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Hepatitis C

Hepatitis C is a form of inflammatory disease of the liver caused by a virus, the hepatitis C virus (HCV). Almost always, Hepatitis C is spread by contact with an infected person's blood. The majority of the people with HCV infections have no symptoms. Therefore, they are unaware of the need to seek treatment. more...

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Hepatitis C infected 150 to 200 million people around the world and is now the leading cause of liver transplants, and a frequent cause of liver cancer. Co-infection with HCV is common for people with HIV/AIDS and often causes their death.

Signs and symptoms

Acute Hepatitis C

Hepatitis C is one of 6 viruses, called hepatitis A, B, C, D, E and G, that can cause an acute disease lasting several weeks. Most cases (between 60% and 70%), even those that develop chronic infection, are asymptomatic.

For persons with acute symptoms, abdominal pain, jaundice, itching and flu-like symptoms are the most prominent causes for seeking medical attention.

Chronic Hepatitis C

For persons with silent disease, some are diagnosed because of certain medical phenomena associated with the presence of hepatitis C virus, such as thyroiditis (inflammation of the thyroid), cryoglobulinemia (a form of vasculitis) and glomerulonephritis (inflammation of the kidney), specifically membranoproliferative glomerulonephritis (MPGN). Carriers of the virus may begin to develop symptoms after only a few years. Symptoms, when developed, are variable and dependent on individual carrier. They may include prolonged flu-like symptoms and any combination of the following: body aches, headaches, night sweats, loss of appetite, diarrhea, fatigue, nausea, mild abdominal pain, typically located in the upper right quadrant.

Diagnosis

Hepatitis C may be suspected on the basis of the medical history and symptoms, because of abnormal liver function tests or as part of routine blood tests in many situations. Occasionally, people are diagnosed as a result of targeted screening such as blood donation (for which every donor is screened for numerous blood-borne diseases) or as a result of contact tracing.

Presence of HCV is generally screened with serological blood tests, all based on ELISA testing (ELISA-1, 2 and 3 are in use). These tests have a strong positive predictive value for the presence of the virus, but may take 6 months to become positive (seroconversion); in the meanwhile, a patient may have a false-negative result. Confirmation of the presence of the virus is by reverse transcriptase-polymerase chain reaction (rtPCR). This test is more expensive and hence avoided when risk of infection is deemed low. It may come up positive much earlier after infection (sometimes several weeks). rtPCR can also confirm which genomic type (see below) of the virus is present, which may determine the treatment regimen best suited for the patient.

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Using pegylated interferon and ribavirin to treat patients with chronic hepatitis C
From American Family Physician, 8/15/05 by Raymond P. Ward

Hepatitis C virus is the most common chronic blood-borne infection in the United States. The advent of new treatment regimens using pegylated interferons in combination with ribavirin has led to improved sustained viral response rates for some genotypes in large multicenter trials. Advances in the management of side effects and toxicities have expanded the pool of treatable patients. A recent National Institutes of Health consensus conference recommended that all patients who have bridging hepatic fibrosis and moderate inflammation together with detectable viremia should receive treatment with pegylated interferon and ribavirin. Unfortunately, these medications are very expensive and have significant side effects. Hematologic toxicities include anemia and leukopenia. These can be managed with close monitoring, use of growth factors, or dose reductions. Depression also can be caused or exacerbated by these medicines and may require treatment with a selective serotonin reuptake inhibitor, comanagement with psychiatry, or cessation of pegylated interferon and ribavirin treatment. Contraception is imperative because ribavirin is highly teratogenic. Influenza-like symptoms of fatigue, nausea, and mild fevers can be helped by quality patient education and support including frequent office visits. Data from randomized controlled trials demonstrating improvements in long-term survival as a result of treatment are not yet available, but it appears that patients who have no detectable virus six months after treatment have a good chance of remaining virus free for at least five years.

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Hepatitis C virus (HCV) infection is the most common chronic blood-borne infection in the United States, with en estimated 3.8 million persons exposed and 2.7 million persons chronically infected. (1) The incidence of new infections was greatest from the 1960s through the 1980s, peaking at around 250,000 new cases annually, and has now dropped to 30,000 to 40,000 new cases annually. (2) The most common routes of infection are injection drug use and previous (before 1992) contact with tainted blood products. This disease usually runs an asymptomatic course for many years, and some patients never develop any symptoms. If symptoms do develop, they often are nonspecific (e.g., nausea, fatigue, vague abdominal discomfort). About 10 to 20 percent of chronically infected persons progress to cirrhosis over an average of 20 years. (2-4) Faster rates of progression are seen in persons who are infected at an older age, or who have modifying risk factors such as moderate or heavy alcohol consumption, human immunodeficiency virus (HIV), or other coexistent liver diseases. (3,4)

