Open Access Articles- Top Results for Esophageal varices

Esophageal varices

Esophageal varices
File:Esophageal varices - wale.jpg
Gastroscopy image of esophageal varices with prominent cherry-red spots
Classification and external resources
ICD-10 I85
ICD-9 456.0-456.2
DiseasesDB 9177
MedlinePlus 000268
eMedicine med/745 radio/269
NCI Esophageal varices
Patient UK Esophageal varices
MeSH D004932

In medicine (gastroenterology), esophageal varices (or oesophageal varices) are extremely dilated sub-mucosal veins in the lower third [1] of the esophagus. They are most often a consequence of portal hypertension, commonly due to cirrhosis; patients with esophageal varices have a strong tendency to develop bleeding.

Esophageal varices are diagnosed with endoscopy.[2]


The majority of blood from the esophagus is drained via the esophageal veins, which carry deoxygenated blood from the esophagus to the azygos vein, which in turn drains directly into the superior vena cava. These veins have no part in the development of esophageal varices. The remaining blood from the esophagus is drained into the superficial veins lining the esophageal mucosa, which drain into the left gastric vein (coronary vein), which in turn drains directly into the portal vein. These superficial veins (normally only approximately 1 mm in diameter) become distended up to 1–2 cm in diameter in association with portal hypertension.

Normal portal pressure is approximately 9 mmHg compared to an inferior vena cava pressure of 2-6 mmHg. This creates a normal pressure gradient of 3-7 mmHg. If the portal pressure rises above 12 mmHg, this gradient rises to 7-10 mmHg.[3] A gradient greater than 5 mmHg is considered portal hypertension. At gradients greater than 10 mmHg, blood flow through the hepatic portal system is redirected from the liver into areas with lower venous pressures. This means that collateral circulation develops in the lower esophagus, abdominal wall, stomach, and rectum. The small blood vessels in these areas become distended, becoming more thin-walled, and appear as varicosities.

In situations where portal pressures increase, such as with cirrhosis, there is dilation of veins in the anastomosis, leading to esophageal varices. Splenic vein thrombosis is a rare condition that causes esophageal varices without a raised portal pressure. Splenectomy can cure the variceal bleeding due to splenic vein thrombosis.

Varices can also form in other areas of the body, including the stomach (gastric varices), duodenum (duodenal varices), and rectum (rectal varices). Treatment of these types of varices may differ. In some cases, schistosomiasis also leads to esophageal varices.


File:Esophageal varices - post banding.jpg
Esophageal varices seven days after banding, showing ulceration at the site of banding

In emergency situations, care is directed at stopping blood loss, maintaining plasma volume, correcting disorders in coagulation induced by cirrhosis, and appropriate use of antibiotics (usually a quinolone or ceftriaxone, as infection by Gram-negative strains is either concomitant or a precipitant).

Blood volume resuscitation should be done promptly and with caution. The goal should be hemodynamic stability and hemoglobin of over 8 g/dl. Resuscitation of all lost blood leads to increase in portal pressure leading to more bleeding. Volume resuscitation can also worsen ascites and increase portal pressure. (AASLD guidelines)

Therapeutic endoscopy is considered the mainstay of urgent treatment. The two main therapeutic approaches are variceal ligation or banding and sclerotherapy.

In cases of refractory bleeding, balloon tamponade with a Sengstaken-Blakemore tube may be necessary, usually as a bridge to further endoscopy or treatment of the underlying cause of bleeding (usually portal hypertension). Esophageal devascularization operations such as the Sugiura procedure can also be used to stop complicated variceal bleeding. Methods of treating the portal hypertension include: transjugular intrahepatic portosystemic shunt, or a distal splenorenal shunt procedure or a liver transplantation.

