The investigators establish a randomized controlled clinical trial, comparing the efficacy and prognosis of GVL and GVO in secondary prevention of GVs, especially in patients with portosystemic shunting, and exploring the endoscopic treatment selection of different types of GVs. Outcome expectations: Compared with glue injection, endoscopic ligation for secondary prevention of gastric varices is safe and effective, especially in patients with portosystemic shunting.
Gastric varices (GVs) is a common complication of portal hypertension, with an incidence of 20%. Though the bleeding rate of GVs (25%) is lower than that of Esophageal varices (EVs), the mortality rate is higher due to greater GVs rupture and less space for endoscopic intervention. In addition, in 30% of patients with GVs, the possibility of treatment failure exists. Guidelines differ on endoscopic treatment for secondary prevention of GVs.Current studies suggest that EVL, due to its low incidence of complications, is suitable for GOV1, while it is still controversial for the treatment of gastric varices. Compared with glue, the advantage of ligation is that it can avoid serious complications caused by glue injection, such as ectopic embolization, large ulcer and sepsis. As there are few studies comparing GVL and GVO in secondary prevention of gastric varices, the treatment methods are different, and the treatment effect is controversial. In addition, the choice of treatment for different types of GVs needs further study. The investigators establish a randomized controlled clinical trial, comparing the efficacy and prognosis of GVL and GVO in secondary prevention of GVs, especially in patients with portosystemic shunting, and exploring the endoscopic treatment selection of different types of GVs. Outcome expectations: Compared with glue injection, endoscopic ligation for secondary prevention of gastric varices is safe and effective, especially in patients with portosystemic shunting.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
NONE
The highest point of the variceal vein was used as the primary ligation site. If the input vein was not obvious, the edge of the variceal vein was ligated. The variceal veins were ligated with a 6-ring ligation device, and more than 18 rings rubber bands could be applied in one session. GVL was performed regularly until varices were obliterated or reduced to residual small varices, which could not be ligated. The residual small varices was treated by cyanoacrylate injection.
Gastric varices were uniformly treated via the sandwich technique, which starts with an injection of lauromacrogol, followed by N-butyl cyanoacrylate, then finished with flush of lauromacrogol. The number of injection sites and volume of lauromacrogol and cyanoacrylate used, directly correlated with the size of the varix. Multiple injection sites were chosen in attempt to obliterate the varix or varices in one session. Volume of lauromacrogol used ranged from 2-10ml, while that of cyanoacrylate ranged from 0.5-2ml, per injection site.
Rate of rebleeding
New onset of hematemesis, coffee-ground vomitus, hematochezia,or melena,with an increasing pulse rate over 100 beats/min and decreasing blood pressure below 90 mmHg after a 24-hour period of stable vital signs and hemoglobin after endoscopic treatment.
Time frame: 6 months
Rate of GV eradication
non-visualization of patent GV
Time frame: 6 months
Incidence of complications
Huge ulcer on GV, spontaneous bacterial peritonitis, bacteremia
Time frame: 6 months
mortality
Survival situation of patience
Time frame: 6 months
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Enrollment
166