Dear Colleague,

The past year has seen major therapeutic advances in gastroenterology and hepatology. Two areas with notable gains are related to infectious diseases: novel treatments directed against recurrent Clostridium difficile infection (CDI) and against the hepatitis C virus (HCV).

Clostridium difficile infection is an infectious colitis with high associated morbidity and mortality. Broad-spectrum antibiotics cause CDI by depleting the normal colonic flora and lowering barriers to C. difficile proliferation. Antibiotics directed against C. difficile (i.e., metronidazole and oral vancomycin) have a high initial success rate for CDI, but up to one-third of patients experience recurrence. Historically, recurrent CDI was treated with extended, but often diminishingly effective courses of oral vancomycin [1]. But beginning in the 1980s, an alternative strategy was pursued: feces from a healthy donor was given via enema or colonoscopically to a diseased individual. Called fecal microbiota transplantation (FMT), this technique resulted in durable cure rates over 95%, even among patients with multiple recurrences [2]. But there were problems with FMT. There was no randomized data supporting it, and the testing of donor stool for infectious microorganisms was not standardized. This changed in January 2013 with the results of a randomized study of oral vancomycin followed by FMT with pooled, pre-screened stool versus vancomycin alone. In this trial, 81% of the vancomycin–FMT group versus 27% of the vancomycin alone group experienced resolution of symptoms [3]. Subsequently, FMT has been expanded with studies demonstrating that donor stool can be collected, frozen, and administered later [4] or even impregnated in gel capsules and taken by mouth [5]. In the future, it is likely that specific organisms, selected to compete for resources against C. difficile, will replace FMT for treatment of recurrent CDI.

The hepatitis C virus is the most common cause of liver failure requiring transplantation in the developed world. Standard therapy for chronic HCV is with pegylated interferon alpha and ribavirin. Peginterferon must be given via weekly injections and, in combination with ribavirin, often has severe side effects including fatigue, depression, and anemia. Peginterferon–ribavirin given for 48 weeks has sustained virologic response (SVR) rates of 40–50% for HCV genotype 1, the most common viral genotype in the USA [6]. In 2011, two new drugs were added to the arsenal against HCV: the protease inhibitors boceprevir and telaprevir. When combined with peginterferon–ribavirin, protease inhibitors improve SVR rates to 65–85% among genotype 1 patients, even when patients have previously responded to peginterferon, but have relapsed [7, 8]. However, treatment with protease inhibitors still requires peginterferon and is complicated by severe side effects including treatment-limiting anemia in up to 50% of patients. But in 2013 interferon-free regimens emerged using a new class of drugs, HCV polymerase inhibitors [9, 10]. In one study, patients with untreated HCV genotype 1 received an all-oral regimen consisting of a protease inhibitor, a polymerase inhibitor, and ribavirin and achieved SVR rates of 52–69% after just 12 weeks of treatment [11]. Significant anemia and other severe adverse events were rare (<10%), suggesting that the regimen will be appropriate for HCV genotype 1 patients who cannot tolerate interferon. Several similar, equally promising regimens are in phase 2 or 3 studies, so patients with HCV can expect to have multiple all-oral treatment options.

The recent progress in CDI and HCV has been encouraging and we expect further therapeutic advances in these areas in 2014.

Daniel E. Freedberg

Julian A. Abrams