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Influenza is an important cause of morbidity and mortality worldwide. Treatment options are scarce, and new drugs with novel mechanisms of action are needed. We aimed to assess the efficacy and safety of nitazoxanide, a thiazolide anti-infective, for treatment of acute uncomplicated influenza. We did a double-blind, randomised, placebo-controlled, phase 2b/3 trial in 74 primary care clinics in the USA between Dec 27, 2010, and April 30, 2011. We enrolled participants aged 12–65 years with fever, at least one respiratory symptom, and one constitutional symptom of influenza within 48 h of symptom onset. We randomly assigned participants to receive either nitazoxanide 600 mg, nitazoxanide 300 mg, or placebo twice daily for 5 days, (ratio 1:1:1) and followed them up for 28 days. Randomisation lists were computer generated and done in blocks of three. Sponsor, investigators, study monitors, patients, and laboratory personnel were all masked to treatment allocation in the study. The primary endpoint was the time from first dose to alleviation of symptoms. The primary analysis was by intention-to-treat for participants with influenza infection confirmed by RT-PCR or culture at baseline. This trial is registered with ClinicalTrials.gov, number NCT01227421. Of 650 participants screened, 624 (96%) were enrolled. Of these, 212 were randomly assigned to receive placebo twice a day, 201 to receive nitazoxanide 300 mg twice a day, and 211 to receive nitazoxanide 600 mg a day. The median duration of symptoms for participants receiving placebo was 116·7 h (95% CI 108·1–122·1) compared with 95·5 h (84·0–108·0; p=0·0084) for those receiving 600 mg nitazoxanide and 109·1 h (96·1–129·5, p=0·52) for those receiving 300 mg nitazoxanide. Adverse events were similar between the three groups, the most common being headache reported by 24 (11%) of 212 patients enrolled in placebo group, 12 (6%) of 201 patients in the low-dose group, and 17 (8%) of 211 patients in the high-dose group, or diarrhoea, reported by seven (3%) patients in the placebo group, four (2%) patients enrolled in the low-dose group, and 17 (8%) patients in the high-dose group. Treatment with nitazoxanide 600 mg twice daily for 5 days was associated with a reduction of the duration of symptoms in participants with acute uncomplicated influenza. Further studies are warranted to confirm these findings and to assess efficacy of the drug alone or in combination with existing drugs in seriously ill patients and those at risk of influenza complications. Romark Laboratories LC.

Viruses are dependent on cellular energy metabolism for their replication, and the drug nitazoxanide (Alinia) was shown to interfere with both processes. Nitazoxanide is an uncoupler of mitochondrial oxidative phosphorylation (OXPHOS). Our hypothesis was that mitochondrial uncoupling underlies the antiviral effects of nitazoxanide. Tizoxanide (the active metabolite of nitazoxanide), its derivative RM4848 and the uncoupler CCCP were applied to a virus-releasing cell line to obtain the same increasing levels of mitochondrial uncoupling, hence identical impact on OXPHOS. A decrease in infectious viral particle release was observed and reflected the intensity of impact on OXPHOS, irrespective of the nature of the drug. The antiviral effect was significant although the impact on OXPHOS was modest (≤ 25%), and disappeared when a high concentration (25 mM) of glucose was used to enhance glycolytic generation of ATP. Accordingly, the most likely explanation is that moderate interference with mitochondrial OXPHOS induced rearrangement of ATP use and acquisition of infective properties of the viral particles be highly sensitive to this rearrangement. The antiviral effect of nitazoxanide has been supported by clinical trials, and nitazoxanide is considered a safe drug. However, serious adverse effects of the uncoupler dinitrophenol occurred when used to increase significantly metabolic rate with the purpose of weight loss. Taken together, while impairment of mitochondrial bioenergetics is an unwanted drug effect, moderate interference should be considered as a basis for therapeutic efficacy.

