使用三維追蹤倍頻顯微鏡系統診斷日光角化症

Yi Pan; 潘益

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/7359

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	孫啟光(C.-K. Sun)
dc.contributor.author	Yi Pan	en
dc.contributor.author	潘益	zh_TW
dc.date.accessioned	2021-05-19T17:42:04Z	-
dc.date.available	2021-05-10
dc.date.available	2021-05-19T17:42:04Z	-
dc.date.copyright	2019-05-10
dc.date.issued	2019
dc.date.submitted	2019-05-09
dc.identifier.citation	[1] K. Duncan, A. Sadanand, L. Davachi, “Memory’s penumbra: episodic memory decisions induce lingering mnemonic biases.” Science, 2012, 337:6093 (485-487). [2] H. Robert, M. Lawrence, “Solar keratosis: an evolving squamous cell carcinoma, benign or malignant?” Dermatologic Surgery, 1995, 21:2 (184). [3] M.-H. Gold, M.-S. Nestor, “Current treatments of actinic keratosis.” Journal of Drugs in Dermatology, 2006, 5:2 (17-25). [4] E.-E. Uhlenhake, “Optimal treatment of actinic keratoses.” Clinical Interventions in Aging, 2013, 8 (29-35). [5] R. Marks, G. Renni, T.-S. Selwood, “Malignant transformation of solar keratoses to squamous cell carcinoma.” Lancet, 1988, 331:8589 (795-797). [6] M.-J. Dodson, J.-D. Spain, J.-E. Hewett, “Malignant transformation of actinic keratosis and the controversy over treatment: a patient-oriented perspective.” Archives of Dermatology, 1991, 127:7 (1029-1031). [7] F. Aaron, M. Ellen, “The kinetics of skin cancer: progression of actinic keratosis to squamous cell carcinoma.” Dermatologic Surgery, 2007, 33:9 (1099-1101). [8] W. Fu, C.-J. Cockerell, “The actinic (solar) keratosis: a 21st-century perspective.” Archives of Dermatology, 2003, 139:1 (66-70). [9] K.-O. Duncan, J.-K. Geisse, D.-J. Leffell, “Epithelial precancerous lesions.” 2012, (261-492). [10] Y.-H. Liao, K.-H. Chen, M.-P. Tseng, C.-C. Sun, “Pattern of skin diseases in a geriatric patient group in Taiwan: A 7-year survey from the outpatient clinic of a university medical center.” Dermatology, 2001, 203:4 (308-313). [11] L. Themstrup, G. Pellacani, J. Welzel, J. Holmes, G.-B.-E. Jemec, M. Ulrich, “In vivo microvascular imaging of cutaneous actinic keratosis, Bowen's disease and squamous cell carcinoma using dynamic optical coherence tomography.” The Journal of the European Academy of Dermatology and Venereology, 2017 ,31:10 (1655-1662). [12] J. Olsen, L. Themstrup, N. Carvalho, M. Mogensen, G. Pellacani, G.-B.-E. Jemec, “Diagnostic accuracy of optical coherence tomography in actinic keratosis and basal cell carcinoma.” Photodiagnosis and Photodynamic Therapy, 2016, 16 (44-49). [13] M. Ulrich, A. Maltusch, J. Röwert-Huber, S. González, W. Sterry, E. Stockfleth, S. Astner, “Actinic keratoses: non-invasive diagnosis for field cancerization.” The British Journal of Dermatology, 2007, 156:3 (13-17). [14] M. Mlrich, A. Maltusch, F.-D. Rius, J. Röwert-Huber, S. González, W. Sterry, E. Stockfleth, S. Astner, “Clinical applicability of in vivo reflectance confocal microscopy for the diagnosis of actinic keratoses.” Dermatologic Surgery, 2008, 34:5 (610-619). [15] M.-R. Tsai, S.-Y. Chen, D.-B. Shieh, P.-J. Lou, C.-K. Sun, “In vivo optical virtual biopsy of human oral mucosa with harmonic generation microscopy.” Biomedical Optics Express, 2011, 2:8 (2317-2328). [16] M.-R. Tsai, D.-B. Shieh, P.-J. Lou, C.-F. Lin, C.-K. Sun, “Characterization of oral squamous cell carcinoma based on higher‐harmonic generation microscope.” Journal of Biophotonics, 2012, 5:5-6 (415-424). [17] M.