Probiotic co-supplementation with absorbent smectite for pancreatic beta-cell function in type 2 diabetes: a secondary-data analysis of a randomized double-blind controlled trials.

Introduction: There is growing evidence from animal and clinical studies suggesting probiotics can positively affect type 2 diabetes (T2D). In a previous randomized clinical study, we found that administering a live multistrain probiotic and absorbent smectite once a day for eight weeks to patients with T2D could reduce chronic systemic inflammatory state, insulin resistance, waist circumference and improve the glycemic profile. However, there is a lack of evidence supporting the efficacy of probiotic co-supplementation with absorbent smectite on pancreatic ß-cell function in T2D. Aim: This secondary analysis aimed to assess the effectiveness of an alive multistrain probiotic co-supplementation with absorbent smectite vs placebo on ß-cell function in T2D patients. Material and methods: We performed a secondary analysis on a previously published randomized controlled trial (NCT04293731, NCT03614039) involving 46 patients with T2D. The main inclusion criteria were the presence of ß-cell dysfunction (%B<60%) and insulin therapy alone or combined with oral anti-diabetic drugs. The primary outcome was assessing ß-cell function as change C-peptide and %B. Results: We observed only a tendency for improving ß-cell function (44.22 ± 12.80 vs 55.69 ± 25.75; р=0.094). The effectiveness of the therapy probiotic-smectite group was confirmed by fasting glycemia decreased by 14% (p=0.019), HbA1c - 5% (p=0.007), HOMA-2 - 17% (p=0.003) and increase of insulin sensitivity by 23% (p=0.005). Analysis of the cytokine profile showed that statistical differences after treatment were in the concentration of both pro-inflammatory cytokines: IL-1ß (22.83 ± 9.04 vs 19.03 ± 5.57; p=0.045) and TNF-α (31.25 ± 11.32 vs 26.23 ± 10.13; p=0.041). Conclusion: Adding a live multistrain probiotic and absorbent smectite supplement slightly improved ß-cell function and reduced glycemic-related parameters in patients with T2D. This suggests that adjusting the gut microbiota could be a promising treatment for diabetes and warrants further investigation through more extensive studies.

Accuracy of attenuation coefficient measurement (ACM) for real-time ultrasound hepatic steatometry: Comparison of simulator/phantom data with magnetic resonance imaging proton density fat fraction (MRI-PDFF).

Objectives: To evaluate the accuracy and reproducibility of real time ultrasound (US) steatometry with the Attenuation Coefficient (AC) measurement in comparison with magnetic resonance imaging with proton density software module (MRI-PDFF). Methods: This study was conducted between January 2021 and October 2021. The comparison of instrumental methods for assessing and grading hepatic steatosis using a multimodal phantom simulator of different fat and water ratios was performed. The study involved 3 radiological centers. The steatophantom was simultaneously investigated using three methods: magnetic resonance imaging with proton density software module (MRI-PDFF) and 128-slice multidetector computed tomography, and then by 2 different US scanner for steatosis assessment via Measurement Attenuation Imaging (ATI) ant Attenuation Coefficient Measurement (ACM). Results: Modeling of hepatic steatosis using a series of phantom simulators allows evidence-based medicine to determine the diagnostic accuracy of the latest US techniques for steatosis. The ACM and ATI of both US systems on phantoms correlated well with each other and with MRI-PDFF and, thus, can provide good diagnostic value in the assessment of hepatic steatosis. MDCT was less sensitive to mild steatosis than AC and MRI-PDFF. Conclusion: Measurement of ACs in US studies by devices from different vendors compared to other modalities of radiological imaging (MDCT and MRI-PDFF) by special phantoms is an accurate and promising method for noninvasive quantification of hepatic steatosis.

Probiotic for Pancreatic ß-Cell Function in Type 2 Diabetes: A Randomized, Double-Blinded, Placebo-Controlled Clinical Trial.

INTRODUCTION: Many clinical studies have proved the effectiveness of probiotics in metabolic disorders associated with insulin resistance. However, the impact of probiotic therapy on pancreatic ß-cell function is ambiguous. The influence of probiotic supplementation vs. placebo on ß-cell function in people with type 2 diabetes (T2D) was assessed in a double-blind, single-center, randomized, placebo-controlled trial (RCT). METHODS: Sixty-eight patients with T2D were selected for participation in the RCT. Patients were randomly allocated to consumption of live multistrain probiotics or a placebo for 8 weeks, administered as a sachet formulation in double-blind treatment. The primary main outcome was the assessment of ß-cell function as change in C-peptide and HOMA-ß (homeostasis model assessment-estimated ß-cell function), which was calculated using the HOMA2 calculator (Diabetes Trials Unit, University of Oxford). Secondary outcomes were the changes in glycemic control-related parameters, anthropomorphic variables, and cytokines levels. Analysis of covariance was used to assess the difference between groups. RESULTS: Supplementation with live multiprobiotic was associated with slight significant improvement of ß-cell function (HOMA-ß increased from 32.48 ± 13.12 to 45.71 ± 25.18; p = 0.003) and reduction of fasting glucose level (13.03 ± 3.46 vs 10.66 ± 2.63 mmol/L and 234.63 ± 62.36 vs 192.07 ± 47.46 mg/dL; p < 0.001) and HbA1c (8.86 ± 1.28 vs 8.48 ± 1.22; p = 0.043) as compared to placebo. Probiotic therapy significantly affects chronic systemic inflammation in people with T2D by reducing pro-inflammatory cytokine levels. CONCLUSIONS: Probiotic therapies modestly improved ß-cell function in patients with T2D. Modulating the gut microbiota represents a new diabetes treatment and should be tested in more extensive studies. TRIAL REGISTRATION: NCT05765292.

