Abstract
Cancer surgery remains the primary treatment option for most solid tumors and can be curative if all malignant cells are removed. Surgeons have historically relied on visual and tactile cues to maximize tumor resection, but clinical data suggest that relapse occurs partially due to incomplete cancer removal. As a result, the introduction of technologies that enhance the ability to visualize tumors in the operating room represents a pressing need. Such technologies have the potential to revolutionize the surgical standard-of-care by enabling real-time detection of surgical margins, subclinical residual disease, lymph node metastases and synchronous/metachronous tumors. Fluorescence-guided surgery (FGS) in the near-infrared (NIRF) spectrum has shown tremendous promise as an intraoperative imaging modality. An increasing number of clinical studies have demonstrated that tumor-selective FGS agents can improve the predictive value of fluorescence over non-targeted dyes. Whereas NIRF-labeled macromolecules (i.e., antibodies) spearheaded the widespread clinical translation of tumor-selective FGS drugs, peptides and small-molecules are emerging as valuable alternatives. Here, we first review the state-of-the-art of promising low molecular weight agents that are in clinical development for FGS; we then discuss the significance, application and constraints of emerging tumor-selective FGS technologies.
Highlights
Fluorescence-guided surgery (FGS) is an imaging technique that is uniquely suited to bridge the gap between pre-operative radiologic imaging and post-operative histopathological assessment of cancer
Applying the aforementioned selection criteria, we identified a total of 6 agents: OTL38, BLZ-100, ABY-029, LS301, cRGD-ZW800-1 and BBN-IRdye800CW
Results showed that standard-of-care minimally invasive surgery (MIS) of pituitary adenomas had 88% sensitivity and 90% specificity; indocyanine green (ICG) increased sensitivity to 100%, but had a specificity of 29% for both functioning and non-functioning adenomas
Summary
Fluorescence-guided surgery (FGS) is an imaging technique that is uniquely suited to bridge the gap between pre-operative radiologic imaging and post-operative histopathological assessment of cancer. The administration of a fluorescent contrast agent, its localization to sites of interest, and detection by an optical imaging device are the fundamental steps for generating an intraoperative fluorescent image. Clinical FGS studies have reported improved surgical outcomes and patient benefit with a variety of contrast agents [1,2,3,4]. The excellent safety profile and favorable spectral properties of ICG have led to its use in numerous clinical applications such as angiography, tissue perfusion, sentinel lymph node mapping, and tumor imaging [5, 6]. ICG has been instrumental in demonstrating the utility of FGS [8, 9], there is a critical need to expand FGS applications with agents that possess improved tumor specificity
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