A human serum albumin-indocyanine green complex offers improved tumor identification in fluorescence-guided surgery

Yunlong Li; Chun Dai; Zhaolai Hua; Lin Xia; Yongbin Ding; Qiang Wang; Marie-Laure Matthey Gié; Michael Bouvet; Huiming Cai

doi:10.21037/tcr-23-2338

A human serum albumin-indocyanine green complex offers improved tumor identification in fluorescence-guided surgery

Transl Cancer Res. 2024 Jan 31;13(1):437-452. doi: 10.21037/tcr-23-2338. Epub 2024 Jan 29.

Authors

Yunlong Li^#¹, Chun Dai^#², Zhaolai Hua², Lin Xia², Yongbin Ding³, Qiang Wang⁴, Marie-Laure Matthey Gié^{5

6}, Michael Bouvet⁷, Huiming Cai⁸

Affiliations

¹ Department of Biomedical Engineering, College of Engineering and Applied Sciences, Nanjing University, Nanjing, China.
² Department of General Surgery, The People's Hospital of Yangzhong City, Yangzhong, China.
³ Department of General Surgery, Pukou Branch of Jiangsu People's Hospital, Nanjing, China.
⁴ School of Life Sciences, Jiangsu University, Zhenjiang, China.
⁵ Department of Thoracic and Endocrine Surgery, University Hospital of Geneva (HUG), Geneva, Switzerland.
⁶ Department of Surgery, Clinica Moncucco, Lugano, Switzerland.
⁷ Department of Surgery, University of California, San Diego, CA, USA.
⁸ Nanjing Nuoyuan Medical Devices Co., Ltd., Nanjing, China.

^# Contributed equally.

Abstract

Background: Complete tumor removal is critical for achieving a good prognosis in patients but remains challenging for surgeons. Near-infrared fluorescence-guided surgery (NIRFGS) enables surgeons to accurately localize tumors in real time and facilitates accurate resection. Indocyanine green (ICG) has been approved by the U.S. Food and Drug Administration and the National Medical Products Administration for many years. Although the application of ICG has progressed for a variety of surgeries, there are inherent limitations to ICG, including poor water solubility and photostability, short blood half-life, and aggregation in blood, resulting in poor imaging performance. We found that mixing ICG with human serum albumin (HSA) preoperatively and then injecting it can improve the imaging performance.

Methods: We prepared fluorescent probes by combining ICG with HSA and identified their optimal ratio via in vitro absorption measurement and emission spectrum characterization of ICG-HSA complex with different mixing ratios and concentration gradients. Subsequently, under the optimal ratio and clinical simulated concentration, we conducted dynamic change analysis of the fluorescence spectral properties after mixing. We then compared the uptake of ICG-HSA in vitro for two different cell types and the imaging performance of different molar ratios of ICG and HSA in mouse models.

Results: Through in vitro absorption and emission spectrum characterization of ICG-HSA mixtures with different mixing ratios and concentration gradients, the optimal ratio of the mixture was obtained (ICG:HSA =4:5). Using this ratio, clinical simulated concentration, and mixing, we completed the dynamic change analysis of the fluorescence spectrum properties. The results verified that HSA can improve the dispersion and stability of ICG in aqueous solution, reduce the proportion of free-state ICG, and thus improve the biodistribution. Moreover, the fluorescence performance of ICG was improved. ICG-HSA and ICG uptake in MDA-MB-231 cells and imaging in vivo showed that HSA increased the enrichment of ICG in tumor compared to ICG alone (ICG-HSA_{fluorescence intensity} =237.3±10.7 vs. ICG_{fluorescence intensity} =127.1±10.7). Compared with ICG alone, ICG-HSA provided a clearer tumor boundary and higher tumor-to-background ratio (TBR) (ICG-HSA_TBRmax 3.49±0.56 vs. ICG_TBRmax 1.94±0.23).

Conclusions: This study suggests that ICG-HSA can achieve higher tumor-to-background contrast with shorter time and can provide an overall superior imaging performance compared to ICG alone, thus exhibiting considerable potential for clinical application.

Keywords: Near-infrared fluorescence-guided surgery (NIRFGS); human serum albumin (HSA); indocyanine green (ICG); tumor imaging.