Real-time near-infrared fluorescence tracer imaging to guide sentinel node biopsy and tumor detection in head and neck cancer

Introduction: Near-infrared fluorescence (NIRF) imaging is an emerging technology with several important applications in oncologic surgery. Using fluorescent dyes and dedicated camera systems, real-time intraoperative imaging is provided to guide surgical procedures and allow for instant decision-making. NIRF imaging has the potential to improve the Sentinel Node Biopsy (SNB) procedure for staging of oral cavity cancer by facilitating intraoperative visual identification of the sentinel lymph node (SN). Also, NIRF imaging may be used in the search of head and neck unknown primaries (CUP) in combination with transoral robotic surgery (TORS). The feasibility of NIRF imaging for intraoperative SN detection was investigated in a series of oral cavity cancer patients. In addition, our initial experience of using NIRF imaging during TORS for detection of oropharyngeal cancer will also be reported (ongoing study). Methods: (1) A prospective study of patients with primary oral squamous cell carcinoma (OSCC) planned for tumor resection and SNB. Thirty patients were injected peritumorally with a bimodal tracer (ICG-99mTc-Nanocoll) followed by lymphoscintigraphy (LSG) and SPECT/CT to define the SNs and their anatomical location preoperatively. SNs were detected intraoperatively with a hand-held gamma-probe and a hand-held NIRF camera. (2) In a minor prospective series of patients with oropharyngeal cancer undergoing TORS Indocyanin Green (ICG) was systematically injected preoperatively. The aim was to guide primary tumor detection using the firefly NIRF modality incorporated in the Da Vinci Si robotic system. Results: (1) In the SNB study, 29 of 30 subjects (97%), all preoperatively defined SNs could be identified intraoperatively using a combination of radioactive and fluorescence guidance. Eleven of 94 SNs (12%) could only be identified in vivo using NIRF imaging and the majority of those were located in level 1 close to the primary tumor. (2) In the pilot ICG TORS study, the additional use of ICG for primary tumor identification was varying. Conclusions: Intraoperative NIRF imaging as a tool to guide cancer surgery seems promising and further exploration of this novel technology is warranted. A combined fluorescent and radioactive tracer for SNB is feasible and the additional use of NIRF imaging may improve the accuracy of SN identification in oral cancer patients. Intraoperative fluorescence guidance seems of particular value, when SNs are located in close proximity to the injection site. Combined TORS and NIRF imaging showed with a varying quality the localization of the oropharyngeal cancer. The combined procedure may have a potential role in the diagnostic algorithm in head and neck CUP patients facilitating the detection of the primary tumor. Citation Format: Christian von Buchwald, Anders Christensen, Niclas Rubek, Karina Juhl, Birgitte Charabi, Jann Mortensen, Katalin Kiss, Andreas Kjaer. Real-time near-infrared fluorescence tracer imaging to guide sentinel node biopsy and tumor detection in head and neck cancer [abstract]. In: Proceedings of the AACR-AHNS Head and Neck Cancer Conference: Optimizing Survival and Quality of Life through Basic, Clinical, and Translational Research; April 23-25, 2017; San Diego, CA. Philadelphia (PA): AACR; Clin Cancer Res 2017;23(23_Suppl):Abstract nr IA13.