Antimicrobial activity of dietary supplements based on bacterial lysate of Lactobacillus rhamnosus DV.

Introduction: According to WHO, antibiotic resistance is increasing to hazardous levels worldwide. Candidiasis often occurs after taking antibiotics. Therefore, antibiotic resistance is a global problem and searching for antibacterial agents is necessary. Aim: To determine the antimicrobial activity of bacterial lysate of Lactobacillus (L.) rhamnosus DV separately and with plant extracts against bacterial and yeast test cultures. Material and methods: Antimicrobial activity of Del-Immune V® (cell wall and DNA fragments from a L. rhamnosus DV) separately and with cinnamon, beetroot, and blackcurrant extracts was determined by the minimum inhibitory concentration (MIC). Twofold serial dilutions determined the MIC in previously prepared meat-peptone broth (MPB) for bacteria and liquid wort for yeast. In the study, gram-negative (Escherichia coli IEM-1, Proteus vulgaris PА-12, Pseudomonas sp. MI-2, L. rhamnosus 13/2) and gram-positive (Bacillus (B.) subtilis BТ-2, Staphylococcus aureus BМС-1) bacteria, as well as yeast (Candida (C.) albicans D-6, C. tropicalis PE-2, C. utilis BVS-65) were used as test cultures. Results: The MIC for the studied bacterial test cultures after application of L. rhamnosus DV bacterial lysates was from 1.0 ± 0.05 mg/mL to 12.5 ± 0.63 mg/mL, which was significantly less than that of the thermally inactivated control (MIC from 125.0 ± 6.25 mg/mL to 250.0 ± 12.5 mg/mL). B. subtilis BT-2 culture was the least sensitive to the action of the bacterial lysate (MIC-12.5 ± 0.63 mg/mL). It showed the best antibacterial and antifungal effect bacterial lysate with the phytonutrient blackcurrant. Conclusions: It was demonstrated that bacterial lysate of lactic acid bacteria L. rhamnosus DV exhibits antibacterial and antifungal properties during direct contact with pathogenic agents.

Association between intestinal microflora and obesity.

Obesity has become one of modern society's most serious health problems. Studies from the last 30 years revealed a direct relationship between imbalanced energy intake and increased healthcare costs related to the treatment or management of obesity. Recent research has highlighted significant effects of gut microbial composition on obesity. We aimed to report the current knowledge on the definition, composition, and functions of intestinal microbiota. We have performed an extensive review of the literature searching for the following key words: metabolism, gut microbiota, dysbiosis, and obesity. There is evidence that an association between intestinal microbiota and obesity exists at any age. There are complex genetic, metabolic, and inflammatory mechanisms involved in the pathogenesis of obesity. Revision of indications for use of probiotics, prebiotics, and antibiotics in obese patients should be considered. Microbial composition of the gut may be an important factor involved in the development of obesity. Changes in the gut microbiota may result in changes in human metabolism and weight loss.

Long COVID prevalence and physiology-centered risks: population-based study in Ukraine.

AIM: Multifaceted long COVID caused by SARS-COV-2 affects all populations in the World and takes priority over any other research topics for health care. The purpose of study is to identify physiology-centered risks, prevalence, symptoms and laboratory findings in patients with long COVID in Ukraine. METHODS: A prospective, cohort study was carried out on 332 patients with long COVID after 4 weeks and more after acute infection COVID-19 from Jul 1, 2021, to Jul 1, 2022. Physiology-centered risks related to age, gender, body mass index (BMI), marital status and educational capacity, smoking, lifestyle, physical activity, and laboratory findings (before disease), and symptom distribution were analyzed. RESULTS: The cohort for the study consisted of 166 females and 107 males (mean age = 42; including young 18 (5.4%) and middle- and old-aged adults 314 (96.4%)). Increased BMI was in 61%, and less physical activity-65%. There were 4 clusters of symptoms related to physical, neurocognitive, pulmonary, and pain conditions. 95% of participants had ≥ 3 symptoms. The most common symptoms were fatigue (90%), muscular pain (85%), anosmia (70%), hair loss (70%), sleep disorders (70%), dyspnea (30%), and brain fog (25%). Among laboratory finding increased CRP (92.6%) and fibrinogen (82.7%) dominated. There are no differences between hospitalized and non-hospitalized patients in distribution symptoms. CONCLUSIONS: The prevalence of long COVID is 23%, and its physiology-centered risk factors are related to age more 38 years, female sex, unhealthy lifestyle, increased BMI, and increased inflammatory markers during COVID-19. The most common symptoms are associated with neurocognitive and pain clusters.

