Hepatic encephalopathy medical therapy
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]
Recommendations for the treatment of Hepatic Encephalopathy (DO NOT EDIT)
- In early stages of encephalopathy, lactulose may be used either orally or rectally to effect a bowel purge, but should not be administered to the point of diarrhea, and may interfere with the surgical field by increasing bowel distention during liver transplantation.
- Patients who progress to high-grade hepatic encephalopathy (grade III or IV) should undergo endotracheal intubation.
- Seizure activity should be treated with phenytoin and benzodiazepines with short half-lives. Prophylactic phenytoin is not recommended.
- Intracranial pressure (ICP) monitoring is recommended in ALF patients with high-grade hepatic encephalopathy, in centers with expertise in ICP monitoring, in patients awaiting and undergoing liver transplantation.
- In the absence of ICP monitoring, frequent (hourly) neurological evaluation is recommended to identify early evidence of intracranial hypertension.
- In the event of intracranial hypertension, a mannitol bolus (0.5-1.0 gm/kg body weight) is recommended as first-line therapy; however, the prophylactic administration of mannitol is not recommended.
- In ALF patients at highest risk for cerebral edema (serum ammonia >150 µM, grade 3/4 hepatic encephalopathy, acute renal failure, requiring vasopressors to maintain mean arterial pressure [MAP]), the prophylactic induction of hypernatremia with hypertonic saline to a sodium level of 145-155 mEq/L is recommended.
- Short-acting barbiturates and the induction of hypothermia to a core body temperature of 34-35ºC may be considered for intracranial hypertension refractory to osmotic agents as a bridge to liver transplantation.
- Corticosteroids should not be used to control elevated ICP in patients with ALF.}}
Medical Therapy
Even 'minimal hepatic encephalopathy' may benefit from treatment. [1]
- Reduce protein intake:
Traditionally it has been presumed that excessive protein intake leads to increased generation of ammonia, which, in the setting of severe liver impairment, will accumulate and worsen the hepatic encephalopathy. While very large protein loads (such as gastrointestinal hemorrhage, because blood is rich in protein) are known to precipitate encephalopathy, the need for patients with chronic liver disease patients to be protein restricted has been disproven.[2] Indeed, because chronic liver disease is a catabolic state, a protein restricted diet would lead to protein malnutrition and a negative nitrogen balance.
- Correction of hypokalemia:
Concomitant hypokalemia should be corrected as hypokalemia increases renal ammonia production and may promote conversion of ammonium into ammonia which can cross the blood-brain barrier.[3]
- Lactulose:
Lactulose is a compound that will cause osmotic diarrhoea, thus lessening the time available for intestinal bacteria to metabolise protein into ammonia within the bowel. Further, it acidifies the environment in the lumen of the bowel. This promotes the conversion of lumenal ammonia (NH3) to ammonium (NH4+) which, by which virtue of its net charge, should be less readily absorbed into the bloodstream from the bowel lumen. Despite this theoretical and appealing mechanism, a meta-analysis of randomized controlled trials by the international Cochrane Collaboration found benefit, but suggests there is little evidence for its preferred use to treat hepatic encephalopathy.[4] Indeed, any drug (laxative) which speeds up transit through the bowel thereby lessening the time available for bacteria to metabolize protein into ammonia, works just as well.
Lactulose can be given rectally for patients who cannot take oral medications.[5][6][7] One regimen is 300 mL (200 gm) of lactulose syrup (10 gm/15 ml) in 1 L of water which is retained for 1 hour, with the patient in the Trendelenburg position.[8]
- Antibiotics:
Antibiotics may be given to kill bacteria present in the bowel thereby decreasing bacterial conversion of protein to ammonia (and other toxic substances) there. Although effective, neomycin, a non-absorbable aminoglycoside antibiotic, is essentially contraindicated; it has been found that a proportion of the ingested dose is indeed absorbed due to increased gut permeability, thus increasing the risk of renal failure and hearing loss (i.e. two of the potential side effects of neomycin). The former side-effect, in particular, is especially worrisome given the already increased likelihood of renal failure in cirrhosis and portal hypertension (i.e. hepatorenal syndrome). Metronidazole has also been studied.[9]
- Rifaximin:
Rifaximin (Xifaxan®), receieved orphan drug status in 2005 for the treatment of hepatic encephalopathy. In contrast to neomycin, its tolerability profile is comparable to placebo.[10] Multiple clinical trials have demonstrated that rifaximin at a dose of 400 mg taken orally 3 times a day was as effective as lactulose or lactilol at improving hepatic encephalopathy symptoms.[11] Similarly, rifaximin was as effective as neomycin and paromomycin.[12] Rifaximin was better tolerated than both the cathartics and the other nonabsorbable antibiotics. A number of concerns remain regarding rifaximin's role in the treatment of hepatic encephalopathy. It remains to be determined if rifaximin can improve severe encephalopathy symptoms as rapidly as lactulose. There are also concerns regarding the cost-effectiveness of the medication.
