Congenital neuromuscular disease with uniform type 1 fiber (CNMDU1) in 40% of patients is associated with mutations in the C-terminal domain of RYR1, suggesting that CNMDU1 is allelic to central core disease at least in some patients.
AimsRifaximin (RFX), a non‐systemic antibiotic, improves liver/neuropsychological functions in patients with hepatic encephalopathy (HE). We aimed to investigate the clinical profiles associated with gut bacterial loads using exploratory data analysis and the effects of RFX on the gut microbiota of patients with HE.MethodsWe analyzed the data from 17 patients with HE who underwent fecal microbiota examination in phase II/III trials in Japan. Profiles associated with genera Streptococcus, Veillonella, and Lactobacillus loads were analyzed using classification and regression trees (CART). Changes in gut microbial consortia of seven patients with HE were then assessed 2 weeks after RFX treatment by principal component analysis.ResultsIn the CART, the first and second divergence variables for each higher bacterial load were as follows: (i) in Streptococcus, the number connection test‐A ≥39.55 s and presence of portal‐systemic shunt; (ii) in Veillonella, serum potassium levels <4.75 mEq/L and total cholesterol level <129.5 mg/dL; and (iii) in Lactobacillus, white blood cell counts ≥3.4 × 103/μL and aspartate aminotransferase level ≥44.5 U/L. There was no significant change in total bacterial load before and after RFX treatment; however, there was a decrease in Streptococcus, Veillonella, and Lactobacillus counts after RFX treatment.ConclusionWe report clinical profiles associated with gut bacterial loads in patients with HE, and showed that RFX altered gut microbiota components associated with liver/neuropsychological functions. Thus, RFX could improve liver/neuropsychological functions through the regulation of the gut microbial consortia in patients with HE.
Hepatic encephalopathy (HE) is the neuropsychiatric complication of liver cirrhosis (LC). The influence of gut microbiota on HE pathogenesis has been suggested but not precisely elucidated. Here, we investigate how the gut microbial profile changed in patients with HE to clarify the functional gut microbial species associated with HE. We focused on their responses to rifaximin (RFX), a nonabsorbable antibiotic used in HE therapy. Feces samples were collected from patients with decompensated LC (all HE), patients with compensated LC, and healthy controls, and fecal gut microbial profiles were compared using 16S ribosomal RNA gene amplicon and metagenomic sequencing. The linear discriminant analysis effect size was used to identify specific species. Urease‐positive Streptococcus salivarius, which can produce ammonia, was identified as the most significantly abundant gut microbiota in the HE group, and its ability to elevate the levels of blood ammonia as well as brain glutamine was experimentally verified in mice. Urease‐negative Ruminococcus gnavus was also identified as a significantly abundant species in patients with RFX‐nonresponsive HE after RFX administration. Interestingly, R. gnavus enhanced urease activity of recombinant urease itself, implying that R. gnavus could amplify ammonia production of surrounding urease‐positive microbiota. Furthermore, the sensitivity of S. salivarius and R. gnavus to RFX depended on conjugated secondary bile acid levels, suggesting a therapeutic potential of the combined use of secondary bile acid levels with RFX for enhancing the efficacy of RFX. This study identified specific gut bacterial species abundant in patients with HE and verified their functions linked to HE pathophysiology. Targeting these bacteria could be a potentially effective strategy to treat HE.
Background and AimBecause covert hepatic encephalopathy (CHE) has been shown to affect the prognosis of cirrhotic patients, early diagnosis of hepatic encephalopathy (HE) is a prerequisite for the preservation of patients' quality of life and for prophylaxis of overt HE. The aim of this study was to identify a clinical parameter to predict impairment of cognitive function in cirrhotic patients with early‐stage HE.MethodsWe investigated the data from 172 patients with cirrhotic or idiopathic portosystemic shunt (PSS) in phase II/III trials of rifaximin in Japan. Classification and regression trees (CARTs) were constructed to identify clinical profiles related to cognitive dysfunction as indicated by the prolongation of time required for the Number Connection Test (NCT‐B).ResultsCART analysis detected age 65 years as the variable for the initial split, and serum albumin level was selected as the variable for the second split among patients aged ≤65 years. In 27 cirrhotic patients aged ≤65 years without PSS, receiver operating characteristic curve analysis revealed that the optimal albumin level cutoff point was 3.05 g/dL, and the area under the curve was 0.80 for the prolongation of NCT‐B time, which was higher than that of the branched‐chain amino acids‐to‐tyrosine ratio (0.46), the prothrombin time–international normalized ratio (PT‐INR) (0.68), serum ammonia (0.61), and total bilirubin (0.69).ConclusionsLower serum albumin level as a clinical biomarker associated with impaired cognitive function may be available as a screening examination for early‐stage HE in cirrhotic patients aged ≤65 years without PSS before undergoing neuropsychological tests.
Clinical studies were conducted to investigate the pharmacokinetics of roxatidine acetate hydrochloride capsules (ALTAT(®) CAPSULES) in children. In a single-dose pharmacokinetic (PK) study in pediatric patients aged between 6 and 14 years with acid-related diseases, 37.5 mg or 75 mg roxatidine capsules were given orally, and blood samples were collected to determine the plasma roxatidine concentrations. Meanwhile, a single-dose PK study in healthy adult volunteers was newly conducted; subjects were given 37.5 mg, 75 mg or 150 mg roxatidine capsules. Differences were present between the PK parameters in pediatric patients and those in healthy adult volunteers. However, the CL/F and Vd/F adjusted by body surface area (BSA) or body weight (BW) were comparable. A close correlation of the C(max) and AUC(0-∞) to the dose per unit BSA (mg/m(2)) or BW (mg/kg) was also shown. In the multiple-dose study in pediatric patients, no roxatidine accumulation in plasma was observed, as was the case with a previous study in adults. These data show that the PK profile of roxatidine in pediatric patients is similar to the profile in healthy adult volunteers when adjusted by BSA or BW.
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