Читать книгу The Orthodontic Mini-implant Clinical Handbook - Richard Cousley - Страница 47
References
Оглавление1 1 Cha, J.Y., Takano‐Yamamoto, T., and Hwang, C.J. (2010). The effect of miniscrew taper on insertion and removal torque in dogs. Int. J. Oral Maxillofac. Implants 25: 777–783.
2 2 Holm, L., Cunningham, S.J., Petrie, A., and Cousley, R.R.J. (2012). An in vitro study of factors affecting the primary stability of orthodontic mini‐implants. Angle Orthod. 82: 1022–1028.
3 3 Song, Y., Cha, J., and Hwang, C. (2007). Mechanical characteristics of various orthodontic mini‐screws in relation to artificial cortical bone thickness. Angle Orthod. 77: 979–985.
4 4 Wilmes, B., Su, Y., and Drescher, D. (2008). Insertion angle impact on primary stability of orthodontic mini‐implants. Angle Orthod. 78: 1065–1070.
5 5 Yano, S., Motoyoshi, M., Uemura, M. et al. (2006). Tapered orthodontic miniscrews induce bone‐screw cohesion following immediate loading. Eur. J. Orthod. 28: 541–546.
6 6 Liou, E.J.W., Pai, B.C.J., and Lin, J.C.Y. (2004). Do miniscrews remain stationary under orthodontic forces? Am. J. Orthod. Dentofac. Orthop. 126: 42–47.
7 7 Pithon, M.M., Figueiredo, D.S.F., and Oliveira, D.D. (2013). Mechanical evaluation of orthodontic mini‐implants of different lengths. J. Oral Maxillofac. Surg. 71: 479–486.
8 8 Uesugi, S., Kokai, S., Kanno, Z., and Ono, T. (2018). Stability of secondarily inserted orthodontic miniscrews after failure of the primary insertion for maxillary anchorage: maxillary buccal area vs midpalatal suture area. Am. J. Orthod. Dentofac. Orthop. 153: 54–60.
9 9 Melo, A.C.M., Andrighetto, A.R., Hirt, S.D. et al. (2016). Risk factors associated with the failure of miniscrews – a ten‐year cross sectional study. Braz. Oral Res. 30: e124 1–e124 6.
10 10 Morarend, C., Qian, F., Marshall, S.D. et al. (2009). Effect of screw diameter on orthodontic skeletal anchorage. Am. J. Orthod. Dentofac. Orthop. 136: 224–229.
11 11 Barros, S.E., Janson, G., Chiqueto, K. et al. (2011). Effect of mini‐implant diameter on fracture risk and self‐drilling efficacy. Am. J. Orthod. Dentofac. Orthop. 140: e181–e192.
12 12 Park, H., Jeong, S., and Kwon, O. (2006). Factors affecting the clinical success of screw implants used as orthodontic anchorage. Am. J. Orthod. Dentofac. Orthop. 130: 18–25.
13 13 Mischkowski, R.A., Kneuertz, P., Florvaag, B. et al. (2008). Biomechanical comparison of four different miniscrew types for skeletal anchorage in the mandibulo‐maxillary area. Int. J. Oral Maxillofac. Surg. 37: 948–954.
14 14 Wilmes, B., Panayotidis, A., and Drescher, D. (2011). Fracture resistance of orthodontic mini‐implants: a biomechanical in vitro study. Eur. J. Orthod. 33: 396–401.
15 15 Chen, C.H., Chang, C.S., Hsieh, C.H., and Tseng, Y.C. (2006). The use of microimplants in orthodontic anchorage. J. Oral Maxillofac. Surg. 64: 1209–1213.
16 16 Wilmes, B., Rademacher, C., Olthoff, G., and Drescher, D. (2006). Parameters affecting primary stability of orthodontic mini‐implants. J. Orofac. Orthop. 67: 162–174.
17 17 Wu, T., Kuang, S., and Wu, C. (2009). Factors associated with the stability of mini‐implants for orthodontic anchorage: a study of 414 samples in Taiwan. J. Oral Maxillofac. Surg. 67: 1595–1599.