-R. Tsai, Y.-H. Cheng, J.-S. Chen, Y.-S. Sheen, Y.-H. Liao, C.-K. Sun, “Differential diagnosis of nonmelanoma pigmented skin lesions based on harmonic generation microscopy.” Journal of Biomedical Optics, 2014, 19:3 (036001). [18] M.-R. Tsai, C.-Y. Lin, Y.-H. Liao, C.-K. Sun, “Applying tattoo dye as a third-harmonic generation contrast agent for in vivo optical virtual biopsy of human skin.” Journal of Biomedical Optics, 2013, 18:2 (026012). [19] G. J. Brakenhoff, J. Squier, T. Norris, A. C. Bliton, M. H. Wade, B. Athey, “Real-time two-photon confocal microscopy using a femtosecond, amplified Ti:sapphire system.” Journal of Microscopy, 1996, 181:3 (253-259). [20] Y.-C. Guo, P.-P. Ho, H. Savage, D. Harris, P. Sacks, S. Schantz, L. Feng, N. Zhadin, R. R. Alfano, “Second-harmonic tomography of tissues.” Optics Letters, 1997, 22:17, (1323-1325). [21] C. G. Omar, A. C. Millard, C. B. Schaffer, J. A. Au, P.-S. Tsai, J. A. Squier, D. Kleinfeld, “Spectroscopy of third-harmonic generation: evidence for resonances in model compounds and ligated hemoglobin.” Journal of the Optical Society of America B, 2006, 23:5 (932-950). [22] J. Squier, “High resolution nonlinear microscopy: A review of sources and methods for achieving optimal imaging.” Review of Scientific Instruments, 2001,72:7 (2855-2867). [23] S.-Y. Chen, Y.-H. Wu, S.-K. Sun, “In vivo harmonic generation biopsy of human skin.” Journal of Biomedical Optics, 2009, 14:6 (060505). [24] H.-Y. Liao, S.-Y. Chen, S.-Y. Chou, P.-H. Wang, M.-R. Tsai, C.-K. Sun, “Determination of chronological aging parameters in epidermal keratinocytes by in vivo harmonic generation microscopy.” Biomed Optics Express, 2013, 4:1 (77-88). [25] Y.-H. Liao, W.-C. Kuo, S.-Y. Chou, C.-S. Tsai, G.-L. Lin, M.-R. Tsai, Y.-T. Shih, G.-G. Lee, C.-K. Sun, “Quantitative analysis of intrinsic skin aging in dermal papillae by in vivo harmonic generation microscopy.” Biomed Optics Express, 2014, 5:9 (3266-3279). [26] S.-Y. Chen, S.-U. Chen, H.-Y. Wu, W.-J. Lee, Y.-H. Liao, C.-K. Sun, “In vivo virtual biopsy of human skin by using noninvasive higher harmonic generation microscopy.” IEEE Jourmal of Selected Topics in Quantum Electronics, 2010, 16:3 (478-492). [27] C. J. Cockerell, “Histopathology of incipient intraepidermal squamous cell carcinoma.” The American Journal of Dermatopathology, 2000, 42:1 (11-17). [28] https://commons.wikimedia.org/wiki/File:Skinlayers.png [29] https://www.skincancer.org/skin-cancer-information/actinic-keratosis [30] G. M. James, M. Jeffery, “Looking bill and mark principles of dermatology.” 2006 4th edition (40). [31] R. E. Jones, “Questions to the editorial board and other authorities.” The American Journal of Dermatopathology, 1984, 4:1 (91-95). [32] D. Weedon, “Weedon's Skin Pathology” 2010 3rd edition (56-57). [33] A. Michele, D. Mittelbronn, D. L. Mullins, R.-C. A. Francisco, F. P. Flowers, “Frequency of pre‐existing actinic keratosis in cutaneous squamous cell carcinoma.” International Journal of Dermatology, 1998, 37:9 (677-681). [34] R. A. Schwartz, “The actinic keratosis: a perspective and update.” Dermatologic Surgery, 1997, 23:11 (1009-1019). [35] L. Julien, C. Chen, G. Goldenberg, “Actinic keratosis as a marker of field cancerization in excision specimens of cutaneous malignancies.” Cutis, 2016, 97:6 (415-420). [36] https://commons.wikimedia.org/wiki/File:Bowenoid_actinic_keratosis_-_high_mag.jpg [37] T. Day, S. M. Holland, J. P. Scurry, “Normal vulvar histology: variation by site.” Journal of Lower Genital Tract Disease, 2016, 20:1 (64-69). [38] R. R. Lubritz, S. A. Smolewski, “Cryosurgery cure rate of actinic keratoses.” Journal of the American Academy of Dermatology, 1982, 7:5 (631-632). [39] Y.