Successful Training in Gastrointestinal Endoscopy. Группа авторов

Successful Training in Gastrointestinal Endoscopy - Группа авторов


Скачать книгу

      Basics of endoscopic anatomy

Photo depicts endoscopic view of the transverse colon. Photo depicts endoscopic view of the hepatic flexure. Photo depicts endoscopic view of the cecum.

      The major landmarks during withdrawal start with the appendiceal orifice, crow's foot, and ileocecal valve of the cecum. The next major landmark is the acute angulation in the colon with the purplish hue of the liver representing the hepatic flexure. The triangular folds of the transverse colon make it readily identifiable. At the distal end of the triangular lumen is a second acute angulation with a purplish hue of the spleen, which signifies the splenic flexure, and is located at roughly 50 cm from the anal verge. Just past this acute turn, one often encounters a collection of retained liquid stool that collects at this point as the proximal segment of the descending colon is the most gravity‐dependent portion of the colon with the patient in the left lateral decubitus position. The descending colon is marked by a long straightaway from roughly 50 to 30–35 cm from the anal verge, followed by a number of acute turns and the more muscular haustra of the sigmoid colon. The rectosigmoid junction is located at roughly 15 cm from the anal verge. Distal to the junction, the rectum is identified by the increase in lumen caliber and the three prominent semilunar folds called the valves of Houston (Figure 6.3). The dentate line is seen on retroflexion in the rectum.

      Preparation

      One of the most important steps in a successful colonoscopy is adequate cleaning of the colon. Without this, polyp detection or pathology identification may be hindered and adequate visualization to enable safe scope advancement may not be possible.

      There are a number of different methods that have been used to prepare the colon. These fall under two main groups: osmotic and nonosmotic agents. Ingestion of highly osmotic agents, such as sodium phosphate, magnesium citrate, or mannitol, function by creating a large osmotic gradient between the bowel lumen and interstitial tissue, resulting in a large influx of fluid from the bowel lining into the lumen. This fluid is then passed, cleansing the colon in the process. These agents have been used successfully; however, they do have significant drawbacks that have led to limitations or even the discontinuation of their use in some instances. As a group, the osmotic agents result in large intravascular and intracellular fluid shifts. In healthy individuals, symptoms of dehydration are not uncommon, however, in patients with significant heart or renal disease, these fluid shifts can lead to significant heart failure or worsening of renal function. Additionally, magnesium citrate and sodium phosphate result in some absorption of their elements and can lead to dangerous elevations of magnesium or phosphate in patients. This is especially true in the elderly or patients with renal insufficiency. Mannitol, on the other hand, is a nondigested carbohydrate and does not get absorbed, which would limit the problem of electrolyte disturbances; however, colonic bacteria can metabolize this carbohydrate, leading to the production of methane and hydrogen gases within the colon. Not only do these gases lead to distention and greater patient discomfort but they are also extremely flammable and can lead to combustion with the use of electrocautery during polyp removal.

      Scope selection

      In general, the standard


Скачать книгу