Because of the slow disease progression, our society is just now starting to suffer the consequences of the past HCV epidemic. It is estimated that the prevalence of cirrhosis will double and that liver-related deaths will triple compared with the past decade. (5) Because viral eradication is thought to prevent disease progression, a recent National Institutes of Health consensus guideline6 recommended treatment with pegylated interferon (PEG-Intron) and ribavirin (Rebetol) for patients with detectable HCV RNA viral loads higher than 50 copies per mL, a liver biopsy with portal or bridging fibrosis, and at least moderate inflammation and necrosis. (6) Treatment is expensive (approximately $20,000 to $30,000 per year for the medication alone) and is not well tolerated. Sustained viral response rates have improved significantly over the past decade, from an estimated 5 to 15 percent using interferon alone to over 40 to 80 percent using a combination of pegylated interferon and ribavirin. (6) To date, the disease-oriented evidence has shown elimination of viral RNA, but there is little outcome-oriented evidence to show a decrease in morbidity or mortality in those receiving these medications. (7) For this reason, the U.S. Preventive Services Task Force does not find sufficient evidence to recommend routine screening of high-risk populations. (8)

The virus has various genotypes, that respond quite differently to treatment. Genotypes other than 1, 2, and 3 are uncommon in the United States. The response rate for genotypes 2 and 3 is around 80 percent, whereas the response rate for genotype 1 is around 45 percent. (6) This article will focus on HCV treatment and relevant side effects. A previous article9 in American Family Physician discussed the considerations in the work-up and the decision to treat patients with HCV.

Dosing Regimens

The current treatment for chronic HCV is the combination of pegylated interferon and ribavirin. Previously, treatment had been with interferon alone, but the addition of a polyethylene-glycol side chain (pegylation) to the interferon gives it a much longer bioavailability, allowing for weekly injections rather than three injections per week. Pegylated interferon doubles the sustained viral response rate. (10) When combined with pegylated interferon, ribavirin improves response rates for most populations to 42 to 46 percent for patients with genotype 1 and 76 to 82 percent for patients with genotypes 2 and 3. The combination is superior to older regimens, (11-13) and monotherapy should no longer be used, except in individuals for whom ribavirin is contraindicated (i.e., those with known hemolytic anemia or renal failure). Dosing and length of treatment are based on the patient's weight and viral genotype (Table 1 (14,15)).

Pegylated interferon comes in a pen injection system or a prefilled syringe. Self-administering a subcutaneous injection can be intimidating initially to some patients. Staff in the physician's office can play a key role in patient education and support. Many treating offices have a registered nurse, nurse practitioner, or physician's assistant teach patients about treatment and its side effects before starting therapy, and these professionals remain accessible for supportive management of side effects during the course of the treatment.

Providing Support to Improve Patient Adherence

The medications used to treat HCV have a challenging side effect profile, and response rates are lower for patients who do not complete the entire course of treatment or who receive less than 80 percent of the intended total dose (11,16); attention therefore should be paid to providing counseling and support both before and during treatment. Potential side effects from the use of pegylated interferon and ribavirin are listed in Table 2. (9,17) Because many rare but serious complications can occur during treatment, patients should contact their physicians if unusual symptoms, especially cardiopulmonary or visual symptoms, occur.

Nurse support lines, available 24 hours a day, are provided by the medication manufacturers, enabling patients to speak directly with a nurse specialist regarding any difficulties they are experiencing. The Schering-Plough Pharmaceuticals program is called "Be in charge" (888-437-2608), and the Roche Laboratories program is called " Pegassist" (877-734-2797).

Complications and Side effects

Pegylated interferon can cause fatal or life-threatening complications such as neuropsychiatric emergencies, autoimmune reactions, ischemia, and infections. In some cases, complications do not resolve even when medication is withdrawn. Ribavirin causes birth defects, fetal demise, serious hemolytic anemias, and worsening of cardiac disease. It also may be carcinogenic. Patients should be carefully counseled about the risks of these medications and monitored closely during treatment. A flow sheet for monitoring patients who are receiving treatment for HCV infection is provided in Figure 1.