Background. Vancomycin is the only US Food and Drug Administration–approved drug for treatment of Clostridium difficile infection (CDI). Metronidazole has been widely used for this purpose but may be inferior to vancomycin, especially for hospitalized patients with severe disease. We report a prospective, double-blind, randomized controlled trial comparing nitazoxanide with vancomycin for treatment of CDI. Methods. Fifty patients with CDI were randomized to receive vancomycin or nitazoxanide for 10 days. An initial response was considered to be the absence of all CDI symptoms between days 11 and 13, and a final response was considered to be lack of symptom recurrence by day 31. Results. One patient fulfilled an exclusion criterion and was removed from the study. Twenty-seven patients received vancomycin, and 23 received nitazoxanide; 23 and 18 patients, respectively, completed the full course of treatment. Initial responses occurred in 20 (74%) of 27 patients treated with vancomycin and in 17 (77%) of 22 patients treated with nitazoxanide (95% confidence interval, −24% to +28%). In those who completed therapy, response rates were 87% (20 of 23 patients) in the vancomycin group and 94% (17 of 18 patients) in the nitazoxanide group (95% confidence interval, −18% to +30%). Times to complete resolution of symptoms were similar in the 2 groups (P=.55). Two patients in the vancomycin group and 1 patient in the nitazoxanide group experienced relapse within 31 days after beginning treatment. Sustained response rates were 78% (18 of 23 patients) for the vancomycin group, and 89% (16 of 18 patients) for the nitazoxanide group (95% confidence interval, −18% to +35%). Conclusions. The small sample precludes conclusions about noninferiority of nitazoxanide to vancomycin. Nevertheless, this is the first recent randomized controlled trial to compare any antimicrobial agent other than metronidazole with vancomycin. Results suggest that nitazoxanide may be as effective as vancomycin in treating CDI. Trial registration. ClinicalTrials.gov identifier: NCT00384527.

Chronic infection by the hepatitis B virus (HBV) has remained a major public health problem. To achieve an HBV cure, we will likely need to combine antivirals with different viral targets as well as immunotherapy. Here, we report data from a pilot proof‐of‐concept clinical trial of nitazoxanide in treating chronic hepatitis B. Conclusion: Nitazoxanide offers novel mechanisms of antiviral activity, and it would be interesting to evaluate the potential of combining nitazoxanide with oral nucleos(t)ide analogues. This paper offers a novel therapeutic approach for HBV treatment, based on nitazoxanide, an anti‐parasitic drug, targeting the mitochondrai and with an excellent safety profile

Cryptosporidiosis is a gastrointestinal illness with profuse diarrhoea. Although there are no other Food and Drug Administration (FDA)-approved alternatives for the treatment of cryptosporidiosis, nitazoxanide (NTZ) can be qualified as partially effective. In immunosuppressed conditions, severe and/or disseminated cryptosporidiosis may occur and patients should be treated parenterally. To achieve the goal of developing parenteral treatment for cryptosporidiosis, the current study was undertaken to investigate the in vitro and in vivo anticryptosporidial activity of aminoxanide. This new l - tert -leucyl thiazolide is a soluble prodrug of tizoxanide (TIZ), the main metabolite of NTZ. Confirming the good efficacy of aminoxanide in Cryptosporidium parvum -infected HCT-8 cells with a 50% inhibitory concentration of 1.55 μ m (±0.21), in immunosuppressed C. parvum -infected Mongolian gerbils ( Meriones unguiculatus ), a 5-day treatment with a daily intramuscular dose of 100 mg kg −1 aminoxanide resulted in a 72.5% oocyst excretion inhibition, statistically equivalent to 75.5% in gerbils treated with a 4-fold lower oral dose of NTZ. Cryptosporidium parvum -induced intestinal pathology and inflammation were improved. Aminoxanide provides an injectable form of TIZ that NTZ was unable to do and is a promising drug for which optimization of the formulation should be further explored. These results represent a first promising step towards the goal of developing a parenteral treatment for cryptosporidiosis.

A prospective randomized, double-blind, placebo-controlled study was conducted in 50 adults and 50 children from the Nile delta of Egypt, to evaluate the efficacy of nitazoxanide in treating diarrhea caused by Cryptosporidium parvum Nitazoxanide was administered in 500-mg doses twice daily for 3 days in adults and adolescents, in 200-mg doses twice daily for 3 days in children aged 4–11 years, and in 100-mg doses twice daily for 3 days in children aged 1–3 years. At 7 days after initiation of therapy, diarrhea had resolved in 39 (80%) of the 49 patients in the nitazoxanide treatment group, compared with 20 (41%) of 49 in the placebo group (P<.0001). Diarrhea was resolved in most patients receiving nitazoxanide within 3 or 4 days of treatment initiation. Nitazoxanide treatment reduced the duration of both diarrhea (P<.0001) and oocyst shedding (P<.0001)

Nitazoxanide, the first thiazolide, was originally developed for the treatment of . The antiviral activity of nitazoxanide was discovered by serendipity in patients with AIDS who were treated for cryptosporidial diarrhea and had HBV or HCV co-infection. In preliminary open-label studies of patients with chronic hepatitis B, nitazoxanide suppressed serum HBV DNA and led to loss or seroconversion of hepatitis B e  antigen in the majority of patients, as well as hepatitis B surface antigen in approximately a quarter of patients. In Phase II studies of patients with chronic hepatitis C genotype 4, nitazoxanide combined with peginterferon alfa-2a, with or without ribavirin, increased the sustained virologic response rate to 79-–80 versus 50% with peginterferon plus ribavirin standard of care. Randomized, controlled studies of naive and nonresponder patients with chronic hepatitis C genotype 1 and patients with chronic hepatitis B are underway, and new second generation thiazolides are being developed.

