• 제목/요약/키워드: Mandibular ramus sagittal split osteotomy

검색결과 133건 처리시간 0.017초

Changes of lip morphology following mandibular setback surgery using 3D cone-beam computed tomography images

  • Paek, Seung Jae;Yoo, Ji Yong;Lee, Jang Won;Park, Won-Jong;Chee, Young Deok;Choi, Moon Gi;Choi, Eun Joo;Kwon, Kyung-Hwan
    • Maxillofacial Plastic and Reconstructive Surgery
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    • 제38권
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    • pp.38.1-38.10
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    • 2016
  • Background: The aims of this study are to evaluate the lip morphology and change of lip commissure after mandibular setback surgery (MSS) for class III patients and analyze association between the amount of mandibular setback and change of lip morphology. Methods: The samples consisted of 14 class III patients treated with MSS using bilateral sagittal split ramus osteotomy. Lateral cephalogram and cone-beam CT were taken before and about 6 months after MSS. Changes in landmarks and variables were measured with 3D software program $Ondemand^{TM}$. Paired and independent t tests were performed for statistical analysis. Results: Landmarks in the mouth corner (cheilion, Ch) moved backward and downward (p < .005, p < .01). However, cheilion width was not statistically significantly changed. Landmark in labrale superius (Ls) was not altered significantly. Upper lip prominence angle (ChRt-Ls-$ChLt^{\circ}$) became acute. Landmarks in stomion (Stm), labrale inferius (Li) moved backward (p < .005, p < .001). Lower lip prominence angle (ChRt-Li-$ChLt^{\circ}$) became obtuse (p < .001). Height of the upper and lower lips was not altered significantly. Length of the upper lip vermilion was increased (p =< 0.01), and length of the lower lip vermilion was decreased (p < .05). Lip area on frontal view was not statistically significantly changed, but the upper lip area on lateral view was increased and change of the lower lip area decreased (p > .05, p < .005). On lateral view, upper lip prominent point (UP) moved downward and stomion moved backward and upward and the angle of Ls-UP-Stm ($^{\circ}$) was decreased. Lower lip prominent point (LP) moved backward and downward, and the angle of Stm-LP-Li ($^{\circ}$) was increased. Li moved backward. Finally, landmarks in the lower incisor tip (L1) moved backward and upward, but stomion moved downward. After surgery, lower incisor tip (L1) was positioned more superiorly than stomion (p < .05). There were significant associations between horizontal soft tissue and corresponding hard tissue. The posterior movement of L1 was related to statistically significantly about backward and downward movement of cheilion. Conclusions: The lip morphology of patients with dento-skeletal class III malocclusion shows a significant improvement after orthognathic surgery. Three-dimensional lip morphology changes in class III patients after MSS exhibited that cheilion moved backward and downward, upper lip projection angle became acute, lower lip projection angle became obtuse, change of upper lip area on lateral view was increased, change of lower lip area decreased, and morphology of lower lip was protruding. L1 was concerned with the lip tissue change in statistically significant way.

전산화단층촬영법을 이용한 하악 전돌증 환자의 하악지 시상 골절단술후 하악과두 위치변화 분석 (EVALUATION OF CONDYLAR POSITION USING COMPUTED TOMOGRAPH FOLLOWING BILATERAL SAGITTAL SPLIT RAMUS OSTEOTOMY)

