Advanced gastrointestinal endoscopic imaging for inflammatory bowel diseases

Gastrointestinal luminal endoscopy is of paramount importance for diagnosis, monitoring and dysplasia surveillance in patients with both, Crohn's disease and ulcerative colitis. Moreover, with the recent recognition that mucosal healing is directly linked to the clinical outcome of patients with inflammatory bowel disorders, a growing demand exists for the precise, timely and detailed endoscopic assessment of superficial mucosal layer. Further, the novel field of molecular imaging has tremendously expanded the clinical utility and applications of modern endoscopy, now encompassing not only diagnosis, surveillance, and treatment but also the prediction of individual therapeutic responses. Within this review, we describe how novel endoscopic approaches and advanced endoscopic imaging methods such as high definition and high magnification endoscopy, dye-based and dye-less chromoendoscopy, confocal laser endomicroscopy, endocytoscopy and molecular imaging now allow for the precise and ultrastructural assessment of mucosal inflammation and describe the potential of these techniques for dysplasia detection

From the surface to the single cell: Novel endoscopic approaches in inflammatory bowel disease

Inflammatory bowel diseases (IBD) comprise the two major entities Crohn's disease and ulcerative colitis and endoscopic imaging of the gastrointestinal tract has always been an integral and central part in the management of IBD patients. Within the recent years, mucosal healing emerged as a key treatment goal in IBD that substantially decides about the clinical outcome of IBD patients, thereby demanding for a precise, timely and detailed endoscopic assessment of the mucosal inflammation associated with IBD. Further, molecular imaging has tremendously expanded the clinical utility and applications of modern endoscopy, now encompassing not only diagnosis, surveillance, and treatment but also the prediction of individual therapy response. Within this review we describe novel endoscopic approaches and advanced endoscopic imaging methods for the diagnosis, treatment and surveillance of IBD patients. We begin by providing an overview over novel and advanced imaging techniques such as magnification endoscopy and dye-based and dye-less chromoendoscopy, endomicroscopy and endocytoscopy. We then describe how these techniques can be utilized for the precise and ultrastructural assessment of mucosal inflammation and dysplasia development associated with IBD and outline how they have enabled the endoscopist to gain insight onto the cellular level in real-time. Finally, we provide an outlook on how molecular imaging has rapidly evolved in the recent past and can be used to make individual predictions about the therapeutic response towards biological treatment

Review article: newer optical and digital chromoendoscopy techniques vs. dye-based chromoendoscopy for diagnosis and surveillance in inflammatory bowel disease

BackgroundRecent innovations in gastrointestinal endoscopy have changed our traditional approach to diagnosis and therapy in patients with inflammatory bowel diseases (IBD). While traditionally used dye-based chromoendoscopy (DBC) techniques suffer from several limitations that reduce their utility in daily routine practice, newer dye-less' chromoendoscopy (DLC) techniques offer a great potential to overcome most of these limitations. AimTo review available optical and digital chromoendoscopy techniques, by critically discussing their potential for diagnostic and surveillance colonoscopy in patients with IBD. MethodsA literature search on the use of dye-less and dye-based chromoendoscopy in IBD patients was performed. ResultsIn long-standing IBD, DBC improves detection of dysplasia (diagnostic odds ratio=17.5, 95% CI=1.2-247.1) as well as prediction of inflammatory disease activity and extent of disease compared with standard video-colonoscopy. Narrow band imaging (NBI) shows no improvement in dysplasia detection rates compared with white-light endoscopy and DBC (P=0.6). Moreover, NBI results in a suboptimal differentiation of dysplastic from nondysplastic lesions. No data regarding digital DLC techniques (i.e. FICE, i-scan) for dysplasia detection in IBD are yet available. Both NBI and i-scan are superior to white-light endoscopy in assessing the activity and extent of colorectal IBD. ConclusionsAlthough the potential benefits of newer optical and digital dye-less chromoendoscopy techniques over traditionally used DBC are substantial, only DBC can currently be recommended to improve dysplasia detection in long-standing IBD. In contrast, DLC has the potential to quantify disease activity and mucosal healing in IBD

Band-on-band endoscopic variceal ligation: a technique for the treatment of esophageal varices in case of band misplacement

A 62-year-old woman with porto-sinusoidal vascular disorder and portal hypertension was admitted to the emergency department for hematemesis and anemia (hemoglobin 8.1 mg/dL). Five years ago, she had been treated at another hospital with two sessions of endoscopic variceal ligation (EVL) for esophageal variceal bleeding. After hemodynamic stabilization, an upper gastrointestinal endoscopy was performed and large-caliber esophageal varices with red signs were found in the middle and lower third of the esophagus. There was no active bleeding. EVL (Speedband Superview Super 7; Boston Scientific, Marlborough, Massachusetts, United States) was performed [1], but the placement of one of the bands failed due to poor tissue elevation, causing accidental oozing bleeding. Another band was promptly placed achieving hemostasis, but the position of the band was suboptimal due to inadequate tissue elevation. The small amount of variceal tissue grasped by the band could have caused premature band dislodgement and severe post-banding ulcer bleeding. Therefore, we placed the banding cap over the misplaced band ([Fig. 1]) and applied prolonged suction to achieve maximal tissue prolapse inside the banding cap ([Video 1]). Finally, we placed a new band below the previous one ([Fig. 2]). Such band-on-band EVL was successful, achieving optimal band placement without residual bleeding. No further adverse events occurred and the patient was discharged home 4 days after admission. At a 1-month follow-up visit, no adverse events or rebleeding were reported