Background. Clostridium difficile colitis has increased in incidence and severity, and treatment failure with metronidazole therapy has increasingly been documented. It is uncertain whether treatment with vancomycin is more effective than treatment with metronidazole, but concern over the emergence of vancomycin resistance has motivated the search for alternative therapy. Nitazoxanide, a nitrothiazolide, blocks anaerobic metabolism of eukaryocyes and effectively treats intestinal infestation due to Cryptosporidium or Giardia species. At low concentrations, this compound inhibits C. difficile in vitro. Methods. We designed a prospective, randomized, double-blind study to compare nitazoxanide to metronidazole in treating hospitalized patients with C. difficile colitis. Results. Thirty-four patients received metronidazole at a dosage of 250 mg 4 times per day for 10 days, 40 patients received nitazoxanide at a dosage of 500 mg 2 times per day for 7 days, and 36 patients received nitazoxanide at a dosage of 500 mg 2 times per day for 10 days. After 7 days of treatment, 28 (82.4%) of 34 patients had responded to metronidazole therapy, compared with 68 (89.5%) of 76 who had received nitazoxanide therapy (difference, 7.1%; 95% confidence interval, -7.1% to 25.5%). Thirty-one days after beginning treatment, sustained responses were observed in 19 (57.6%) of 33 patients who had received metronidazole therapy for 10 days, compared with 25 (65.8%) of 38 who had received nitazoxanide for 7 days and 26 (74.3%) of 35 who had received nitazoxanide for 10 days (P = .34). Conclusion. Nitazoxanide is at least as effective as metronidazole in treating C. difficile colitis.

Rotavirus is a leading cause of morbidity and mortality in children younger than 5 years, but there is no effective treatment. We assessed the activity of nitazoxanide, a broad-spectrum anti-infective drug, against rotavirus in cell culture and in a clinical trial in paediatric patients hospitalised with severe rotavirus diarrhoea. We did a randomised double-blind placebo-controlled trial in 50 children admitted to the Cairo University Children's Hospital between June 15 and Aug 23, 2005, with severe rotavirus diarrhoea. 38 children aged 5 months to 7 years (median age 11 months) with rotavirus as the sole identified cause of gastroenteritis were enrolled in the clinical study. Patients were randomly assigned either 7·5 mg/kg nitazoxanide as an oral suspension or placebo twice a day for 3 days, and all remained in hospital for 7 days after start of treatment. The primary endpoint was time from first dose to resolution of illness, and analysis was by modified intention-to-treat. This study is registered with ClinicalTrials.gov, number NCT00302640. Survival analysis showed that the median time to resolution of illness was 31 h (IQR 22–73) for the nitazoxanide-treated group compared with 75 h (51–124) for the placebo group (p=0·0137). No significant adverse events were reported. A 3-day course of nitazoxanide significantly reduced the duration of rotavirus disease in hospitalised paediatric patients. These results are encouraging, and might lead us to think about new approaches to managing rotavirus disease in children.

Background Influenza viruses cause significant morbidity and mortality, especially in young children, elderly, pregnant women and individuals with co‐morbidities. Patients with severe influenza disease are typically treated with one neuraminidase inhibitor, oseltamivir or zanamivir. These antivirals need to be taken early to be most effective and often lead to the emergence of drug resistance and/or decreased drug susceptibility. Combining oseltamivir with another antiviral with an alternative mode of action has the potential to improve clinical effectiveness and reduce drug resistance. Methods In this study, we utilized a host‐targeting molecule RM‐5061, a second‐generation thiazolide, in combination with oseltamivir to determine whether these compounds could reduce viral burden and understand their effects on the immune response to influenza virus infection in mice, compared with either monotherapy or placebo. Results The combination of RM‐5061 and OST administered for 5 days after influenza infection reduced viral burden at day 5 post‐infection, when compared to placebo and RM‐5061 monotherapy, but was not significantly different from oseltamivir monotherapy. The inflammatory cytokine milieu was also reduced in animals which received a combination therapy when compared to RM‐5061 and placebo‐treated animals. Antiviral treatment in all groups led to a reduction in CD8+ T‐cell responses in the BAL when compared to placebo. Conclusions To our knowledge, this is the first time a combination of a host‐targeting compound, RM‐5061, and neuraminidase inhibitor, OST, has been tested in vivo. This antiviral combination was safe in mice and led to reduced inflammatory responses following viral infection when compared to untreated animals.