|
|
- 2016
光学相干断层成像技术对牙本质成像及其厚度定量测量的研究
|
Abstract:
摘要 目的:研究光学相干断层成像(OCT)技术对牙本质的成像及量化测定能力。方法:磨除20颗下颌中切牙舌侧釉质,显微CT扫描并构建牙齿三维数字模型,标记每颗牙齿舌侧面牙本质最薄处为a点并测量该位点牙本质厚度,OCT扫描相同位点处,获取牙本质OCT影像,并测量对应牙本质厚度。测量结果采用Student’s t检验及相关回归分析。结果:同一位点牙本质厚度OCT测量值显著大于显微CT测量值(P=0.004),但两者间呈显著正相关联(R2=0.9877,P<0.05)。结论:OCT可以用来对髓腔表面牙本质厚度进行无创定量测定
| [1] | Patel S, Dawood A, Whaites E, et al. New dimensions in endodontic imaging: part 1. Conventional and alternative radiographic systems [J]. Int Endod J, 2009, 42(6)∶447-462 |
| [2] | Huang D, Swanson EA, Lin CP, et al. Optical coherence tomography [J]. Science, 1991, 254(5035)∶1178-1181 |
| [3] | Braz AK, Kyotoku BB, Gomes AS. In vitro tomographic image of human pulp-dentin complex: optical coherence tomography and histology [J]. J Endod, 2009, 35(9)∶1218-1221 |
| [4] | Camps J, Dejou J, Remusat M, et al. Factors influencing pulpal response to cavity restorations [J]. Dent Mater, 2000, 16(6)∶432-440 |
| [5] | Genina EA, Bashkatov AN, Tuchin VV. Tissue optical immersion clearing. Expert Rev Med Devices, 2010, 7(6)∶825-842 |
| [6] | Hariri I, Sadr A, Nakashima S, et al. Estimation of the enamel and dentin mineral content from the refractive index. Caries Res, 2013, 47(1)∶18-26 |
| [7] | Meng Z, Yao XS, Yao H, et al. Measurement of the refractive index of human teeth by optical coherence tomography. J Biomed Opt, 2009, 14(3)∶034010 |
| [8] | Bakhsh TA, Sadr A, Shimada Y, et al. Non-invasive quantification of resin-dentin interfacial gaps using optical coherence tomography: validation against confocal microscopy [J]. Dent Mater, 2011, 27(9)∶915-925 |
| [9] | Fried D, Xie J, Shafi S, et al. Imaging caries lesions and lesion progression with polarization sensitive optical coherence tomography [J]. J Biomed Opt, 2002, 7(4)∶618-627 |
| [10] | Fonse Ca D.D., Kyotoku BB, Maia AM, et al. In vitro imaging of remaining dentin and pulp chamber by optical coherence tomography: comparison between 850 and 1280 nm [J]. J Biomed Opt, 2009, 14(2)∶024009 |
| [11] | Fujimoto JG. Optical coherence tomography for ultrahigh resolution in vivo imaging. Nat Biotechnol, 2003, 21(11)∶1361-1367 |
| [12] | Ding J, Ebihara A, Watanabe S, et al. Application of optical coherence tomography to identify pulp exposure during access cavity preparation using an Er:YAG laser [J]. Photomed Laser Surg, 2014, 32(6)∶356-359 |
