[1] Benazzi S, Fantini M, De CF, et al. Improving the spatial orientation of human teeth using a virtual 3D approach [J]. J Hum Evol, 2009, 56(3)∶286-293 [2] Pizarro D, Bartoli A. Global optimization for optimal generalized procrustes analysis [J]. 2011, 32(14)∶2409-2415 [3] 张长东.口腔修复嵌体造型关键技术研究[D].南京航空航天大学, 2013 [4] BAI Ming, YANG XingKe, LI Jing, et al. Geometric Morphometrics, a super scientific computing tool in morphology comparison [J]. Chin Sci Bull, 2014, 59(10)∶887-894 [5] 任雯,韩前超,向国林,等.上颌第二磨牙的解剖外形研究[J].口腔医学研究,2012,28(12)∶1298-1300 [6] 林子琦.青年人上颌中切牙的形态及分类研究[D].南京大学,2016 [7] Mitteroecker P, Philipp G. Semilandmarks: A Method for Quantifying Curves and Surfaces [J]. Hystrix, 2013, 24(1)∶103-109 [8] Aida G R, José María B D C, María M T, et al. A geometric morphometric analysis of hominin lower molars: Evolutionary implications and overview of postcanine dental variation [J]. J Hum Evol, 2015, 82∶34-50 [9] 邱晓霞,韩丽会,郭东晓,等.CBCT测量正常人牙齿及牙列形态数据的可行性研究[J].口腔医学研究,2013(5)∶406-409 [10] Pizarro D, Bartoli A. Global optimization for optimal generalized procrustes analysis [J]. 2011, 32(14)∶2409-2415 [11] Singleton M, Rosenberger A L, Robinson C, et al. Allometric and metameric shape variation in Pan mandibular molars: a digital morphometric analysis [J]. Anat Rec, 2011, 294(2)∶322-334 [12] Polychronis G, Christou P, Mavragani M, et al. Geometric morphometric 3D shape analysis and covariation of human mandibular and maxillary first molars [J]. Am J Phys Anthropol, 2013, 152(2)∶186-196 |