Transabdominal Ultrasound with Doppler Imaging

It may support a diagnosis of portal hypertension, but lack sensitivity. ¹⁰

Transient Elastography

A noninvasive technique to assess the stage of hepatic fibrosis and degree of PHT. Results are expressed in kilopascal and can range from 2.5 to 75 kPa. ¹¹ , ¹²

TE values higher than 15 kPa could be used to diagnose cACLD. Values greater than or equal to 20 to 25 kPa are sufficient to rule in CSPH; and less than 20 kPa associated with platelet count greater than 150,000 could safely avoid screening of esophageal varices by endoscopy. ⁷

The cutoff values for patients with hepatitis C virus (HCV) infection and cirrhosis range from 11 to 17 kPa. The sensitivity and specificity are approximately 70 to 80% for F2 to F4 fibrosis. ¹³ , ¹⁴ Diagnostic accuracy is similar in patients with advanced-stage nonalcoholic fatty liver disease (NAFLD), with an area under the receiver operating characteristic (AUROC) curve of 0.94, sensitivity of 94%, and specificity of 95%. ¹⁵ In patients with autoimmune liver diseases, TE is very sensitive and specific for predicting advanced fibrosis in patients with primary biliary cholangitis and primary sclerosing cholangitis ¹⁶ however, it is less reliable than in autoimmune hepatitis due to significant hepatic inflammation that can overestimate stiffness. ¹⁷ There have been several meta-analyses of transient elastography testing, with a summary AUROC curve for diagnosing cirrhosis ranging from 0.90 to 0.95. ¹³ , ¹⁴ , ¹⁸ A meta-analysis of 40 studies of patients with CLD found a sensitivity of 83% and specificity of 89% for cirrhosis; however, for stage 2 fibrosis, the sensitivity was only 79% and specificity was 78%. ¹⁹

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  Evaluation for the underlying cause: For causes of cirrhotic and noncirrhotic PHT.

Pharmacologic Treatment

According to Baveno VI, traditional NSBB (propranolol, nadolol) and carvedilol are valid first-line treatments for primary prophylaxis of variceal hemorrhage. Carvedilol proved to be more effective than traditional NSBB in reducing HVPG, but has not been adequately compared head-to-head to traditional NSBB in clinical trials. ⁷

Nadolol and propranolol at a starting dose of 20 to 40 mg/d, respectively are used in patients with good tolerability and no contraindication toβ-blockers. A meta-analysis that included seven trials with 797 patients found that patients treated with β-blockers had improved outcomes compared with controls. ³⁰ Carvedilol has been recommended in a dose of 12.5 mg twice daily for patients with Child A cirrhosis, and 6.25 mg twice daily for patients with Child B or C cirrhosis. ³¹ Other drugs such as simvastatin, clonidine, molsidomine, metoclopramide, pentoxifylline, verapamil, and losartan are being evaluated. ³² The effect of NSBB can be monitored through either starting at a low dose then increasing to a maximum tolerated dose as needed to achieve a resting heart rate of about 55 to 60 beats/min ³³ ; or a decrease in HVPG of at least 10% from baseline or to less than or equal to 12 mm Hg after chronic treatment with NSBB is clinically relevant and is associated with a significant reduction in risk of variceal bleeding and decompensation. Similarly, acute HVPG response to intravenous propranolol may be used to identify responders to β-blockers. ⁷ HVPG measurements may be useful in clinical trials; however, it is not feasible for routine practice.

Endoscopic Management

EVL is recommended for patients with medium or large varices who are intolerant of or have contraindications to β-blockers, or if a goal reduction in HVPG cannot be achieved. Effectiveness of EVL versus NSBB for primary prophylaxis has been studied and several meta-analyses have been published. The overall data suggest that EVL is as effective as NSBB with somewhat less hemorrhage but no changes in overall mortality. ³⁴ , ³⁵ , ³⁶ , ³⁷ , ³⁸

NSBB do not prevent development or progression from small to large varices and have significant side effects. On the other hand, EVL should be performed by expert endoscopists to avoid complications including banding-induced ulcerations and bleeding (Video 34.3). Also, patients require routine endoscopic surveillance post-EVL due to the probability of variceal recurrence. ³⁹ The frequency of endoscopic evaluation depends on multiple factors such as whether the patient has varices, size of varices and risk signs, and if the patient had compensated or decompensated liver disease (▶Fig. 34.3). In general, patients require three to four sessions for eradication of varices. Combination therapy was not more effective than EVL alone in preventing hemorrhage or death. ⁴⁰ Therefore, decision to choose either option should be individualized based on local resources and level of experience.