Hydrogen Sulfide Prevents Mesenteric Adipose Tissue Damage, Endothelial Dysfunction, and Redox Imbalance From High Fructose Diet-Induced Injury in Aged Rats.

A high fructose diet (HFD) and advanced age are key factors for the gradual loss of physiological integrity of adipose tissue. Endogenous hydrogen sulfide (H2S) has beneficial effects on cytoprotection and redox balance. But its interactive effects on age-related damage of mesenteric vessels and connective and adipose tissues (MA) during HFD which could be the base of the development of effective physiological-based therapeutic strategy are unknown. The aim of study was to investigate age- and HFD-induced mesenteric cellular changes and activities of enzymes in H2S synthesis and to test the effects of sodium hydrosulfide (NaHS) which is considered an H2S donor on them. Adult and aged male rats on a standard diet (SD) or 4-week HFD were exposed to acute water-immersion restraint stress (WIRS) for evaluation of mesenteric subcellular and cellular adaptive responses by electron microscopy. The effects of exogenous NaHS (5.6 mg/kg/day for 9 days) versus vehicle on mesentery changes were investigated. Serum glucose level, thiobarbituric acid reactive substances (TBARS), and activities of cystathionine γ-lyase (CSE) and cystathionine ß-synthase (CBS), thiosulfate-dithiol sulfurtransferase (TST), and sulfite oxidase (SO) were examined by spectrophotometry. In both adult and aged SD groups, treatment with NaHS protected mesenteric cells after WIRS. In both groups, the treatment with NaHS also protected MA mitochondria, microvascular endothelial and sub-endothelial structures, and fibroblasts versus the vehicle-treated group that had signs of damage. HFD increased MA injury and mitochondrial changes in both aged and adult rats. HFD-associated malfunction is characterized by low activities of CSE, CBS, TST, SO, and increased TBARS. Finally, we demonstrated that pretreatment with NaHS inhibited MA and mitochondria alterations in aged rats exposed to HFD and WIRS, lowered TBARS, and enhanced H2S enzyme activities in contrast to the vehicle-treated group. Mitochondrial integrity alterations, endothelial damage, and redox imbalance are key factors for rat mesenteric adipose tissue damage during advanced age. These alterations and MA hypertrophic changes retain the central for HFD-induced damage. Moreover, H2S signaling contributes to MA and mitochondria redox balance that is crucial for advanced age and HFD injury. The future study of H2S donors' effects on mesenteric cells is fundamental to define novel therapeutic strategies against metabolic changes.

Effect of CCl4 and blocking H2S biosynthesis on oesophageal mucosa rats: model of nonerosive oesophagitis.

Nonerosive esophagitis (NEO) - a chronic inflammatory condition with diagnostic and therapy unclear approaches. The aim of study was to develop the new models of NEO using the chemical ulcerogens: carbon tetrachloride (CCl(4)), hydrogen sulfide (H(2)S). We modified the method of NEO with cytoprotective prostaglandins (COX) and H(2)S biosynthesis carried out on rats, divided into groups: 1st - vehicle (1 ml 0.9% NaCl), CCl(4) (twice 0.3 ml/200g/body weight); the next day 2(nd) - vehicle; 3(rd) - nonselective blocker of COX (naproxen; 30 mg/kg); 4(th) - ATB-346 (H(2)S-releasing naproxen; 43.5 mg/kg, «Antibe Therapeutics¼, Canada) with per os administration. After H(2)S-biosythesis modification by intraperitoneal administration of cystathionine g-lyase (CSE) inhibitor, DL-propargylglycine (PAG, 25 mg/kg), cystathionine-b-synthetase (CBS) inhibitor, O-carboxymethyl-hydroxylamine hemihydrochloride (CHH, 50 mg/kg) or H(2)S donor NaHS (100 mlmol/kg), stress was inducted by Takagi, 1964. The lower third of EM and esophagogastric junction were estimated via histological score index, IL-17, IL-10 by ELISA. The obtained data indicated the strong cytotoxic influence of CCl(4) on EM, corneal and epithelial layers thickness increasing, muscle plate and submucosal edema disorganization vs control and ATB-346 treatment. Over-expression of IL-17 was achieved using PAG and BCA vs control. WIRS-associated EM injury with blocking CSE, CBS characterized by submucosal oedema, neutophilic infiltration, destructive lesions, HSI rising up to 6 vs control. Increased IL-17 to 65% and decreased IL-10 in 30% vs control. H(2)S plays key role in the integrity of oesophageal mucosa and modification of H(2)S synthesis and CCl(4)-related injury can be novel approach of animal model production NEO, similar to human NERD and will help in its pathogenesis identification and preventive drugs creation.