[1] [1] O. Gilje, P. A. O′Leary, E. J. Baldes. Capillary microscopic examination in skin diseases［J］. AMA Arch. Derm. Syphilol., 1953, 68(2): 136～147

[2] [2] L. Goldman. Some investigative studies of pigmented nevi with cutaneous microscopy［J］. J. Invest. Dermatol., 1951, 16(6): 407

[3] [3] F. M. Paschoal. Early diagnosis of melanoma by surface microscopy (dermatoscopy)［J］. Sao Paulo Medical Journal, 1996, 114(4): 1220～1221

[4] [4] C. A. Charles, A. A. Marghoob, K. J. Busam et al.. Melanoma or pigmented basal cell carcinoma: a clinical-pathologic correlation with dermoscopy, in vivo confocal scanning laser microscopy, and routine histology［J］. Skin research and Technology: Official Journal of International Society for Bioengineering and the Skin (ISBS)［and］ International Society for Digital Imaging of Skin (ISDIS)［and］ International Society for Skin Imaging (ISSI), 2002, 8(4): 282～287

[5] [5] G. Argenziano, H. P. Soyer. Dermoscopy of pigmented skin lesions-a valuable tool for early diagnosis of melanoma［J］. Lancet Oncol, 2001, 2(7): 443～449

[6] [6] M. L. Bafounta, A. Beauchet, P. Aegerter et al.. Is dermoscopy (epiluminescence microscopy) useful for the diagnosis of melanoma results of a meta-analysis using techniques adapted to the evaluation of diagnostic tests［J］. Arch. Dermatol., 2001, 137(10): 1343～1350

[7] [7] E. S. Spencer, V. P. Petersen. The urinary sediment after renal transplantation［J］. Acta Medica Scandinavica, 1967, 182(1): 73～82

[8] [8] J. Saphier. Die dermatoskopie［J］. Archives of Dermatological Research, 1921, 128(1): 1～19

[9] [9] Nizar A. Mullani, S. Land, TX. Dermoscopy epiluminescence device employing cross and parallel polarization［P］. USA Patent, 2006,7006223B2

[10] [10] A. Marghoob, A. Kopf. Atlas of Dermoscopy［M］. Oxon: Taylor& Francis, 2004. 28～42

[11] [11] H. Pehamberger, A. Steiner, K. Wolff. In vivo epiluminescence microscopy of pigmented skin lesions. I. Pattern analysis of pigmented skin lesions［J］. J. Am .Acad. Dermatol., 1987, 17(4): 571～583

[12] [12] P. Carli, E. Quercioli, S. Sestini et al.. Pattern analysis, not simplified algorithms, is the most reliable method for teaching dermoscopy for melanoma diagnosis to residents in dermatology［J］. Br. J. Dermatol., 2003, 148(5): 981～984

[13] [13] C. M. Grin, K. P. Friedman, J. M. Grant-Kels. Dermoscopy: a review［J］. Dermatol. Clin., 2002, 20(4): 641～646

[14] [14] W. Stolz, A. Riemann, A. Cognetta et al.. ABCD rule of dermatoscopy: a new practical method for early recognition of malignant melanoma［J］. European J. Dermatology, 1994, 4(7): 521～527

[15] [15] S. Menzies, C. Ingvar, K. Crotty et al.. Frequency and morphologic characteristics of invasive melanomas lacking specific surface microscopic features［J］. Archives of Dermatology, 1996, 132(10): 1178～1182

[16] [16] G. Argenziano, G. Fabbrocini, P. Carli et al.. Epiluminescence microscopy for the diagnosis of doubtful melanocytic skin lesions. comparison of the ABCD rule of dermatoscopy and a new 7-point checklist based on pattern analysis［J］. Archives of Dermatology, 1998, 134(12): 1563～1570

[17] [17] V. Dal Pozzo, C. Benelli, E. Roscetti. The seven features for melanoma: a new dermoscopic algorithm for the diagnosis of malignant melanoma［J］. European J. Dermatology, 1999, 9(4): 303～308

[18] [18] H. Kittler, H. Pehamberger, K. Wolff et al.. Diagnostic accuracy of dermoscopy［J］. Lancet Oncol, 2002, 3(3): 159～169

[19] [19] Wu Jianbo, Zheng Jiarun. Fundation and clinical application of dermoscopy technology［J］. Foreign Medical Sciences (Section of Dermatology and Venereology), 2005, 31(5): 282～284

[20] [20] K. Tsukahara, Y. Takema, S. Moriwaki et al.. Dermal fluid translocation is an important determinant of the diurnal variation in human skin thickness［J］. Br. J. Dermatol., 2001, 145(4): 590～596

[21] [21] Li Zhiming, Ren Qiushi, Zhang Xuejun et al.. New development in skin imaging［J］. Chinese J. Dermatology, 2009, 42(3): 215～217

[22] [22] Liu Huaxu, Li Ying, Zheng Zhizhong et al.. New skin imaging technologyskin CT and its application［C］. Progress in Chinese Biomedical Engineering, 2007. 460

[23] [23] M. Marvin. Microscopy apparatus［P］. USA Patent, 1961,3013467

[24] [24] R. Wijnaendts van Resandt, H. Marsman, R. Kaplan et al.. Optical fluorescence microscopy in three dimensions: microtomoscopy［J］. J. Microsc., 1985, 138: 29～34

