%0 Journal Article
%T Minimally Invaded Sentinel Lymph Node Model for the Development of Intraoperative Infrared Fluorescence Imaging
%A Badiane Serigne Moussa
%A Raes Florian
%A Julien Sobilo
%A Natkunarajah Sharuja
%A Lerondel St¨¦phanie
%A Le Pape Alain
%J Advances in Molecular Imaging
%P 48-58
%@ 2161-6752
%D 2018
%I Scientific Research Publishing
%R 10.4236/ami.2018.84005
%X In this study we implemented an axillary SLN invasion model to develop highly sensitive imaging strategies enabling detection of a very small amount of tumor cells. A highly diffusible molecular probe targeting <span style=\"white-space:nowrap;\"><em>&amp;alpha;v&amp;beta;</em></span><em>3</em> and <span style=\"white-space:nowrap;\"><em>&amp;alpha;v&amp;beta;5</em></span> integrins was investigated either via IV or locoregional injections. We additionally documented the potential interferences of this Near Infrared Fluorescence Probe with Blue Patente V and ICG dyes routinely used to facilitate lymph node detection during surgery. The human mammary adenocarcinoma MDA-MB-231-luc model was injected into the forepaw of nude female rats to obtain a controlled invasion of the axillary LN. Thanks to its high sensitivity, BLI was selected to achieve <em>in vivo</em> quantitation of tumor cells in SLNs and determine eligible animals for the study. NIRF of integrins was performed at 680 nm both <em>in vivo</em> and <em>ex vivo</em> using spectral unmixing to suppress auto-fluorescence signal and preserve sensitivity. <em>In vivo</em> BLI was quite reliable in estimating discrete invasion by cancer cells in the LN with thresholds of detection and quantitation of about 500 and 1500 cells respectively. For fluorescence at 680 nm,<em> in vivo</em> imaging is not suitable to detect micro-invasion, but <em>ex vivo</em> fluorescence with spectral unmixing of SLNs confirmed the presence of a tumor burden as low as 1500 cells expressing <span style=\"white-space:nowrap;\"><em>&amp;alpha;v&amp;beta;3</em></span><em>/</em><span style=\"white-space:nowrap;\"><em>&amp;alpha;v&amp;beta;5</em></span> integrins. Targeting few tumor cells inside a micro-invaded sentinel lymph node by molecular probes is not sensitive enough to provide direct <em>in vivo</em> or peroperative imaging. At the time NIRF is performed on the excised specimen, high sensitivity imaging associated with spectral unmixing allowed such detection within less than 1 minute of examination.
%K Sentinel Lymph Node
%K Near Infrared Fluorescence Imaging
%K Photoacoustic Imaging
%K Molecular Imaging
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=87377