[FIGURE 1 OMITTED]

Interferons can cause bone marrow suppression that may result in declines in all three blood cell lines. Ribavirin can cause a hemolytic anemia. The traditional approach to hematologic toxicity has been reducing the dose of the offending antiviral; however, lower doses also may reduce treatment efficacy. (16) The use of epoetin alfa (Epogen) at a dose of 40,000 units subcutaneously once per week is effective in increasing the hematocrit level in patients receiving treatment and in reducing the number of patients who require reductions or discontinuations of their ribavirin. (18) If anemia becomes a problem, an attempt should be made to use epoetin alfa before reducing the ribavirin dosage below 800 mg a day. (16,19) Special caution should be used for patients with cardiac disease. Most of the drop in hematocrit typically occurs in the first month, with the nadir occurring somewhere between weeks 8 and 24 of therapy.

Interferon-induced neutropenia may put the patient at increased risk for bacterial infections, although recent data suggest this risk is small. (20) Granulocyte colony-stimulating factor (G-CSF) treatment may prove useful in increasing the white blood cell count, and a reasonable approach is to maintain the neutrophil count above 500 per [micro]L (0.5 3 [10.sup.9] per L). Studies clarifying the optimal dose and the levels of neutropenia at which to intervene are not yet available. Most of the increased risk of infection is confined to those with liver cirrhosis, suppressed immune systems, or profound neutropenia. The use of G-CSF or epoetin alfa will substantially increase the overall cost of treatment. Treatment-induced thrombocytopenia usually is mild and rarely leads to clinically significant bleeding.

One system for following hematologic parameters is to check a patient's complete blood count every two weeks for the first two months and monthly thereafter until completion of therapy. Table 3 (14,15) outlines the suggested parameters for decreasing or discontinuing medication in response to hematologic abnormalities.

INTERFERON-ASSOCIATED DEPRESSION

Interferon can exacerbate preexisting symptoms of depression or cause new onset of symptoms in a previously healthy patient. The incidence of depression among persons receiving treatment with interferon is around 20 to 30 percent, (11,14) so physicians should question patients regarding mood and depression before treatment and at every follow-up visit. It is appropriate to use a standardized depression questionnaire intermittently. Particular care should be taken in patients who start with some baseline symptoms, or whose depression has previously been severe enough to include suicide attempts or hospitalization. Patients whose history raises concern should be stable before initiation of therapy, and some physicians require that high-risk patients are monitored concurrently by a psychiatrist during anti-HCV treatment. There is some evidence that selective serotonin reuptake inhibitors (SSRIs) are effective in the treatment of interferon-associated depression, (21) and there should be a low threshold for their use in susceptible patients.

The appearance of mild symptoms of depression should prompt an increase of patient contact with the physician by office visit or by phone. Moderate symptoms should prompt a reduction of interferon dose by 25 to 50 percent with continued weekly contact. If symptoms fail to improve despite dose reduction and concurrent SSRI use, or if they become severe, treatment should be discontinued and psychiatric assistance obtained. (14)

TERATOGENIC SIDE EFFECTS

Extreme care must be taken in counseling patients before initiation of treatment and in monitoring patients during treatment to ensure that they do not become pregnant. The U.S. Food and Drug Administration has assigned ribavirin to pregnancy risk category X (positive evidence of human fetal risk outweighs any possible benefit). Ribavirin has been shown to be teratogenic even at doses that are one hundredth of those generally prescribed, so there is concern that even the small amounts in seminal fluid could be dangerous. For this reason, it is recommended that women of childbearing potential and men should use two forms of contraception during intercourse while undergoing treatment and for six months after treatment has concluded. Women of childbearing potential also should take monthly pregnancy tests during this time. Registries to monitor pregnancy outcomes have been established by the manufacturers of ribavirin, and physicians and patients are encouraged to contact them if a pregnancy occurs during treatment.

OTHER POSSIBLE COMPLICATIONS

It is useful to track several other parameters during treatment, although the optimal interval for checking these values has not been demonstrated experimentally. Elevations of transaminases often will resolve during the treatment as the medication eliminates the virus and its accompanying inflammation. Markedly increased alanine aminotransferase can indicate the development of an autoimmune hepatitis, which may require treatment cessation. Elevations of bilirubin usually are an indication of hemolysis caused by the ribavirin and usually are concomitant with drops in the hematocrit. Between 1 and 2 percent of patients will develop thyroid abnormalities severe enough to require clinical interventions, so thyroid-stimulating hormone levels should be checked periodically while the patient is on treatment. Triglycerides can be elevated and can cause pancreatitis.