Prophylactic endoscopic sclerotherapy (ES) for esophageal varices is not recommended as it carries higher rates of complications without substantial benefit. ⁴¹ , ⁴² Though it has been studied for this use in patients with large gastric varices, ⁷ the Baveno consensus guidelines did not recommend cyanoacrylate injection for primary prophylaxis of gastric varices. For the time being, patients with gastric varices should continue to receive NSBB for primary prophylaxis. Surgical shunts and transjugular intrahepatic portosystemic shunt (TIPS) have been proposed for primary prophylaxis; however, the available data do not support their use.

In our experience, we do prophylactic ES for gastric varices by glue only in two situations: (1) management of acute esophageal variceal bleeding if associated with gastric varices of any type; (2) during prophylactic EVL for esophageal varices in a patient with associated gastric varices. Theoretically, obliteration of esophageal varices may lead to increased pressure in gastric varices thus increasing the possibility of gastric hemorrhage.

Risk Stratification and Resuscitation

Evaluation of hemodynamic status and intravascular volume monitoring is crucial through careful history taking, vital signs with measuring orthostatic hemodynamic changes, and laboratory testing (complete blood count [CBC], coagulation parameters, blood grouping and cross-matching of 2–4 blood units, liver and kidney function) is initially performed.

Risk stratification into low- and high-risk patients on admission according to validated prognostic scales should be done. High-risk patients can be identified for early intervention, thus reducing morbidity and mortality. Low-risk patients can be discharged safely. The Glasgow–Blatchford score (GBS) should be used in every patient on initial presentation. ⁴³ The Rockall score can also be used, but requires knowledge of endoscopic findings to be fully completed. ⁴⁴

Airway protection up to endotracheal intubation may be considered in patients with massive bleeding and/or hepatic encephalopathy. ⁴⁵ Routine use of nasogastric tube (NGT) in patients with AVB is controversial. It is unclear whether NGT placement aggravates hemorrhage from varices or Mallory–Weiss tears. Although studies have failed to demonstrate a benefit with regard to clinical outcomes ⁴⁶ ; however, in our experience a NGT placement and washing with cold saline together with the start of pharmacologic therapy can help decompress the stomach, help prevent aspiration, and assist in clearing the field before endoscopy.

Circulatory support is done through two large-bore peripheral intravenous lines or a central line. Replacement is done by packed red blood cells (RBCs) following the restrictive transfusion strategy aiming for a hemoglobin level of 7 to 8 g/L. ⁶ A study by Villanueva et al compared the efficacy and safety of a restrictive transfusion strategy (transfusion when the hemoglobin level fell below 7 g/L) with those of a liberal transfusion strategy (transfusion when the hemoglobin level fell below 9 g/L) in a total of 921 patients with severe acute upper GI bleeding. The probability of survival at 6 weeks was higher in the restrictive-strategy group than in the liberal-strategy group (95 vs. 91%). Further bleeding occurred in 10% of the patients in the restrictive-strategy group as compared with 16% of the patients in the liberal-strategy group (p = 0.01), and adverse events occurred in 40% as compared with 48% (p = 0.02). The probability of survival was significantly higher in the subgroup of patients with cirrhosis and Child–Pugh class A or B disease, but not in those with cirrhosis and Child–Pugh class C disease. Within the first 5 days, the portal-pressure gradient increased significantly in patients assigned to the liberal strategy, but not in those assigned to the restrictive strategy. ⁴⁷

Coagulopathy should be corrected as needed with fresh frozen plasma and platelet transfusion. The role of recombinant factor VIIa cannot yet be recommended for routine clinical use in patients with variceal hemorrhage. ⁴⁸

Antibiotic prophylaxis is recommended in AVB (▶Table 34.5). A systematic review including eight placebo-controlled trials in 864 patients found the antibiotics were associated with a significant reduction in mortality and bacterial infections as bacteremia, pneumonia, SBP, and urinary tract infections. ⁴⁹ Intravenous ceftriaxone (1 g/d for 7 days) proved superior to norfloxacin in a randomized-controlled trial (alternatives include trimethoprim–sulfamethoxazole [one double-strength tablet twice daily]or ciprofloxacin [500 mg orally every 12 hours]). ⁵⁰ Antibiotics may also reduce the risk of recurrent bleeding in hospitalized patients who bled from esophageal varices. ⁵¹ Guidelines recommend that short-term (maximum 7 days) antibiotic prophylaxis should be instituted in any patient with cirrhosis and GI hemorrhage. In patients with advanced cirrhosis, intravenous ceftriaxone may be preferable, particularly in centers with a high prevalence of quinolone-resistant organisms. ⁵²

Hepatic encephalopathy (HE) prevention in patients with cirrhosis and upper GI bleeding may be achieved by either lactulose or rifaximin. ⁷

Thiamine should be given in alcoholic subjects monitored for withdrawal symptoms. ⁵³