-C. Guo, R.-R. Alfano, “Optical harmonic generation from animal tissues by the use of picosecond and femtosecond laser pulses.” Applied Optics, 1996, 35:34 (6810-6813). [40] “The 10 golden rules of laser safety” 2007, University of Nottingham. [41] “Laser safety manual” 1998, California Institute of Technology. [42] S.-Y. Chen, H.-Y. Wu, C.-K. Sun, “In vivo harmonic generation biopsy of human skin.” Journal of Biomed Optics 2009, 14:6 (060505). [43] A. Böhling, S. Bielfeldt, A. Himmelmann, M. Keskin, K. P. Wilhelm, “Comparison of the stratum corneum thickness measured in vivo with confocal Raman spectroscopy and confocal reflectance microscopy.” Skin Research and Technology, 2014, 20:1 (50-57). [44] Y.-X. Zhen, S. Takaki, H. Tagami, “Number of cell layers of the stratum corneum in normal skin –relationship to the anatomical location on the body, age, sex and physical parameters.” Archives for Dermatological Research, 1999, 291:10 (555-559). [45] https://www.histology.leeds.ac.uk/skin/epidermis_layers.php [46] C.-H. Yu, C.-K. Sun, “In vivo and ex vivo imaging of intra-tissue elastic fibers using third-harmonic-generation microscopy.” Optics Express, 2007, 15:18 (11167-11177). [47] L. Schmitz, P. Kahl, M. Majores, E. Bierhoff, E. Stockfleth, T. Dirschka, “Actinic keratosis: correlation between clinical and histological classification systems.” The Journal of the European Academy of Dermatology, 2016, 30:8 (1303-1307). [48] J. V. Schmitt, H. A. Miot, “Actinic keratosis: a clinical and epidemiological revision.” Brazilian Society of Dermatology, 2012, 87:3 (425-434). [49] W.-H. Weng, C.-K. Sun, “Differentiating intratumoral melanocytes from Langerhans cells in nonmelanocytic pigmented skin tumors in vivo by label-free third harmonic generation microscopy.” Journal of Biomedical Optics, 2016, 21:7 (076009). [50] Y.-F. Qi, C. Xu, “Multi-color background-free coherent antistokes Raman scattering microscopy using a time-lens source.” Optics Express, 2018, 26:26 (34474-34483).
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/7359	-
dc.description.abstract	日光角化症（AK）是一種常見的由太陽光引起的皮膚病變。它通常會導致皮膚角質細胞增殖病變。日光角化症的治療非常重要。因為它是浸入式鱗狀細胞皮膚癌（SCC）的癌前病變徵兆。而且，隨著年齡的增大，人們患上日光角化症的機率會越來越高。日光角化症患者通常會有多個病灶區域。為了日光角化症精確地診斷，本文提出了使用倍頻顯微鏡系統（HGM）作為成像研究工具。倍頻顯微鏡系統提供次微米級別的分辨率，這對於組織病理學檢查是至關重要的。而且倍頻顯微鏡對生物組織造成很小的光學損傷。通過比較倍頻顯微鏡和傳統切片的影像，本論文旨在尋找它們細胞形態學上的一致性，來說明倍頻顯微鏡影像從某種程度上可以代替傳統的切片影像進行診斷。5名年齡在70至93歲之間的日光角化症亞洲志願者（2名女性和3名男性）參與了這項研究。它含有1個離體樣品影像和4個活體影像。為了更好地進行臨床試驗，本文還發展了帶導光臂的可移動倍頻影像系統。在本文結果中，倍頻影像和傳統切片圖像均顯示角質層（SC）角化不全和角化過度現象。在棘層（SS）中，顯示不規則棘皮症，棘層結構異常，棘層細胞和細胞核的多形現象。在基底層（SB）中，均顯示基底細胞擁擠，細胞形態結構異常。在真皮中，倍頻影像還可以看出膠原蛋白組織日光彈性性變。此外，本文還說明了在倍頻圖像中發現的樹突狀結構細胞。本文的案例研究顯示，倍頻顯微影像有潛力成為日光角化症診斷的替代方案，也有助於醫師從事術後追蹤。	zh_TW