Nutritional supplementation is not necessary if the patient is not eating for four days or less.[4]

Terlipressin and octreotide (50-µg bolus intravenously followed by 25-50 µg/h IVF for 1 to 5 days) have also been used.[5]


In ideal circumstances, patients with known varices should receive treatment to reduce their risk of bleeding.[6] The non-selective β-blockers (e.g., propranolol 10 mg PO TID, timolol or nadolol 20 mg PO OD) and nitrates (e.g. isosorbide mononitrate (IMN) 20 mg BD to TID) have been evaluated for secondary prophylaxis. Non-selective β-blockers (but not cardioselective β-blockers like atenolol) are preferred because they decrease both cardiac output by β1 blockade and splanchnic blood flow by blocking vasodilating β2 receptors at splanchnic vasculature. The effectiveness of this treatment has been shown by a number of different studies.[7]

However, non-selective β-blockers do not prevent the formation of esophageal varices.[8]

When medical contraindications to beta-blockers exist, such as significant reactive airway disease, then treatment with prophylactic endoscopic variceal ligation is often performed.[9]


File:Oesophagusvarizen 02.jpg
Axial CT showing esophageal varices in liver cirrhosis with portal hypertension

Dilated submucosal veins are the most prominent histologic feature of esophageal varices. The expansion of the submucosa leads to elevation of the mucosa above the surrounding tissue, which is apparent during endoscopy and is a key diagnostic feature. Evidence of recent variceal hemorrhage includes necrosis and ulceration of the mucosa. Evidence of past variceal hemorrhage includes inflammation and venous thrombosis.

See also


  1. Rubin's Pathology: Clinicopathologic Foundations of Medicine edited by Raphael Rubin, David S. Strayer, Emanuel Rubin, page 612
  2. Biecker E, Schepke M, Sauerbruch T (2005). "The role of endoscopy in portal hypertension". Dig Dis 23 (1): 11–7. PMID 15920321. doi:10.1159/000084721. 
  3. Arguedas M (2003). "The critically ill liver patient: the variceal bleeder". Semin Gastrointest Dis 14 (1): 34–8. PMID 12610853. 
  4. de Lédinghen V, Beau P, Mannant PR et al. (1997). "Early feeding or enteral nutrition in patients with cirrhosis after bleeding from esophageal varices? A randomized controlled study". Dig. Dis. Sci. 42 (3): 536–41. PMID 9073135. doi:10.1023/A:1018838808396. 
  5. Abid S, Jafri W, Hamid S et al. (March 2009). "Terlipressin vs. octreotide in bleeding esophageal varices as an adjuvant therapy with endoscopic band ligation: a randomized double-blind placebo-controlled trial". Am. J. Gastroenterol. 104 (3): 617–23. PMID 19223890. doi:10.1038/ajg.2008.147. 
  6. Lebrec D, Poynard T, Hillon P, Benhamou J-P (1981). "Propranolol for prevention of recurrent gastrointestinal bleeding in patients with cirrhosis: a controlled study". N Engl J Med 305 (23): 1371–1374. PMID 7029276. doi:10.1056/NEJM198112033052302. 
  7. Talwalkar JA, Kamath PS (2004). "An evidence-based medicine approach to beta-blocker therapy in patients with cirrhosis". Am J Med 116 (11): 759–766. PMID 15144913. doi:10.1016/j.amjmed.2004.03.006. 
  8. Groszmann RJ, Garcia-Tsao G, Bosch J et al. (2005). "Beta-Blockers to Prevent Gastroesophageal Varices in Patients with Cirrhosis". N Engl J Med 353 (21): 2254–2261. PMID 16306522. doi:10.1056/NEJMoa044456. 
  9. Garcia-Tsao G, Sanyal AJ, Grace ND, Carey W; Practice Guidelines Committee of the American Association for the Study of Liver Diseases; Practice Parameters Committee of the American College of Gastroenterology. Prevention and management of gastroesophageal varices and variceal hemorrhage in cirrhosis. Hepatology. 2007;46(3):922-938. PMID 17879356

External links

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