  • 최강영;이상한
    • Maxillofacial Plastic and Reconstructive Surgery
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    • 제18권4호
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    • pp.570-593
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    • 1996
  • 본교실에서 하악지 시상 골절단술을 시행한 하악전돌증 환자 20명(남자 9명, 여자 11명)을 대상으로 술전, 술직후, 장기관찰기간동안의 전산화단층촬영법을 이용한 하악과두의 위치변화와 술전, 술직후, 악간고정제거 24시간후 및 장기관찰기간동안의 측모두부방사선사진에서의 재발과의 상관관계를 연구한 결과 다음과 같은 결과를 얻었다. 1. 두부 축방향 전산화단층사진에서의 과두간거리(MM')는 $84.45{\pm}4.01mm$ 였으며, 장축각은 우측 11.89%5.1 $9^{\circ}$좌측 $11.65{\pm}2.09^{\circ}$로 좌우 비슷하였으며, 기준선(AA')에서 과두의 외측점은 12mm, 내측점은 7mm 정도 전방에 위치하였다. 관상면 전산화단층사진에서의 과두간 거리(mm')는 $84.43{\pm}3.96mm$ 였으며, 사축각은 우측 $78.12{\pm}3.43^{\circ}$ 좌측 $78.09{\pm}6.12^{\circ}$로 좌우 비슷하였다 . 2. 술전후 과두위치 변화(T2C-T1C)는 통계적인 유의성은 없었으나(p>0.05), 다소 증가하는 경향을 보였으며, 장기관찰에 따른 회귀성향(TLC-T2C)에서는 LMD, LLD(p<0.05), RLD, RMD(p<0.01), mm'(P<0.001)는 모두 감소하였다. 3. 측면두부방사선사진상에서 술직후와 악간고정제거 24시간후(T3-T2)에서 하악의 초기재발은 통계적인 의의가 없었으며(p>0.05) 하악전치의 경우만 평균 0.33mm 전방이동하였다(p<0.05). NN'L1, NN'Pog, NN'Gn, NN'Me, over-jet에서 통계적인 유의성이 있었으며(p<0.05), NN'Ll 1.2%, NN'B 5.0%, NN'Pog 2.0%, NN'Gn 9.1%, NN'Me 10.3%의 총재발량을 보였다. 4. 하악골의 술전, 술후 변화량(T2-T1)이 총재발량에 미치는 영향에 대한 회귀분석에서 후퇴량이 많을수록 하악골의 총재발량이 많은 것으로 나타났다(p<0.05). 5. 하악골 변화량(T2-T1)과 하악과두 변화량(T2C-T1C, TLC-T2C), 하악과두 변화량(T2C-T1C, TLC-T2C)과 총재발량(TL-T2), 술전 하악과두 형태(T1C)와 하악과두 변화량(T2C-T1C, TLC-T2C), 그리고 술전 하악골 외형(T1)과 하악과두 변화량(T2C-T1C, TLC-T2C)에 대하여 단순 및 복잡회귀분석에서 통계적인 유의성은 없었다(p>0.05). 6. 술전 하악과두 형태(T1C)가 총재발량(TL-T2)에 미치는 영향에 대한 복잡회귀분석결과 우측과두에서는 과두간 거리가 멀고 장축각이 적고 사축각이 클수록 하악골의 수평적인 재발(NN'Ll, NN'8, NN'Pog, NN'Gn, NN'Me)이 많은 것으로 나타났으며(p<0.05), 좌측과두에서는 NN'Ll, NN'Me에서 같은 결과를 보였다. 7, 술전 하악과두 형태(T1C)가 술전 하악골외형(T1)에 미치는 영향에 대한 복잡회귀분석결과 우측과두에서는 과두간 거리가 멀고 장축각이 적고 사축각이 클수록 하악골의 수직고경이 큰 것으로 나타났고(p<0.05), 좌측과두에서는 과두간 거리가 멀고 장축각이 적고 사축각이 클수록 수직고경이 크며, 전돌된 양상으로 나타났다(p<0.05) . 8. 술전 하악골 외형(T1)이 총 재발량(TL-T2)에 미치는 영향에 대하여 단순회귀분석을 시행한 결과 NN'L1, NN'B, NN'Gn, NN'Me, over-jet 둥의 계측점에서 하악골이 전돌된 양상을 보일수록 NN'B에서의 총재발량은 많은 것으로 나타났다(p<0.05). 또 수평피개량(over-jet)이 클수록 NN'B, NN'Pog, NN'Gn, NN'Me에서의 총재발량이 많은 것으로 나타났다(p<0.05). 따라서 과두보존술을 이용하여 과두를 안정화시키고 난후 악골 형태를 재구성하였을 때 이로 인하여 생기는 하악과두 이동은 미미하여 술후 재발에 크게 영향을 미칠 정도는 아니라고 사료된다.

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혈관내피세포 채취의 원천으로 인간 지방조직의 활용 (Use of Human Adipose Tissue as a Source of Endothelial Cells)

  • 박봉욱;하영술;김진현;조희영;정명희;김덕룡;김욱규;김종렬;장중희;변준호
    • Maxillofacial Plastic and Reconstructive Surgery
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    • 제32권4호
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    • pp.299-305
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    • 2010
  • Purpose: Adipose tissue is located beneath the skin, around internal organs, and in the bone marrow in humans. Its main role is to store energy in the form of fat, although it also cushions and insulates the body. Adipose tissue also has the ability to dynamically expand and shrink throughout the life of an adult. Recently, it has been shown that adipose tissue contains a population of adult multipotent mesenchymal stem cells and endothelial progenitor cells that, in cell culture conditions, have extensive proliferative capacity and are able to differentiate into several lineages, including, osteogenic, chondrogenic, endothelial cells, and myogenic lineages. Materials and Methods: This study focused on endothelial cell culture from the adipose tissue. Adipose tissues were harvested from buccal fat pad during bilateral sagittal split ramus osteotomy for surgical correction of mandibular prognathism. The tissues were treated with 0.075% type I collagenase. The samples were neutralized with DMEM/and centrifuged for 10 min at 2,400 rpm. The pellet was treated with 3 volume of RBC lysis buffer and filtered through a 100 ${\mu}m$ nylon cell strainer. The filtered cells were centrifuged for 10 min at 2,400 rpm. The cells were further cultured in the endothelial cell culture medium (EGM-2, Cambrex, Walkersville, Md., USA) supplemented with 10% fetal bovine serum, human EGF, human VEGF, human insulin-like growth factor-1, human FGF-$\beta$, heparin, ascorbic acid and hydrocortisone at a density of $1{\times}10^5$ cells/well in a 24-well plate. Low positivity of endothelial cell markers, such as CD31 and CD146, was observed during early passage of cells. Results: Increase of CD146 positivity was observed in passage 5 to 7 adipose tissue-derived cells. However, CD44, representative mesenchymal stem cell marker, was also strongly expressed. CD146 sorted adipose tissue-derived cells was cultured using immuno-magnetic beads. Magnetic labeling with 100 ${\mu}l$ microbeads per 108 cells was performed for 30 minutes at $4^{\circ}C$ a using CD146 direct cell isolation kit. Magnetic separation was carried out and a separator under a biological hood. Aliquous of CD146+ sorted cells were evaluated for purity by flow cytometry. Sorted cells were 96.04% positivity for CD146. And then tube formation was examined. These CD146 sorted adipose tissue-derived cells formed tube-like structures on Matrigel. Conclusion: These results suggest that adipose tissue-derived cells are endothelial cells. With the fabrication of the vascularized scaffold construct, novel approaches could be developed to enhance the engineered scaffold by the addition of adipose tissue-derived endothelial cells and periosteal-derived osteoblastic cells to promote bone growth.