摘要
While flexible endoscopy is essential for macroscopic evaluation,confocal laser endomicroscopy(CLE)has recently emerged as an endoscopic method enabling visualization at a cellular level.Two systems are currently available,one based on miniprobes that can be inserted via a conventional endoscope or via a needle guided by endoscopic ultrasound.The second system has a confocal microscope integrated into the distal part of an endoscope.By adding molecular probes like fluorescein conjugated antibodies or fluorescent peptides to this procedure(either topically or systemically administered during on-going endoscopy),a novel world of molecular evaluation opens up.The method of molecular CLE could potentially be used for estimating the expression of important receptors in carcinomas,subsequently resulting in immediate individualization of treatment regimens,but also for improving the diagnostic accuracy of endoscopic procedures by identifying otherwise invisible mucosal lesions.Furthermore,studies have shown that fluorescein labelled drugs can be used to estimate the affinity of the drug to a target organ,which probably can be correlated to the efficacy of the drug.However,several of the studies in this research field have been conducted in animal facilities or in vitro,while only a limited number of trials have actually been carried out in vivo.Therefore,safety issues still needs further evaluations.This review will present an overview of the implications and pitfalls,as well as future challenges of molecular CLE in gastrointestinal diseases.
While flexible endoscopy is essential for macroscopic evaluation, confocal laser endomicroscopy (CLE) has recently emerged as an endoscopic method enabling visualization at a cellular level. Two systems are currently available, one based on miniprobes that can be inserted via a conventional endoscope or via a needle guided by endoscopic ultrasound. The second system has a confocal microscope integrated into the distal part of an endoscope. By adding molecular probes like fluorescein conjugated antibodies or fluorescent peptides to this procedure (either topically or systemically administered during on-going endoscopy), a novel world of molecular evaluation opens up. The method of molecular CLE could potentially be used for estimating the expression of important receptors in carcinomas, subsequently resulting in immediate individualization of treatment regimens, but also for improving the diagnostic accuracy of endoscopic procedures by identifying otherwise invisible mucosal lesions. Furthermore, studies have shown that fluorescein labelled drugs can be used to estimate the affinity of the drug to a target organ, which probably can be correlated to the efficacy of the drug. However, several of the studies in this research field have been conducted in animal facilities or in vitro, while only a limited number of trials have actually been carried out in vivo. Therefore, safety issues still needs further evaluations. This review will present an overview of the implications and pitfalls, as well as future challenges of molecular CLE in gastrointestinal diseases.
基金
Supported by ERC-like nr.7/2012 "Real-time Evaluation of Treatment Effects in Advanced Colorectal Carcinoma (REACT)",project ID PNII-CT-ERC-2012-1
financed by the Executive Agency for Higher Education,Research,Development and Innovation Funding (CNCS-UEFISCDI)
Romanian National Authority for Scientific Research,Ministry of National Education,ROMANIA
Establishment of confocal laser endomicroscopy in Copenhagen was possible due to the generous contributions of A.P.Moller and Chastine McKinney Mollers Foundation,Foundation Jochum,The Toyota Foundation and the Foundation of Aase and Ejnar Danielsen
The Foundation of Arvid Nilsson and The Lundbeck Foundation supported the activity of JGK and AS,respectively
