Gastric dilatation volvulus syndrome is an acute medical and surgical condition due to several pathophysiological effects
occurring secondary to gastric distension and mal-positioning. It occurs most commonly in large, deep chested dogs. Gastric
dilatation volvulus should be differentiated from food engorgement. Food engorgement results from the over consumption of
food and can result in severe dilation of the stomach.
Chronic gastric dilatation volvulus has been recognized at several occasions in dogs. The diagnosis is more subtle because
the clinical signs are not as dramatic as for an acute gastric dilatation volvulus. Dogs with chronic dilatation volvulus
have an history of chronic vomiting, flatulence, and weight loss.
Aerophagia is the most likely source of gas accumulation. Bacterial fermentation of carbohydrate, gas production from acid-bicarbonate
reactions may contribute to gas accumulation. The fluid component of gastric contents is a combination of ingesta, gastric
secretions, and transudate from venous obstruction.
The mechanism of gastric outflow obstruction is unknown. As gastric dilatation progresses, the normal means of relief, such
as eructation, vomiting, or pyloric emptying fail to occur. Pyloric function seems to be normal in dog treated for gastric
dilatation volvulus. Acute gastric dilatation volvulus has been recognized for many year in dogs however its exact cause is
still not clearly understood in dogs. Only risk factors have been identified. Increased gastrin level, decreased stomach motility
and delayed gastric emptying have been mentioned as a risk factor but never been demonstrated. Diet, the amount of food ingested,
the frequency of feeding, behavior (fast eating style), exercise and stress after a meal are contributing factors for the
development of gastric dilatation volvulus. Large breed dogs, dogs with large thoracic depth-to-width ratio, underweight dogs
and older animals are at higher risk to develop a gastric dilatation volvulus. Dogs with an happy personality might be at
less risk. Removal of a large spleen has been associated with the development of gastric dilatation volvulus.
A clockwise or a counter-clockwise rotation of the stomach is possible. The most common rotation is clockwise. Displacement
of the pylorus occurs from right toward ventral midline, passing over the gastric fundus and body to an area along the left
abdominal wall close to the lower esophageal sphincter. At the same time the fundus goes in a ventral direction toward the
right abdominal wall. Because of the attachment of the omentum to the greater curvature of the stomach, the omentum covers
the stomach after volvulus. The displacement of the spleen may vary from the degree of volvulus. The spleen is usually engorged
or can undergo torsion on its own pedicle. Thrombosis of the splenic artery can also occur. Most commonly 180° of rotation
is seen but 360° rotation is possible. Counterclockwise rotation is not common. In this type of rotation the pylorus and
antrum displace dorsally along the right abdominal wall. Fundus and body of the stomach go through minimal ventral displacement,
and the omentum does not cover the stomach. The degree of rotation is limited to 90° .
Gastric dilatation causes compression of the caudal vena cava and portal vein. Sequestration of blood in the spleen, kidney,
and gastrointestinal tract occurs. Compression of the caudal vena cava and portal vein induces a decreased venous return resulting
in hypovolemic shock. Hypotension and venous stasis result in cellular hypoxia and anaerobic metabolism. Focal myocardial
ischemia and hypoxia will reduce contractility and induce arrhythmias. Vascular stasis, hypoxia and acidosis can predispose
to the development of disseminated intravascular coagulopathy. Respiratory dysfunction results from decreased pulmonary compliance
and mechanical restriction of diaphragmatic movement by a dilated stomach. Tissue hypoxia results from decreased cardiac output
and respiratory impairment. Increased gastric intraluminal pressure, portal hypertension, and venous stasis with thrombosis
result in gastric mucosa stasis, hypoxia, and edema. Gastric wall necrosis can then develop in the fundus along the greater
curvature Vascular wall disruption results in mucosal hemorrhage. Avulsion of branches from the short gastric arteries contributes
to the blood loss, hypovolemia, and restriction of blood flow to the stomach.
Dogs with gastric dilatation volvulus are presented with progressive distension and tympanic cranial abdomen. They are restlessness,
retching, and hypersalivating. Weak peripheral pulse, pale mucous membrane, increased heart rate, prolonged capillary time,
and tachypnea are present too. Abdominal pain is usually not present on palpation.
Dogs with a gastric dilatation volvulus are presented with a weak femoral pulse, increased heart rate, pale mucous membrane,
decreased capillary refill time, and tachypnea. Hypovolemic shock can be present at the time of presentation.