Humans ; Gastrointestinal Microbiome ; Constipation/therapy* ; Probiotics/therapeutic use* ; Patients

BACKGROUND

Long-term administration of conventional acne medications implies the potential risk of increasing microbial resistance, and safety risks. Recent interest has grown in probiotics as a potential treatment and as an adjunct for acne vulgaris.

To conduct a systematic review of randomized controlled trials of oral probiotics in reducing the severity of acne vulgaris compared to placebo or conventional treatments.

PubMed, Cochrane Central Register of Controlled Trials, Embase, WHO ICTRP and ClinicalTrials.gov were searched for relevant studies, and randomized controlled trials of acne vulgaris treatment with probiotic therapy were included. Outcomes include decrease in total lesion count/percent change from baseline, improvement of severity scores, inflammation related indicators, and gene expression. Changes in outcomes were calculated by effect size or pooled odds ratio.

A total of 2 RCTs involving 100 participants were included. Both studies show low risk on the risk bias criteria. The data of 2 RCTs reporting severity scores (AGSS and GAGS) supports that probiotics can improve their scores and thereby their condition. For inflammation-related indicators, only 1 RCT showed that probiotics can improve the IGF1 and FOXO1 gene expression in the skin. Regarding safety, only Eguren et al. reported adverse event. Their RCT showed that the incidence of adverse events was low and no serious adverse events.

In conclusion, the probiotics investigated in both studies may be given as adjuvant treatment for acne vulgaris as they improve the clinical course of patients.

Good nutrition plays a crucial role in maintaining a balanced lifestyle. The beneficial effects of nutrition have been found to counteract nutritional disturbances with the expanded use of nutraceuticals to treat and manage cardiovascular diseases, cancer, and other developmental defects over the last decade. Flavonoids are found abundantly in plant-derived foods such as fruits, vegetables, tea, cocoa, and wine. Fruits and vegetables contain phytochemicals like flavonoids, phenolics, alkaloids, saponins, and terpenoids. Flavonoids can act as anti-inflammatory, anti-allergic, anti-microbial (antibacterial, antifungal, and antiviral) antioxidant, anti-cancer, and anti-diarrheal agents. Flavonoids are also reported to upregulate apoptotic activity in several cancers such as hepatic, pancreatic, breast, esophageal, and colon. Myricetin is a flavonol which is naturally present in fruits and vegetables and has shown possible nutraceutical value. Myricetin has been portrayed as a potent nutraceutical that may protect against cancer. The focus of the present review is to present an updated account of studies demonstrating the anticancer potential of myricetin and the molecular mechanisms involved therein. A better understanding of the molecular mechanism(s) underlying its anticancer activity would eventually help in its development as a novel anticancer nutraceutical having minimal side effects.
Humans ; Flavonoids/chemistry* ; Antineoplastic Agents/chemistry* ; Dietary Supplements ; Antioxidants/pharmacology* ; Neoplasms/drug therapy*

BACKGROUND

Chronic kidney disease (CKD) poses a global health threat with significant morbidity and mortality. Despite current therapies, there is a need for innovative interventions to slow CKD progression. Probiotic supplementation shows promise due to its positive effects on gastrointestinal health and inflammation. However, existing research is inconclusive, necessitating a meta-analysis to assess probiotics’ impact on CKD outcomes.

To evaluate the existing scientific literature among probiotic supplementation and the improvement in glomerular filtration rate (GFR) among chronic kidney disease (CKD) patients compared to placebo treatment.

A comprehensive search of electronic databases was conducted to identify relevant studies published up to 2023. Studies that meet the predefined eligibility criteria were included. Data extraction was performed, and methodological quality and risk of bias assessment was conducted for each study. Effect measures, such as mean differences or standardized mean differences, were used to quantify the association between probiotic supplementation and GFR improvement. The random-effects model was applied to estimate the overall effect size, and subgroup analyses were performed to explore potential sources of heterogeneity. Publication bias was assessed, and sensitivity analyses was conducted to evaluate the robustness of the findings.

The meta-analysis encompassed three randomized controlled trials (RCTs) conducted from 2017 to 2023, involving 121 chronic kidney disease (CKD) patients. The analysis focused on the impact of probiotic supplementation on CKD, examining Glomerular Filtration Rate (GFR), Blood Urea Nitrogen (BUN), and Urine Protein Creatinine Ratio (UPCR). While no significant distinctions were found in GFR and BUN changes between probiotics and placebos, there was a statistically significant reduction in UPCR associated with probiotic supplementation in one study. Notably, considerable heterogeneity in GFR and significant heterogeneity in UPCR reduction were observed among the trials. Sensitivity analysis, excluding studies with small sample sizes or high bias risk, remained consistent with overall findings.

