-dimensional (3D) model printing improves visualization of anatomical structures in space compared to two-dimensional (2D) data and creates an exact model of the surgical site that can be used for reference during surgery. There is limited evidence on the effects of using 3D models in microsurgical reconstruction on improving clinical outcomes. Methods A retrospective review of patients undergoing reconstructive breast microsurgery procedures from 2017 to 2019 who received computed tomography angiography (CTA) scans only or with 3D models for preoperative surgical planning were performed. Preoperative decision-making to undergo a deep inferior epigastric perforator (DIEP) versus muscle-sparing transverse rectus abdominis myocutaneous (MS-TRAM) flap, as well as whether the decision changed during flap harvest and postoperative complications were tracked based on the preoperative imaging used. In addition, we describe three example cases showing direct application of 3D mold as an accurate model to guide intraoperative dissection in complex microsurgical reconstruction. Results Fifty-eight abdominal-based breast free-flaps performed using conventional CTA were compared with a matched cohort of 58 breast free-flaps performed with 3D model print. There was no flap loss in either group. There was a significant reduction in flap harvest time with use of 3D model (CTA vs. 3D, 117.7±14.2 minutes vs. 109.8±11.6 minutes; P=0.001). In addition, there was no change in preoperative decision on type of flap harvested in all cases in 3D print group (0%), compared with 24.1% change in conventional CTA group. Conclusions Use of 3D print model improves accuracy of preoperative planning and reduces flap harvest time with similar postoperative complications in complex microsurgical reconstruction.