Novel method of intraoperative liver tumour localisation with indocyanine green and near-infrared imaging

INTRODUCTION@#Fluorescence imaging (FI) with indocyanine green (ICG) is increasingly implemented as an intraoperative navigation tool in hepatobiliary surgery to identify hepatic tumours. This is useful in minimally invasive hepatectomy, where gross inspection and palpation are limited. This study aimed to evaluate the feasibility, safety and optimal timing of using ICG for tumour localisation in patients undergoing hepatic resection.@*METHODS@#From 2015 to 2018, a prospective multicentre study was conducted to evaluate feasibility and safety of ICG in tumour localisation following preoperative administration of ICG either on Day 0-3 or Day 4-7.@*RESULTS@#Among 32 patients, a total of 46 lesions were resected: 23 were hepatocellular carcinomas (HCCs), 12 were colorectal liver metastases (CRLM) and 11 were benign lesions. ICG FI identified 38 (82.6%) lesions prior to resection. The majority of HCCs were homogeneous fluorescing lesions (56.6%), while CLRM were homogeneous (41.7%) or rim-enhancing (33.3%). The majority (75.0%) of the lesions not detected by ICG FI were in cirrhotic livers. Most (84.1%) of ICG-positive lesions detected were < 1 cm deep, and half of the lesions ≥ 1 cm in depth were not detected. In cirrhotic patients with malignant lesions, those given ICG on preoperative Day 0-3 and Day 4-7 had detection rates of 66.7% and 91.7%, respectively. There were no adverse events.@*CONCLUSION@#ICG FI is a safe and feasible method to assist tumour localisation in liver surgery. Different tumours appear to display characteristic fluorescent patterns. There may be no disadvantage of administering ICG closer to the operative date if it is more convenient, except in patients with liver cirrhosis.

Targeted Near-Infrared Fluorescence Imaging for Regenerative Medicine

BACKGROUND: Advances in tissue engineering and regenerative medicine over the last three decades have made great progress in the development of diagnostic and therapeutic methodologies for damaged tissues. However, regenerative medicine is still not the first line of treatment for patients due to limited understanding of the tissue regeneration process. Therefore, it is prerequisite to develop molecular imaging strategies combined with appropriate contrast agents to validate the therapeutic progress of damaged tissues. METHODS: The goal of this review is to discuss the progress in the development of near-infrared (NIR) contrast agents and their biomedical applications for labeling cells and scaffolds, as well as monitoring the treatment progress of native tissue in living organisms. We also discuss the design consideration of NIR contrast agents for tissue engineering and regenerative medicine in terms of their physicochemical and optical properties. RESULTS: The use of NIR imaging system and targeted contrast agents can provide high-resolution and high sensitivity imaging to track/monitor the in vivo fate of administered cells, the degradation rate of implanted scaffolds, and the tissue growth and integration of surrounding cells during the therapeutic period. CONCLUSION: NIR fluorescence imaging techniques combined with targeted contrast agents can play a significant role in regenerative medicine by monitoring the therapeutic efficacy of implanted cells and scaffolds which would enhance the development of cell therapies and promote their successful clinical translations.

Progress of medical imaging technology / 医疗卫生装备

In recent years,the medical imaging technology has developed rapidly.New imaging methods are unceasingly emerging,and the existed imaging modes have been continuously improved.The trends of medical imaging technology have developed from two-dimension imaging to three-dimension imaging,from localized imaging to whole-body imaging,from static imaging to dynamic imaging and from structure to function.This thesis introduces the new imaging methods,such as Molecular Imaging,Near Infrared Imaging and so on.

The fNIRI Study on Regional Cerebral Blood Oxygenation Changes during Cognition Tasks of Chinese Dyslexic Children / 中国临床心理学杂志

Objective:To investigate the regional cerebral blood oxygenation changes of left prefrontal lobe during dyslexic children recognizing Chinese characters. Methods:We use functional near-infrared imaging (fNIRI) technique to observe 28 dyslexic elementary school students and 19 healthy students who are not reading-impaired.Results:With fNIRI, significant activations were observed in the left prefrontal cortex of both dyslexic children and non-dyslexic children during primary processing of Chinese characters, and children with dyslexia were evoked more significantly ( P