18 18 Lim, S., Cha, J., and Hwang, C. (2008). Insertion torque of orthodontic miniscrews according to changes in shape, diameter and length. Angle Orthod. 78: 234–240.
19 19 Pithon, M.M., Nojima, M.G., and Nojima, L.I. (2011). In vitro evaluation of insertion and removal torques of orthodontic mini‐implants. Int. J. Oral Maxillofac. Surg. 40: 80–85.
20 20 Chen, Y., Shin, H., and Kyung, H.M. (2008). Biomechanical and histological comparison of self‐drilling and self‐tapping orthodontic microimplants in dogs. Am. J. Orthod. Dentofac. Orthop. 133: 44–50.
21 21 Chen, Y., Lee, J.W., Cho, W.H., and Kyung, H.M. (2010). Potential of self‐drilling orthodontic microimplants under immediate loading. Am. J. Orthod. Dentofac. Orthop. 137: 496–502.
22 22 Cha, J., Yoon, T., and Hwang, C. (2008). Insertion and removal torques according to orthodontic mini‐screw design. Korean J. Orthod. 38: 5–12.
23 23 Heidemann, W., Terheyden, H., and Gerlach, K.L. (2001). Analysis of the osseous/metal interface of drill free screws and self‐tapping screws. J. Craniomaxillofac. Surg. 29: 69–74.
24 24 Kim, J., Ahn, S., and Chang, Y. (2005). Histomorphometric and mechanical analyses of the drill‐free screw as orthodontic anchorage. Am. J. Orthod. Dentofac. Orthop. 128: 190–194.
25 25 Shank, S.B., Beck, F.B., d'Atri, A.M., and Huja, S.S. (2012). Bone damage associated with orthodontic placement of miniscrew implants in an animal model. Am. J. Orthod. Dentofac. Orthop. 141: 412–418.
26 26 Su, Y.Y., Wilmes, B., Honscheid, R., and Drescher, D. (2009). Comparison of self‐tapping and self‐drilling orthodontic mini‐implants: an animal study of insertion torque and displacement under lateral loading. Int. J. Oral Maxillofac. Implants 24: 404–411.
27 27 Buchter, A., Wiechmann, D., Koerdt, S. et al. (2005). Load‐related implant reaction of mini‐implants used for orthodontic anchorage. Clin. Oral Implants Res. 16: 473–479.
28 28 Berens, A., Wiechmann, D., and Dempf, R. (2006). Mini‐ and microscrews for temporary skeletal anchorage in orthodontic therapy. J. Orofac. Orthop. 67: 450–458.
29 29 Kim, Y.H., Yang, S., Kim, S. et al. (2010). Midpalatal miniscrews for orthodontic anchorage: factors affecting clinical success. Am. J. Orthod. Dentofac. Orthop. 137: 66–72.
30 30 Kuroda, S., Nishii, Y., Okano, S., and Sueishi, K. (2014). Stress distribution in the mini‐screw and alveolar bone during orthodontic treatment: a finite element study analysis. J. Orthod. 41: 275–284.
31 31 Lin, T., Tsai, F., Chen, C., and Lin, D. (2013). Factorial analysis of variables affecting bone stress adjacent to the orthodontic anchorage mini‐implant with finite element analysis. Am. J. Orthod. Dentofac. Orthop. 143: 182–189.
32 32 Shantavasinkul, P., Akkus, O., Palomo, J.M., and Baumgaertel, S. (2016). Surface strain distribution of orthodontic miniscrews under load. Am. J. Orthod. Dentofac. Orthop. 150: 444–450.
33 33 Cousley, R.R.J. (2009). A stent‐guided mini‐implant system. J. Clin. Orthod. 43: 403–407.
34 34 Buchter, A., Wiechmann, D., Koerdt, S. et al. (2005). Load‐related implant reaction of mini‐implants used for orthodontic anchorage. Clin. Oral Implants Res. 16: 473–479.