- Benzodiazepine receptor antagonists
A meta-analysis of randomized controlled trials by the international Cochrane Collaboration found benefit from flumazenil.[13] The doses of flumazenil varied around a median of 2 milligrams over 10 minutes: 'Flumazenil was given as a continuous infusion (12 trials), preceded by bolus injections in two trials. One trial used only bolus injections. Patients received flumazenil at a total dose ranging from 0.2 to 19.5 milligram (median 2 milligram). The median duration of treatment was 10 minutes (range one minute to 72 hours)'. However, the benefit was short.
- L-ornithine-L-aspartate:
L-ornithine-L-aspartate stimulates the urea cycle, and has shown encouraging results in randomized controlled trials.[14][15][16]
References
- ↑
- ↑ Córdoba J, López-Hellín J, Planas M; et al. (2004). "Normal protein diet for episodic hepatic encephalopathy: results of a randomized study". J. Hepatol. 41 (1): 38–43. doi:10.1016/j.jhep.2004.03.023. PMID 15246205.
- ↑ Artz SA, Paes IC, Faloon WW (1966). "Hypokalemia-induced hepatic coma in cirrhosis. Occurrence despite neomycin therapy". Gastroenterology. 51 (6): 1046–53. PMID 5958605.
- ↑ Als-Nielsen B, Gluud L, Gluud C. "Nonabsorbable disaccharides for hepatic encephalopathy". Cochrane Database Syst Rev: CD003044. PMID 15106187.
- ↑ Kersh ES, Rifkin H (1973). "Lactulose enemas". Ann. Intern. Med. 78 (1): 81–4. PMID 4682313.
- ↑ Ratnaike RN, Hicks EP, Hislop IG (1975). "The rectal administration of lactulose". Australian and New Zealand journal of medicine. 5 (2): 137–40. PMID 240347.
- ↑ Uribe M, Campollo O, Vargas F; et al. (1987). "Acidifying enemas (lactitol and lactose) vs. nonacidifying enemas (tap water) to treat acute portal-systemic encephalopathy: a double-blind, randomized clinical trial". Hepatology. 7 (4): 639–43. PMID 3301614.
- ↑ Blei AT, Córdoba J (2001). "Hepatic Encephalopathy". Am. J. Gastroenterol. 96 (7): 1968–76. doi:10.1111/j.1572-0241.2001.03964.x. PMID 11467622.
- ↑ Morgan MH, Read AE, Speller DC (1982). "Treatment of hepatic encephalopathy with metronidazole". Gut. 23 (1): 1–7. PMID 7035298.
- ↑ Williams R, James OF, Warnes TW, Morgan MY (2000). "Evaluation of the efficacy and safety of rifaximin in the treatment of hepatic encephalopathy: a double-blind, randomized, dose-finding multi-centre study". European journal of gastroenterology & hepatology. 12 (2): 203–8. PMID 10741936.
- ↑ Bucci L, Palmieri GC (1993). "Double-blind, double-dummy comparison between treatment with rifaximin and lactulose in patients with medium to severe degree hepatic encephalopathy". Current medical research and opinion. 13 (2): 109–18. PMID 8325041.
- ↑ Pedretti G, Calzetti C, Missale G, Fiaccadori F (1991). "Rifaximin versus neomycin on hyperammoniemia in chronic portal systemic encephalopathy of cirrhotics. A double-blind, randomized trial". The Italian journal of gastroenterology. 23 (4): 175–8. PMID 1751811.
- ↑ Als-Nielsen B, Gluud LL, Gluud C (2004). "Benzodiazepine receptor antagonists for hepatic encephalopathy". Cochrane database of systematic reviews (Online) (2): CD002798. doi:10.1002/14651858.CD002798.pub2. PMID 15106178.
- ↑ Poo J, Góngora J, Sánchez-Avila F, Aguilar-Castillo S, García-Ramos G, Fernández-Zertuche M, Rodríguez-Fragoso L, Uribe M (2006). "Efficacy of oral L-ornithine-L-aspartate in cirrhotic patients with hyperammonemic hepatic encephalopathy. Results of a randomized, lactulose-controlled study". Ann Hepatol. 5 (4): 281–8. PMID 17151582.
- ↑ Poo JL, Góngora J, Sánchez-Avila F; et al. (2006). "Efficacy of oral L-ornithine-L-aspartate in cirrhotic patients with hyperammonemic hepatic encephalopathy. Results of a randomized, lactulose-controlled study". Annals of hepatology : official journal of the Mexican Association of Hepatology. 5 (4): 281–8. PMID 17151582.
- ↑ Stauch S, Kircheis G, Adler G; et al. (1998). "Oral L-ornithine-L-aspartate therapy of chronic hepatic encephalopathy: results of a placebo-controlled double-blind study". J. Hepatol. 28 (5): 856–64. PMID 9625322.