OTHER MEDICAL ISSUES DURING TREATMENT

All patients with HCV should be evaluated for Hepatitis A (HAV total antibody) and Hepatitis B (HBV surface antigen and HBV surface antibody) and, if not already immune, they should receive these vaccinations. 6 Because of the similarities in the risk factors for HIV and HCV, patients with either of these infections should be screened for the other. (6)

Discontinuing medication because of Treatment failure

The goal of treatment is eradication of the virus. In a subset of patients it can be determined in the early weeks of treatment that the medicines are failing to eliminate the virus; in these patients the medication may be stopped rather than continuing to expose the patient to the toxic effects. (11,22) It is common to stop treatment if there has not been at least a 100-fold drop in viral load by week 12 of treatment. When viral loads do drop, but not as fast as desired, there is variation among physicians regarding how long to continue treatment. If viral load is very low but detectable after 12 weeks of treatment, some physicians will continue treatment 0until 36 weeks after viral load becomes undetectable. Figure 2 (11) provides an algorithm for early cessation of these medications.

[FIGURE 2 OMITTED]

Posttreatment Issues

Side effects of the medications may linger for some weeks after they are discontinued, and in some cases may be permanent, so monitoring is important even after successful completion of a course of treatment. It is important to reinforce to patients that contraception must be maintained for a full six months after cessation of ribavirin.

Sustained virologic response is determined by checking a qualitative polymerase chain reaction test for viral RNA six months after treatment is finished. About 95 percent of patients who have no detectable virus six months after treatment have no recurrence after five years. (23,24) A recent prospective cohort study (25) that compared patients treated with interferon with those who declined treatment showed a decreased rate of development of hepatocellular carcinoma and improved survival in the treatment group. (25) Because these treatments are relatively recent, randomized controlled trial data on improvements in long-term survival are not yet available.

Author disclosure: Dr. Kugelmas has received grant/research support from Schering-Plough Pharmaceuticals, Amgen, Intermune, Corgenix Medical Corp., and Vertex Pharmaceuticals. He is a consultant for Schering-Plough Pharmaceuticals and a member of the following speaker's bureaus: Roche Laboratories, Ortho Biotech, Schering-Plough Pharmaceuticals, and Intermune.

REFERENCES

(1.) Alter MJ, Kruszon-Moran D, Nainan OV, McQuillan GM, Gao F, Moyer LA, et al. The prevalence of hepatitis C virus infection in the United States, 1988 through 1994. N Engl J Med 1999;341:556-62.

(2.) Brown RS Jr, Gaglio PJ. Scope of worldwide hepatitis C problem. Liver Transpl 2003;9:S10-3.

(3.) Poynard T, Bedossa P, Opolon P. Natural history of liver fibrosis progression in patients with chronic hepatitis C. The OBSVIRC, METAVIR, CLINIVIR, and DOSVIRC groups. Lancet 1997;349:825-32.

(4.) Niederau C, Lange S, Heintges T, Erhardt A, Buschkamp M, Hurter D, et al. Prognosis of chronic hepatitis C: results of a large, prospective cohort study. Hepatology 1998;28:1687-95.

(5.) Davis GL, Albright JE, Cook SF, Rosenberg DM. Projecting future complications of chronic hepatitis C in the United States. Liver Transpl 2003;9:331-8.

(6.) NIH Consensus Statement on Management of Hepatitis C: 2002. NIH Consens State Sci Statements 2002;19:1-46.

(7.) Gluud LL, Krogsgaard K, Gluud C. Ribavirin with or without alpha interferon for chronic hepatitis C. Cochrane Database Syst Rev 2005;(1): CD002234.

(8.) U.S. Preventative Services Task Force. Recommendation statement: screening for hepatitis C in adults. Accessed online July 25, 2005, at: http://www.ahrq.gov/clinic/3rduspstf/hepcscr/hepcrs.htm.

(9.) Ward RP, Kugelmas M, Libsch KD. Management of hepatitis C: evaluating suitability for drug therapy. Am Fam Physician 2004;69:1429-36.

(10.) Lindsay KL, Trepo C, Heintges T, Shiffman ML, Gordon SC, Hoefs JC, et al. A randomized, double-blind trial comparing pegylated interferon alfa-2b to interferon alfa-2b as initial treatment for chronic hepatitis C. Hepatology 2001;34:395-403.

(11.) Fried MW, Shiffman ML, Reddy KR, Smith C, Marinos G, Goncales FL Jr, et al. Peginterferon alfa-2a plus ribavirin for chronic hepatitis C virus infection. N Engl J Med 2002;347:975-82.