35 35 Cha, B., Lee, Y., Lee, N. et al. (2008). Soft tissue thickness for placement of an orthodontic miniscrew using an ultrasonic device. Angle Orthod. 78: 403–408.
36 36 Cha, J., Yoon, T., and Hwang, C. (2008). Insertion and removal torques according to orthodontic mini‐screw design. Korean J. Orthod. 38: 5–12.
37 37 Chang, J.Z., Chen, Y., and Tung, Y. (2012). Effects of thread depth, taper shape, and taper length on the mechanical properties of mini‐implants. Am. J. Orthod. Dentofac. Orthop. 141: 279–288.
38 38 Carano, A., Lonardo, P., Velo, S., and Incorvati, C. (2005). Mechanical properties of three different commercially available miniscrews for skeletal anchorage. Prog. Orthod. 6: 82–97.
39 39 Barros, S.E., Janson, G., Chiqueto, K. et al. (2011). Effect of mini‐implant diameter on fracture risk and self‐drilling efficacy. Am. J. Orthod. Dentofac. Orthop. 140: e181–e192.
40 40 Wilmes, B., Panayotidis, A., and Drescher, D. (2011). Fracture resistance of orthodontic mini‐implants: a biomechanical in vitro study. Eur. J. Orthod. 33: 396–401.
41 41 Deguchi, T., Nasu, M., Murakami, K. et al. (2006). Quantitative evaluation of cortical bone thickness with computed tomographic scanning for orthodontic implants. Am. J. Orthod. Dentofac. Orthop. 129: 721.e–e12.
42 42 Motoyoshi, M., Hirabayashi, M., Uemura, M., and Shimizu, N. (2006). Recommended placement torque when tightening an orthodontic mini‐implant. Clin. Oral Implants Res. 17: 109–114.
43 43 Wilmes, B., Rademacher, C., Olthoff, G., and Drescher, D. (2006). Parameters affecting primary stability of orthodontic mini‐implants. J. Orofac. Orthop. 67: 162–174.
44 44 Wilmes, B., Ottenstreuer, S., Su, Y., and Drescher, D. (2008). Impact of implant design on primary stability of orthodontic mini‐implants. J. Orofac. Orthop. 69: 42–50.
45 45 Lim, S., Cha, J., and Hwang, C. (2008). Insertion torque of orthodontic miniscrews according to changes in shape, diameter and length. Angle Orthod. 78: 234–240.
46 46 Cho, K. and Baek, S. (2012). Effects of predrilling depth and implant shape on the mechanical properties of orthodontic mini‐implants during the insertion procedure. Angle Orthod. 82: 618–624.
47 47 An, J.H., Kim, Y.I., Kim, S.S. et al. (2019). Root proximity of miniscrews at a variety of maxillary and mandibular buccal sites: reliability of panoramic radiography. Angle Orthod. 89: 611–616.
48 48 Garfinkle, J.S., Cunningham, L.L., Beeman, C.S. et al. (2008). Evaluation of orthodontic mini‐implant anchorage in premolar extraction therapy in adolescents. Am. J. Orthod. Dentofac. Orthop. 133: 642–653.
49 49 Cho, U., Yu, W., and Kyung, H. (2010). Root contact during drilling for microimplant placement. Angle Orthod. 81: 130–136.
50 50 Suzuki, E.Y. and Suzuki, B. (2007). A simple three‐dimensional guide for safe miniscrew placement. J. Clin. Orthod. 41: 342–346.
51 51 Liu, H., Liu, D., Wang, G. et al. (2010). Accuracy of surgical positioning of orthodontic miniscrews with a computer‐aided design and manufacturing template. Am. J. Orthod. Dentofac. Orthop. 137: 728.e1–728.e10.
52 52 Bae, M., Kim, J., Park, J. et al. (2013). Accuracy of miniscrew surgical guides assessed from cone‐beam computed tomography and digital models. Am. J. Orthod. Dentofac. Orthop. 143: 893–901.