The meta-analysis indicated no significant impact of probiotic supplementation on GFR and BUN, but there was a notable reduction in Urine UPCR. The observed heterogeneity among the studies calls for cautious interpretation due to variations in study designs, patient populations, and probiotic formulations. While the results suggest a potential role for probiotics in reducing proteinuria in chronic kidney disease (CKD) patients, the need for further research with larger sample sizes and standardized methodologies is emphasized to establish definitive conclusions.

The intestinal mucus layer is a barrier that separates intestinal contents and epithelial cells, as well as acts as the "mucus layer-soil" for intestinal flora adhesion and colonization. Its structural and functional integrity is crucial to human health. Intestinal mucus is regulated by factors such as diet, living habits, hormones, neurotransmitters, cytokines, and intestinal flora. The mucus layer's thickness, viscosity, porosity, growth rate, and glycosylation status affect the structure of the gut flora colonized on it. The interaction between "mucus layer-soil" and "gut bacteria-seed" is an important factor leading to the pathogenesis of non-alcoholic fatty liver disease (NAFLD). Probiotics, prebiotics, fecal microbiota transplantation (FMT), and wash microbial transplantation are efficient methods for managing NAFLD, but their long-term efficacy is poor. FMT is focused on achieving the goal of treating diseases by enhancing the "gut bacteria-seed". However, a lack of effective repair and management of the "mucus layer-soil" may be a reason why "seeds" cannot be well colonized and grow in the host gut, as the thinning and destruction of the "mucus layer-soil" is an early symptom of NAFLD. This review summarizes the existing correlation between intestinal mucus and gut microbiota, as well as the pathogenesis of NAFLD, and proposes a new perspective that "mucus layer-soil" restoration combined with "gut bacteria-seed" FMT may be one of the most effective future strategies for enhancing the long-term efficacy of NAFLD treatment.
Humans ; Non-alcoholic Fatty Liver Disease/therapy* ; Gastrointestinal Microbiome ; Probiotics ; Prebiotics ; Fecal Microbiota Transplantation ; Bacteria ; Liver/pathology*

As human microbiome research advances, a large body of evidence shows that microorganisms are closely related to human health. Probiotics were discovered and used as foods or dietary supplements with health benefits in the last century. Microorganisms have shown broader application prospects in human health since the turn of the century, owing to the rapid development of technologies such as microbiome analysis, DNA synthesis and sequencing, and gene editing. In recent years, the concept of "next-generation probiotics" has been proposed as new drugs, and microorganisms are considered as "live biotherapeutic products (LBP)". In a nutshell, LBP is a living bacterial drug that can be used to prevent or treat certain human diseases and indications. Because of its distinct advantages, LBP has risen to the forefront of drug development research and has very broad development prospects. This review introduces the varieties and research advances on LBP from a biotechnology standpoint, followed by summarizing the challenges and opportunities for LBP clinical implementations, with the aim to facilitate LBP development.
Humans ; Probiotics ; Dietary Supplements ; Bacteria ; Drug Development ; Biotechnology

With the increase in the medical level, the improvement of adverse drug reaction(ADR) monitoring systems, and the enhancement of public awareness of safe medication, drug safety incidents have been frequently reported. Drug-induced liver injury(DILI), especially liver injury attributed to herbal and dietary supplements(HDS), has globally attracted high attention, bringing great threats and severe challenges to the people for drug safety management such as clinical medication and medical supervision. Consensus on drug-induced liver injury had been published by the Council for International Organizations of Medical Sciences(CIOMS) in 2020. In this consensus, liver injury attributed to HDS was included in a special chapter for the first time. The hot topics, including the definition of HDS-induced liver injury, epidemiological history, potential risk factors, collection of related risk signals, causality assessment, risk prevention, control and management were discussed from a global perspective. Based on the previous works, some experts from China were invited by CIOMS to undertake the compilation of this chapter. Meanwhile, a new causality assessment in DILI based on the integrated evidence chain(iEC) method was widely recognized by experts in China and abroad, and was recommended by this consensus. This paper briefly introduced the main contents, background, and characteristics of the Consensus on drug-induced liver injury. Significantly, a brief interpretation was illustrated to analyze the special highlights of Chapter 8, "Liver injury attributed to HDS", so as to provide practical references for the medical staff and the researchers who worked on either Chinese or Western medicine in China.
Humans ; Consensus ; Chemical and Drug Induced Liver Injury/etiology* ; Risk Factors ; Dietary Supplements/adverse effects*