(12.) Manns MP, McHutchison JG, Gordon SC, Rustgi VK, Shiffman M, Reindollar R, et al. Peginterferon alfa-2b plus ribavirin compared with interferon alfa-2b plus ribavirin for initial treatment of chronic hepatitis C: a randomised trial. Lancet 2001;358:958-65.

(13.) Hadziyannis SJ, Sette H Jr, Morgan TR, Balan V, Diago M, Marcellin P, et al. Peginterferon-alpha2a and ribavirin combination therapy in chronic hepatitis C: a randomized study of treatment duration and ribavirin dose. Ann Intern Med 2004;140:346-55.

(14.) PEG-Intron (Peginterferon alfa-2b) powder for injection (package information). Kenilworth, N.J.: Schering Corp., March 2003. Accessed online July 25, 2005, at: http://www.spfiles.com/pipeg-intron.pdf.

(15.) Rebetol (ribavirin, USP) capsules (package information). Kenilworth, N.J.: Schering Corp., March 2003. Accessed online July 25, 2005, at: http://www.spfiles.com/pirebetol.pdf.

(16.) Davis GL, Wong JB, McHutchison JG, Manns MP, Harvey J, Albrecht J. Early virologic response to treatment with peginterferon alfa-2b plus ribavirin in patients with chronic hepatitis C. Hepatology 2003;38: 645-52.

(17.) Guiding patients through chronic hepatitis C therapy. Kenilworth, N.J.: Schering Corp., 2002.

(18.) Afdhal NH, Dieterich DT, Pockros PJ, Schiff ER, Shiffman ML, Sulkowski MS, et al. Epoetin alfa maintains ribavirin dose in HCV-infected patients: a prospective, double-blind, randomized controlled study. Gastroenterology 2004;126:1302-11.

(19.) Dieterich DT, Wasserman R, Brau N, Hassanein TI, Bini EJ, Bowers PJ, et al. Once-weekly epoetin alfa improves anemia and facilitates maintenance of ribavirin dosing in hepatitis C virus-infected patients receiving ribavirin plus interferon alfa. Am J Gastroenterol 2003;98:2491-9.

(20.) Soza A, Everhart JE, Ghany MG, Doo E, Heller T, Promrat K, et al. Neutropenia during combination therapy of interferon alfa and ribavirin for chronic hepatitis C. Hepatology 2002;36:1273-9.

(21.) Kraus MR, Schafer A, Faller H, Csef H, Scheurlen M. Paroxetine for the treatment of interferon-alpha-induced depression in chronic hepatitis C. Aliment Pharmacol Ther 2002;16:1091-9.

(22.) Davis GL. Monitoring of viral levels during therapy of hepatitis C. Hepatology 2002;36(5 suppl 1):S145-51.

(23.) Chemello L, Cavalletto L, Bernardinello E, Boccato S, Casarin P, Cavinato F, et al. Comparison of thrice weekly vs daily human leucocyte interferon- alpha therapy for chronic hepatitis C. TVHH Study Group. J Viral Hepat 1999;6:321-7.

(24.) Veldt BJ, Saracco G, Boyer N, Camma C, Bellobuono A, Hopf U, et al. Long term clinical outcome of chronic hepatitis C patients with sustained virological response to interferon monotherapy. Gut 2004;53:1504-8.

(25.) Shiratori Y, Ito Y, Yokosuka O, Imazeki F, Nakata R, Tanaka N, et al. Antiviral therapy for cirrhotic hepatitis C: association with reduced hepatocellular carcinoma development and improved survival. Ann Intern Med 2005;142:105-14.

RAYMOND P. WARD, M.D., PH.D., St. Mary's Family Practice Residency, Grand Junction, Colorado

MARCELO KUGELMAS, M.D., University of Colorado Health Sciences Center, Denver, Colorado

RAYMOND P. WARD, M.D., PH.D., has a private practice in Bountiful, Utah. He completed a residency at St. Mary's Family Practice Residency, Grand Junction, Colo. Dr. Ward received his medical degree and a graduate degree in pharmacology from the University of Washington School of Medicine, Seattle.

MARCELO KUGELMAS, M.D., has a private gastroenterology practice in Denver. He was formerly a faculty member in the hepatology section of the Department of Internal Medicine at the University of Colorado Health Sciences Center, Denver. Dr. Kugelmas received his medical degree from the University of Buenos Aires Facultad de Medicina and completed a gastroenterology and hepatology fellowship at the Cleveland Clinic, Cleveland.

Address correspondence to Raymond P. Ward, M.D., Ph.D., 954 E. Millbrook Way, Bountiful, UT 84010. (e-mail: rayward11024@ yahoo.com). Reprints are not available from the author.

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