dc.description.abstract	Actinic keratosis (AK) is a common cutaneous neoplasm consisting of proliferation of atypical epidermal keratinocytes resulting from severe solar damage. AKs are important because of their potential to develop into invasive cutaneous squamous cell carcinoma (SCC) with the highest incidence in the aged population. AK patients usually have multiple AKs. To study the diagnosis of AK, in vivo harmonic generation microscopy (HGM) was proposed as the imaging tool. HGM provides submicron resolution crucial for histopathological examination and causes little optical damage in bio-tissues. With HGM, this thesis is aimed at seeking out the consistent cell morphology in comparison with the H&E stained histopathological images. Five Asian volunteers (2 females and 3 males) aged from 70 to 93 years old with AK were enrolled in this study. It contained 1 ex vivo and 4 in vivo examinations. Due to the clinical demands, we also developed movable HGM system with light guide in this study. HGM and H&E images of AK both show parakeratosis and hyperkeratosis in the stratum corneum (SC), irregular acanthosis, abnormal architecture and pleomorphism of cells and nuclei in the stratum spinosum (SS), crowding of keratinocytes, abnormal architecture and pleomorphism of cells and nuclei in the stratum basale (SB), and solar elastosis in the dermis. Moreover, we also found dendritic-like cells in AK through HGM images. Our case study indicates that noninvasive HGM may become an alternative to invasive biopsy in the diagnosis of AKs and also helps physician to improve follow-up treatment assessment.	en
dc.description.provenance	Made available in DSpace on 2021-05-19T17:42:04Z (GMT). No. of bitstreams: 1 ntu-108-R05941105-1.pdf: 6211373 bytes, checksum: c87e8a6489291308c4dbcb4a971e1a8a (MD5) Previous issue date: 2019	en
dc.description.tableofcontents	口試委員會審定書 i 致謝 ii 摘要 iii ABSTRACT v CONTENTS vii LIST OF FIGURES 1 LIST OF TABLES 11 Chapter 1 Introduction 13 1.1 Motivation 13 1.2 Thesis Scope 15 Chapter 2 Basic Concept 16 2.1 Harmonic Generation Microscope 16 2.2 Epidermis of Skin 18 2.3 Actinic Keratoses 19 2.3.1 Clinical Presentation of Actinic Keratoses 20 2.3.2 Histopathologic Features of Actinic Keratoses 20 2.3.3 Comparing AK and Normal Tissues with H&E Examination 22 2.3.4 Treatment 24 Chapter 3 Optical Tracking System Setup 26 3.1 3D Camera Tracking System 26 3.2 Optical System Setup 28 3.3 Movable Optical System Setup 31 Chapter 4 Materials and Methods 36 4.1 Protocol of the Clinical Trial 36 4.2 Image Acquisition 37 Chapter 5 Results and Discussion 39 5.1 Images of the 3D Tracking System 39 5.2 Images of HGM 40 5.2.1 Normal Epidermal Images of HGM 41 5.2.2 Result of the AK Patient 00 42 5.2.3 Result of the AK Patient 01 49 5.2.4 Result of the AK Patients 03 and 04 52 5.2.5 Result of the AK Patient 02 58 5.2.6 Summary 62 5.3 Discussion 63 REFERENCES 73 COPYRIGHT 76
dc.language.iso	en
dc.title	使用三維追蹤倍頻顯微鏡系統診斷日光角化症	zh_TW
dc.title	Application of a Three-dimensional Tracking System with Harmonic Generation Microscope for Diagnosing Multiple Actinic Keratosis	en
dc.type	Thesis
dc.date.schoolyear	107-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	廖怡華(Y.-H. Liao),江惠華(H.-H. Chiang)
dc.subject.keyword	倍頻顯微術,日光角化症,活體光學切片,細胞組織形態,	zh_TW
dc.subject.keyword	harmonic generation microscopy,actinic keratosis,in vivo optical biopsy,cell morphology,	en
dc.relation.page	79
dc.identifier.doi	10.6342/NTU201900754
dc.rights.note	同意授權(全球公開)
dc.date.accepted	2019-05-09
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	光電工程學研究所	zh_TW
顯示於系所單位：	光電工程學研究所

文件中的檔案：

檔案	大小	格式
ntu-108-1.pdf	6.07 MB	Adobe PDF	檢視/開啟

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。