Drug-induced liver injury (DILI) is an important adverse drug reaction that can lead to acute liver failure or even death in severe cases. Currently, the diagnosis of DILI still follows the strategy of exclusion. Therefore, a detailed history taking and a thorough and careful exclusion of other potential causes of liver injury is the key to correct diagnosis. This guideline was developed based on evidence-based medicine provided by the latest research advances and aims to provide professional guidance to clinicians on how to identify suspected DILI timely and standardize the diagnosis and management in clinical practice. Based on the clinical settings in China, the guideline also specifically focused on DILI in chronic liver disease, drug-induced viral hepatitis reactivation, common causing agents of DILI (herbal and dietary supplements, anti-tuberculosis drugs, anti-neoplastic drugs), and signal and assessment of DILI in clinical trials.
Humans ; Chemical and Drug Induced Liver Injury/therapy* ; Drug-Related Side Effects and Adverse Reactions ; Liver Failure, Acute ; Dietary Supplements/adverse effects* ; Risk Factors

Early weaned piglets suffer from oxidative stress and enteral infection, which usually results in gut microbial dysbiosis, serve diarrhea, and even death. Rice bran oil (RBO), a polyphenol-enriched by-product of rice processing, has been shown to have antioxidant and anti-inflammatory properties both in vivo and in vitro. Here, we ascertained the proper RBO supplementation level, and subsequently determined its effects on lipopolysaccharide (LPS)-induced intestinal dysfunction in weaned piglets. A total of 168 piglets were randomly allocated into four groups of seven replicates (42 piglets each group, (21±1) d of age, body weight (7.60±0.04) kg, and half males and half females) and were given basal diet (Ctrl) or basal diet supplemented with 0.01% (mass fraction) RBO (RBO1), 0.02% RBO (RBO2), or 0.03% RBO (RBO3) for 21 d. Then, seven piglets from the Ctrl and the RBO were treated with LPS (100 μg/kg body weight (BW)) as LPS group and RBO+LPS group, respectively. Meanwhile, seven piglets from the Ctrl were treated with the saline vehicle (Ctrl group). Four hours later, all treated piglets were sacrificed for taking samples of plasma, jejunum tissues, and feces. The results showed that 0.02% was the optimal dose of dietary RBO supplementation based on diarrhea, average daily gain, and average daily feed intake indices in early weaning piglets. Furthermore, RBO protected piglets against LPS-induced jejunal epithelium damage, which was indicated by the increases in villus height, villus height/crypt depth ratio, and Claudin-1 levels, as well as a decreased level of jejunal epithelium apoptosis. RBO also improved the antioxidant ability of LPS-challenged piglets, which was indicated by the elevated concentrations of catalase and superoxide dismutase, and increased total antioxidant capacity, as well as the decreased concentrations of diamine oxidase and malondialdehyde in plasma. Meanwhile, RBO improved the immune function of LPS-challenged weaned piglets, which was indicated by elevated immunoglobulin A (IgA), IgM, β‍‍-defensin-1, and lysozyme levels in the plasma. In addition, RBO supplementation improved the LPS challenge-induced dysbiosis of gut microbiota. Particularly, the indices of antioxidant capacity, intestinal damage, and immunity were significantly associated with the RBO-regulated gut microbiota. These findings suggested that 0.02% RBO is a suitable dose to protect against LPS-induced intestinal damage, oxidative stress, and jejunal microbiota dysbiosis in early weaned piglets.
Male ; Female ; Swine ; Animals ; Lipopolysaccharides/toxicity* ; Antioxidants/pharmacology* ; Rice Bran Oil ; Dysbiosis ; Dietary Supplements ; Diarrhea/veterinary* ; Weaning ; Body Weight

Monascus is one of the most essential microbial resources in China, with thousands of years of history. Modern science has proved that Monascus can produce pigment, ergosterol, monacolin K, γ-aminobutyric acid, and other functionally active substances. Currently, Monascus is used to produce a variety of foods, health products, and pharmaceuticals, and its pigments are widely used as food additives. However, Monascus also makes a harmful polyketide component called citrinin in the fermentation process; citrinin has toxic effects on the kidneys such as teratogenicity, carcinogenicity, and mutagenicity (Gong et al., 2019). The presence of citrinin renders Monascus and its products potentially hazardous, which has led many countries to set limits and standards on citrinin content. For example, the citrinin limit is less than 0.04 mg/kg according to the Chinese document National Standard for Food Safety Food Additive Monascus (GB 1886.181-2016) (National Health and Family Planning Commission of the People's Republic of China, 2016), and the maximum level in food supplements based on rice fermented with Monascus purpureus is 100 µg/kg in the European Union (Commission of the European Union, 2019).
Citrinin ; Dietary Supplements ; Fungi ; Monascus