1.
Small Intestinal Bacterial Overgrowth in Children: A State-Of-The-Art Review.
Avelar Rodriguez, D, Ryan, PM, Toro Monjaraz, EM, Ramirez Mayans, JA, Quigley, EM
Frontiers in pediatrics. 2019;7:363
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Small intestinal bacterial overgrowth (SIBO) occurs when microorganisms overpopulate the small intestine and is characterised by gastrointestinal symptoms such as abdominal pain, diarrhoea, and flatulence. This review focuses on paediatric SIBO, known to be increasing, with emphasis on the impact on gut microbiota. The gut microbiota is influenced by several factors including genetics, vaginal delivery, exercise and diet. SIBO in children has been studied in the context of stunting, irritable bowel syndrome (IBS), obesity, and related to use of proton pump inhibitors (PPIs). This review analysed 149 studies published since 2000 through till May 2019 with the aim of presenting the most up-to-date information. Risk factors included gastric acids and medications which suppress this activity, intestinal motility disturbances leading to bacterial overgrowth, anatomical anomalies where there is an absence of one or more intestinal valves, and poor socioeconomic status and diet. The review concluded that the recommended diagnosis is by methane and hydrogen breath testing and that Gold Standard treatment is antibiotic ‘rifaximin’ at 1,200 mg/d, reduced to 600 mg/d for 1 week in children. Alternative treatments discussed include FODMAP diets and probiotic protocols with best results coming from combining antibiotic and probiotic protocols. It concludes that SIBO in children is heterogenous and poorly understood and that a better diagnostic criteria is necessary in paediatrics.
Abstract
Small intestinal bacterial overgrowth (SIBO) is a heterogenous and poorly understood entity characterised by an excessive growth of select microorganisms within the small intestine. This excessive bacterial biomass, in turn, disrupts host physiology in a myriad of ways, leading to gastrointestinal and non-gastrointestinal symptoms and complications. SIBO is a common cause of non-specific gastrointestinal symptoms in children, such as chronic abdominal pain, abdominal distention, diarrhoea, and flatulence, amongst others. In addition, it has recently been implicated in the pathophysiology of stunting, a disease that affects millions of children worldwide. Risk factors such as acid-suppressive therapies, alterations in gastrointestinal motility and anatomy, as well as impoverished conditions, have been shown to predispose children to SIBO. SIBO can be diagnosed via culture-dependant or culture-independent approaches. SIBO's epidemiology is limited due to the lack of uniformity and consensus of its diagnostic criteria, as well as the paucity of literature available. Antibiotics remain the first-line treatment option for SIBO, although emerging modalities such as probiotics and diet manipulation could also have a role. Herein, we present a state-of-the-art-review which aims to comprehensively outline the most current information on SIBO in children, with particular emphasis on the gut microbiota.
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Does the microbiome and virome contribute to myalgic encephalomyelitis/chronic fatigue syndrome?
Newberry, F, Hsieh, SY, Wileman, T, Carding, SR
Clinical science (London, England : 1979). 2018;132(5):523-542
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Myalgic encephalomyelitis (ME)/chronic fatigue syndrome (CFS) (ME/CFS) is a disabling and debilitating disease. Several studies have shown alterations in the gut microbiome (dysbiosis) in patients with ME/CFS. However, in focusing on the bacterial components of the microbiome, the viral component of the microbiome (known as the virome) has been neglected. Viruses can change the microbiome which can influence the health. This area is therefore important for research into ME/CFS. This article provides a comprehensive review of the current evidence supporting microbiome alterations in ME/CFS patients. Additionally, the challenges associated with microbiome studies are discussed. A literature search was done and 11 papers were found that had examined the microbiome ME/CFS patients, dating from 1998 to 2017. It was not possible to compare the studies statistically but from looking at each one individually there is sufficient evidence to support the claim of an altered intestinal microbiome in ME/CFS patients. ME/CFS is multifactorial and potential dysbiosis should be considered to be only part of the picture. Future studies are needed to adopt standardized techniques and analyses. As research increases, it is becoming clear that the virome can directly and indirectly affect host health, and may play a role in the pathogenesis of ME/CFS.
