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KISSOptimal orthodontic treatment could be possible when a orthodontist can predict and control tooth movement by applying a planned force system to the dentition. The moment to force(M/F) ratio at the bracket has been shown to be a primary determinate o...
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RISS 인기검색어
견치의 후방견인시 치근 부착 스트레인 게이지를 이용한 응력분포 분석에 관한 연구 = A Study on Strain Distribution using Strain Gauge on Root Surface in Canine Retraction System
한글로보기https://www.riss.kr/link?id=A19698052
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2002
-
작성언어
Korean
-
KDC
515.05
-
자료형태
학술저널
-
수록면
243-269(27쪽)
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
Optimal orthodontic treatment could be possible when a orthodontist can predict and control tooth movement by applying a planned force system to the dentition.
The moment to force(M/F) ratio at the bracket has been shown to be a primary determinate of the pattern of tooth movement. As various M/F ratios are applied to the bracket on the tooth crown, strain distribution in periodontium can be changed, and the center of rotation in tooth movement can be determined. It is, therefore, so important in clinical orthodontics to predict the strain distribution in a force system of a M/F ratio.
The purposes of this study were to analyze the strain distribution in orthodontic force system by strain gauge attached to root surfaces, to evaluate the pattern of tooth movement of canine and first molar, and to investigate the way of anchorage control of first molar during canine retraction into an extraction site with or without continuous arch wire. For this study, an experimental upper arch model with premolar extraction was constructed with photoelastic resin, where 8 strain gauges were attached on the root surface of canine, and 15 strain gauges were attached on upper first molar.
Forces from Nitinol closed coil spring for canine retraction were 200g and 400g, respectively. Three types of maxillary canine retraction and six types of anchorage reinforcement on maxillary first molar were compared.
The results were as follows.
1. Strain gauges attached on root surfaces were found useful for evaluation of the pattern of strain distribution in orthodontic force system.
2. Compression strain was highly concentrated at the distal root surface of the canine and the mesial root surface of the 1st molar during canine retraction without continuous arch wire, and the difference was great between apical and cervical area.
3. The concentration of compression strain was decreased with application of continuous arch wire, and the difference was reduced between apical and cervical area.
4. The concentration of compression strain was greater with a heavy force than with a light one, and the difference became great between apical and cervical area.
5. The strains in the first molar were even distributed with the reinforcement of anchorage in the first molar.
The moment to force(M/F) ratio at the bracket has been shown to be a primary determinate of the pattern of tooth movement. As various M/F ratios are applied to the bracket on the tooth crown, strain distribution in periodontium can be changed, and the center of rotation in tooth movement can be determined. It is, therefore, so important in clinical orthodontics to predict the strain distribution in a force system of a M/F ratio.
The purposes of this study were to analyze the strain distribution in orthodontic force system by strain gauge attached to root surfaces, to evaluate the pattern of tooth movement of canine and first molar, and to investigate the way of anchorage control of first molar during canine retraction into an extraction site with or without continuous arch wire. For this study, an experimental upper arch model with premolar extraction was constructed with photoelastic resin, where 8 strain gauges were attached on the root surface of canine, and 15 strain gauges were attached on upper first molar.
Forces from Nitinol closed coil spring for canine retraction were 200g and 400g, respectively. Three types of maxillary canine retraction and six types of anchorage reinforcement on maxillary first molar were compared.
The results were as follows.
1. Strain gauges attached on root surfaces were found useful for evaluation of the pattern of strain distribution in orthodontic force system.
2. Compression strain was highly concentrated at the distal root surface of the canine and the mesial root surface of the 1st molar during canine retraction without continuous arch wire, and the difference was great between apical and cervical area.
3. The concentration of compression strain was decreased with application of continuous arch wire, and the difference was reduced between apical and cervical area.
4. The concentration of compression strain was greater with a heavy force than with a light one, and the difference became great between apical and cervical area.
5. The strains in the first molar were even distributed with the reinforcement of anchorage in the first molar.
Optimal orthodontic treatment could be possible when a orthodontist can predict and control tooth movement by applying a planned force system to the dentition.
The moment to force(M/F) ratio at the bracket has been shown to be a primary determinate of the pattern of tooth movement. As various M/F ratios are applied to the bracket on the tooth crown, strain distribution in periodontium can be changed, and the center of rotation in tooth movement can be determined. It is, therefore, so important in clinical orthodontics to predict the strain distribution in a force system of a M/F ratio.
The purposes of this study were to analyze the strain distribution in orthodontic force system by strain gauge attached to root surfaces, to evaluate the pattern of tooth movement of canine and first molar, and to investigate the way of anchorage control of first molar during canine retraction into an extraction site with or without continuous arch wire. For this study, an experimental upper arch model with premolar extraction was constructed with photoelastic resin, where 8 strain gauges were attached on the root surface of canine, and 15 strain gauges were attached on upper first molar.
Forces from Nitinol closed coil spring for canine retraction were 200g and 400g, respectively. Three types of maxillary canine retraction and six types of anchorage reinforcement on maxillary first molar were compared.
The results were as follows.
1. Strain gauges attached on root surfaces were found useful for evaluation of the pattern of strain distribution in orthodontic force system.
2. Compression strain was highly concentrated at the distal root surface of the canine and the mesial root surface of the 1st molar during canine retraction without continuous arch wire, and the difference was great between apical and cervical area.
3. The concentration of compression strain was decreased with application of continuous arch wire, and the difference was reduced between apical and cervical area.
4. The concentration of compression strain was greater with a heavy force than with a light one, and the difference became great between apical and cervical area.
5. The strains in the first molar were even distributed with the reinforcement of anchorage in the first molar.
목차 (Table of Contents)
- Ⅰ. 서론
- Ⅱ. 연구재료 및 방법
- Ⅲ. 연구성적
- Ⅳ. 총괄 및 고찰
- Ⅴ. 결론
- Ⅰ. 서론
- Ⅱ. 연구재료 및 방법
- Ⅲ. 연구성적
- Ⅳ. 총괄 및 고찰
- Ⅴ. 결론
- 참고문헌
- ABSTRACT
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