Feng: Difference between revisions
imported>Student221 |
imported>Student221 |
||
| Line 4: | Line 4: | ||
== Background == | == Background == | ||
Currently, there is a number of devices available on the market for oral cancer screening purpose. Some examples are [https://apteryx.com/velscope/ Velscope®], [https://www.denmat.com/vizilite-pro-oral-lesion-screening-system.html ViziLite®] and [http://www.identafi.net/ Identafi®]. Among these solutions, ViziLite relies on chemiluminescence in 430-580 nm. Although researchers found its potential utility in identifying occult epithelial abnormalities, ViziLite suffers from high false positive and negative levels, and thus limiting its clinical application [4]. | Currently, there is a number of devices available on the market for oral cancer screening purpose. Some examples are [https://apteryx.com/velscope/ Velscope®], [https://www.denmat.com/vizilite-pro-oral-lesion-screening-system.html ViziLite®] and [http://www.identafi.net/ Identafi®]. Among these solutions, ViziLite relies on chemiluminescence in 430-580 nm. Although researchers found its potential utility in identifying occult epithelial abnormalities, ViziLite suffers from high false positive and negative levels, and thus limiting its clinical application [4]. | ||
[[File:Velscope_exam. | [[File:Velscope_exam.png|200px]] | ||
Velscope is a hand held device that emits 400–460 nm wavelength light to excite fluorophores in the mouth. | Velscope is a hand held device that emits 400–460 nm wavelength light to excite fluorophores in the mouth. | ||
Some researchers suggest that 405 nm wavelength light was able to discriminate neoplastic and non-neoplastic tissue with high sensitivity and specificity [5]. | Some researchers suggest that 405 nm wavelength light was able to discriminate neoplastic and non-neoplastic tissue with high sensitivity and specificity [5]. | ||
Revision as of 00:53, 14 December 2019
Introduction
Cancer screening is the procedure that aims to detect cancer before any signs or symptoms of cancer arise; it is potentially useful for medical diagnosis because early detection of cancer greatly increases the chances for successful treatment [1]. For the case of oral cancer, screening is particularly important as survival does correlate with stage, making early diagnosis and treatment optimal for this disease [2]. Unfortunately, the diagnosis constantly rely on physical examination followed by biopsy confirmation, which could result in delay in diagnosis [3]. As such, more and more research are being conducted to develop easy-to-use, cost effective oral cancer screening devices to encourage and improve this important procedure.
Background
Currently, there is a number of devices available on the market for oral cancer screening purpose. Some examples are Velscope®, ViziLite® and Identafi®. Among these solutions, ViziLite relies on chemiluminescence in 430-580 nm. Although researchers found its potential utility in identifying occult epithelial abnormalities, ViziLite suffers from high false positive and negative levels, and thus limiting its clinical application [4].
Velscope is a hand held device that emits 400–460 nm wavelength light to excite fluorophores in the mouth.
Some researchers suggest that 405 nm wavelength light was able to discriminate neoplastic and non-neoplastic tissue with high sensitivity and specificity [5].
Methods
Results
Conclusions
Appendix
You can write math equations as follows:
You can include images as follows (you will need to upload the image first using the toolbox on the left bar, using the "Upload file" link).
References
[1] https://www.who.int/cancer/detection/en/
[2] Ries LAG, Kosary CL, Hankey BF, et al. SEER Cancer Statistics Review, 1973-1995. Bethesda, MD, NCI.2. American Cancer Society, Facts and Figures, 2000.
[3] https://oralcancerfoundation.org/discovery-diagnosis/cancer-screening-protocols/
[4] Mascitti, M., et al. "An Overview on Current Non-invasive Diagnostic Devices in Oral Oncology" Front. Physiol. 9, 1510 (2018)
[5] Roblyer, D., et al. "Objective detection and delineation of oral neoplasia using autofluorescence imaging", Cancer Prev. Res. 2, 423–431 (2009)