[25] [25] M. Rajadhyaksha, M. Grossman, D. Esterowitz et al.. In vivo confocal scanning laser microscopy of human skin: melanin provides strong contrast［J］. J. Invest. Dermatol., 1995, 104(6): 946～952

[26] [26] M. Rajadhyaksha, S. Gonzalez, J. M. Zavislan et al.. In vivo confocal scanning laser microscopy of human skin II: advances in instrumentation and comparison with histology［J］. J. Invest. Dermatol., 1999, 113(3): 293～303

[27] [27] S. W. Paddock. Confocal laser scanning microscopy［J］. Bio Techniques, 1999, 27(5): 992～1004

[28] [28] J. M. Girkin, G. McConnell. Advances in laser sources for confocal and multiphoton microscopy［J］. Microsc. Res. Tech., 2005, 67(1): 8～14

[29] [29] M. J. Gruber, A. Wackernagel, E. Richtig et al.. Digital image enhancement for in vivo laser scanning microscopy［J］. Skin Research and Technology: Official Journal of International Society for Bioengineering and the Skin (ISBS)［and］ International Society for Digital Imaging of Skin (ISDIS)［and］ International Society for Skin Imaging (ISSI), 2005, 11(4): 248～253

[30] [30] A. Gerger, R. Hofmann-Wellenhof, U. Langsenlehner et al.. In vivo confocal laser scanning microscopy of melanocytic skin tumours: diagnostic applicability using unselected tumour images［J］. Br. J. Dermatol., 2008, 158(2): 329～333

[31] [31] A. Gerger, S. Koller, W. Weger et al.. Sensitivity and specificity of confocal laser-scanning microscopy for in vivo diagnosis of malignant skin tumors［J］. Cancer, 2006, 107(1): 193～200

[32] [32] K. Konig, K. Schenke-Layland, I. Riemann et al.. Multiphoton autofluorescence imaging of intratissue elastic fibers［J］. Biomaterials, 2005, 26(5): 495～500

[33] [33] K. Knig. Clinical multiphoton tomography［J］. J. Biophotonics, 2008, 1(1): 13～23

[34] [34] A. Ehlers, I. Riemann, M. Stark et al.. Multiphoton fluorescence lifetime imaging of human hair［J］. Microscopy Research and Technique, 2007, 70(2): 154～161

[35] [35] M. Koehler, K. Knig, P. Elsner et al.. In vivo assessment of human skin aging by multiphoton laser scanning tomography［J］. Opt. Lett., 2006, 31(19): 2879～2881

[36] [36] K. Konig. Clinical multiphoton tomography［J］. J. Biophotonics, 2008, 1(1): 13～23

[37] [37] D. Huang, E. A. Swanson, C. P. Lin et al.. Optical coherence tomography［J］. Science, 1991, 254(5035): 1178～1181

[38] [38] M. R. Hee, J. A. Izatt, E. A. Swanson et al.. Optical coherence tomography of the human retina［J］. Arch Ophthalmol., 1995, 113(3): 325～332

[39] [39] Li Peng, Huang Run, Gao Wanrong. Experiment research on optical coherence tomography of human skin［J］. Chinese J. Lasers, 2009, 36(10): 2498～2502

[40] [40] J. L. Leveque. Noninvasive measurements on photodamaged skin［C］. Photodamage Oxford: Blackwell Scientific Publications, 1995, 192～200

[41] [41] J. Welzel, C. Reinhardt, E. Lankenau et al.. Changes in function and morphology of normal human skin: evaluation using optical coherence tomography［J］. British Journal of Dermatology, 2004, 150(2): 220～225

[42] [42] T. Gambichler, G. Moussa, M. Sand et al.. Applications of optical coherence tomography in dermatology［J］. J. Dermatological Science, 2005, 40(2): 85～94

[43] [43] J. Welzel. Optical coherence tomography in dermatology: a review［J］. Skin Research and Technology, 2001, 7(1): 1～9

[44] [44] Mao Zongzhen, Han Zhenzhen, Zhu Dan. Experimental study on in vivo rat skin optical clearing at the action of thiazone［J］. Acta Optica Sinica, 2009, 29(7): 1921～1925

[45] [45] Zhong Huiqing, Guo Zhouyi, Wei Huajiang et al.. Effects of ultrasound and glycerol on sking optical clearing［J］. Chinese J. Lasers, 2009, 36(10): 2503～2509

[46] [46] T. Sun, G. J. Diebold. Generation of ultrasonic waves from a layered photoacoustic source［J］. Nature, 1992, 355(6363): 806～808

[47] [47] Gu Huaimin, Yang Sihua, Xiang Liangzhong. Photoacoustic tomography and applications in the medical clinic diagnosis［J］. Progress in Biochemistry and Biophysics, 2006, 33(5): 431～437

[48] [48] Zhang Jizhuang, Zhang Xuexue. Effects of blood vessel parameters on the photo-thermal interactions during selective photothermolysis［J］. Chinese J. Lasers, 2009, 36(8): 2202～2208

[49] [49] H. F. Zhang, K. Maslov, G. Stoica et al.. Functional photoacoustic microscopy for high-resolution and noninvasive in vivo imaging［J］. Nature Biotechnology, 2006, 24(7): 848～851

[50] [50] E. Z. Zhang, J. G. Laufer, R. B. Pedley et al.. In vivo high-resolution 3D photoacoustic imaging of superficial vascular anatomy［J］. Physics in Medicine and Biology, 2009, 54(4): 1035～1046