Page 47 - Noninvasive Diagnostic Techniques for the Detection of Skin Cancers
P. 47
78. Bafounta ML, Beauchet A, Aegerter P, et al. 87. Rajadhyaksha M. Confocal microscopy of
Is dermoscopy (epiluminescence skin cancers: translational advances toward
microscopy) useful for the diagnosis of clinical utility. Conference Proceedings:
melanoma? Results of a meta-analysis using 2009;Annual:International-3.
techniques adapted to the evaluation of
diagnostic tests. Archives of Dermatology 88. Nehal KS, Gareau D, Rajadhyaksha M. Skin
2001;137(10):1343-1350. imaging with reflectance confocal
microscopy. [Review] [51 refs]. Seminars in
79. Hofmann-Wellenhof R, Wurm EM, Cutaneous Medicine & Surgery
hlgrimm-Siess V, et al. Reflectance confocal 2008;27(1):37-43.
microscopy--state-of-art and research
overview. Seminars in Cutaneous Medicine 89. Zmudzinska M, Czarnecka-Operacz M,
Silny W. Principles of dermatologic
& Surgery 2009;28(3):172-179.
ultrasound diagnostics. [Review] [22 refs].
80. Gonzalez S. Confocal reflectance Acta Dermatovenerologica Croatica
microscopy in dermatology: promise and 2008;16(3):126-129.
reality of non-invasive diagnosis and
monitoring. Actas Dermo-Sifiliograficas 90. Guitera P, Li LX, Crotty K, et al. Melanoma
2009;100:Suppl-69. histological Breslow thickness predicted by
75-MHz ultrasonography. British Journal of
81. Branzan AL, Landthaler M, Szeimies RM. Dermatology 2008;159(2):364-369.
In vivo confocal scanning laser microscopy 91. Vilana R, Puig S, Sanchez M, et al.
in dermatology. [Review] [57 refs]. Lasers
in Medical Science 2007;22(2):73-82. Preoperative assessment of cutaneous
melanoma thickness using 10-MHz
82. Scope A, venuto-Andrade C, Agero AL, et sonography. AJR Am J Roentgenol
al. In vivo reflectance confocal microscopy 2009;193(3):639-643.
imaging of melanocytic skin lesions:
consensus terminology glossary and 92. Pellacani G, Seidenari S. Preoperative
melanoma thickness determination by 20-
illustrative images. Journal of the American
Academy of Dermatology 2007;57(4):644- MHz sonography and digital
videomicroscopy in combination. Archives
658.
of Dermatology 2003;139(3):293-298.
83. Guitera P, Pellacani G, Longo C, et al. In 93. Serrone L, Solivetti FM, Thorel MF, et al.
vivo reflectance confocal microscopy
enhances secondary evaluation of High frequency ultrasound in the
preoperative staging of primary melanoma:
melanocytic lesions. Journal of Investigative
Dermatology 2009;129(1):131-138. a statistical analysis. Melanoma Research
2002;12(3):287-290.
84. Guitera P, Pellacani G, Crotty KA, et al. The
impact of in vivo reflectance confocal 94. Weichenthal M, Mohr P, Breitbart EW. The
velocity of ultrasound in human primary
microscopy on the diagnostic accuracy of
lentigo maligna and equivocal pigmented melanoma tissue - implications for the
clinical use of high resolution sonography.
and nonpigmented macules of the face.
Journal of Investigative Dermatology BMC Dermatology 2001;1:1.
2010;130(8):2080-2091. 95. Schmid-Wendtner MH, Burgdorf W.
85. Pellacani G, Guitera P, Longo C, et al. The Ultrasound scanning in dermatology.
[Review] [30 refs]. Archives of
impact of in vivo reflectance confocal
microscopy for the diagnostic accuracy of Dermatology 2005;141(2):217-224.
melanoma and equivocal melanocytic 96. Dummer W, Blaheta HJ, Bastian BC, et al.
lesions. Journal of Investigative Preoperative characterization of pigmented
Dermatology 2007;127(12):2759-2765. skin lesions by epiluminescence microscopy
86. Segura S, Puig S, Carrera C, et al. and high-frequency ultrasound. Archives of
Dermatology 1995;131(3):279-285.
Development of a two-step method for the
diagnosis of melanoma by reflectance
confocal microscopy. Journal of the
American Academy of Dermatology
2009;61(2):216-229.
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