Abstract
Myalgic encephalomyelitis (ME)/chronic fatigue syndrome (CFS) (ME/CFS) is a disabling and debilitating disease of unknown aetiology. It is a heterogeneous disease characterized by various inflammatory, immune, viral, neurological and endocrine symptoms. Several microbiome studies have described alterations in the bacterial component of the microbiome (dysbiosis) consistent with a possible role in disease development. However, in focusing on the bacterial components of the microbiome, these studies have neglected the viral constituent known as the virome. Viruses, particularly those infecting bacteria (bacteriophages), have the potential to alter the function and structure of the microbiome via gene transfer and host lysis. Viral-induced microbiome changes can directly and indirectly influence host health and disease. The contribution of viruses towards disease pathogenesis is therefore an important area for research in ME/CFS. Recent advancements in sequencing technology and bioinformatics now allow more comprehensive and inclusive investigations of human microbiomes. However, as the number of microbiome studies increases, the need for greater consistency in study design and analysis also increases. Comparisons between different ME/CFS microbiome studies are difficult because of differences in patient selection and diagnosis criteria, sample processing, genome sequencing and downstream bioinformatics analysis. It is therefore important that microbiome studies adopt robust, reproducible and consistent study design to enable more reliable and valid comparisons and conclusions to be made between studies. This article provides a comprehensive review of the current evidence supporting microbiome alterations in ME/CFS patients. Additionally, the pitfalls and challenges associated with microbiome studies are discussed.
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The gut microbiome and irritable bowel syndrome.
Menees, S, Chey, W
F1000Research. 2018;7
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This study is a review of role of gut microbiome plays in the pathophysiology of Irritable bowel syndrome (IBS) sufferers. The author’s main objective was to identify the biomarkers that may lead into diagnosing and choosing best available therapy available from various interventions available for IBS that targets the gut microbiome, such as prebiotics, probiotics, non-absorbable antibiotics, diet and faecal microbial transplant (FMT). The authors concluded that to enable the right treatment for IBS sufferers it would be better to understand what constitutes a healthy gut rather than deciphering what is abnormal.
Abstract
Irritable bowel syndrome (IBS) is one of the most common functional gastrointestinal disorders encountered in clinical practice. It is a heterogeneous disorder with a multifactorial pathogenesis. Recent studies have demonstrated that an imbalance in gut bacterial communities, or "dysbiosis", may be a contributor to the pathophysiology of IBS. There is evidence to suggest that gut dysbiosis may lead to activation of the gut immune system with downstream effects on a variety of other factors of potential relevance to the pathophysiology of IBS. This review will highlight the data addressing the emerging role of the gut microbiome in the pathogenesis of IBS and review the evidence for current and future microbiome based treatments.
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Functional interactions between the gut microbiota and host metabolism.
Tremaroli, V, Bäckhed, F
Nature. 2012;489(7415):242-9
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This literature review aims to discuss evidence for the role of the gut microbiota in metabolism and possible links to obesity. Obesity and caloric intake can influence the microbiota, but whether the reverse is true in humans remains unclear. Much of the mechanisms have been determined in rodents, determining similar pathways in humans is difficult. The interplay of diet, host and gut microbiota may cause increased gut permeability (leaky gut) that could lead to an increase in inflammation that may cause obesity, fatty liver disease and insulin resistance. It is increasingly accepted that gut microbiota can contribute to diseases such as obesity, diabetes and cardiovascular disease, but exactly how and by how much remains unclear. Evidence for treating the microbiota to help with these metabolic diseases, either by pre- or probiotic supplementation, is building. However, double-blind, placebo-controlled studies are required to determine effects. The influence of the gut microbiota is a promising area, but one that needs further research.
Abstract
The link between the microbes in the human gut and the development of obesity, cardiovascular disease and metabolic syndromes, such as type 2 diabetes, is becoming clearer. However, because of the complexity of the microbial community, the functional connections are less well understood. Studies in both mice and humans are helping to show what effect the gut microbiota has on host metabolism by improving energy yield from food and modulating dietary or the host-derived compounds that alter host metabolic pathways. Through increased knowledge of the mechanisms involved in the interactions between the microbiota and its host, we will be in a better position to develop treatments for metabolic disease.