Vitamin D Halves Asthma Hospitalisation Risk
There seems no end to the illnesses this secasteroid is capable of influencing, although it should be of no real surprise that Vit D deficiency is linked to the respiratory condition asthma. The reason….mucosal tissues such as those found in the lung are rich with immune receptors that are intimately tied into the Vit D receptor family. Vitamin D up regulates a specific gene that produces over 200 anti-microbial peptides, some of which work like a broad-spectrum antibiotic.
Because of its beneficial role in respiratory tract infections and immune system modulation, it has been hypothesised that vitamin D status might affect the risks for exacerbations.[1] This paper shows show that children with initial circulating vitamin D levels of 30 ng/mL or less (vitamin D insufficiency) have a 50% greater risk for severe exacerbation over the course of a 4-year clinical trial of asthma treatment than children with circulating vitamin D levels of 30 ng/mL or greater (vitamin D sufficiency) at the start of the trial.
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A Bacteria Triggers Arthritis.
The gut microbiomes of humans and mice are broadly similar which is helpful as this paper has used the mouse model to explain how a resident bacteria in the gut can induce arthritis. In both hosts human and mouse upwards of ∼1000 different microbial species from ∼10 different divisions colonise the gastrointestinal tract, but just two bacterial divisions—the Bacteroidetes and Firmicutes—and one member of the Archaea appear to dominate, together accounting for ∼98% of the 16S rRNA sequences obtained from this site.[1] 16SrRNA is a laboratory method for analysing bacterial and provides species-specific signature sequences useful for bacterial identification but is not routinely used in diagnostic settings yet.
Their analysis revealed that despite the enormous species variation in the gut a single species of bacteria that lives here is able to trigger a cascade of immune responses that can ultimately result in the development of arthritis.[2] Gut-residing bacteria can also play a role in disorders of the immune system, especially autoimmune disorders in which the body attacks its own cells. The gut microbiota is now known to shape intestinal immune responses during health and disease with systemic effects.
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What Do Bacteria Do To Our Immune System?
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The germ theory that has so modernised medicine and driven us, the western world living human to regard all bugs as bad has been undergoing a dramatic rethink over the last few years. Firstly the recognition that your body is teeming with bacteria, providing a warm residence to approximately 10 times as many bacterial cells as human cells. Our mutual inhabitants live on skin, in the respiratory tract and throughout the digestive tract. Your digestive tract alone is home to between 1,000 and 40,000 bacterial species depending on your choice of journal.
Sun or Supplements – The Vit D Controversy
Vitamin D is increasingly understood to be an essential component of many aspects of human health and although technically not a “vitamin,” vitamin D is in a class by itself. Its metabolic product, calcitriol, is actually a secosteroid (A compound derived from a steroid in which there has been a ring cleavage) hormone that binds to over 2000 gene receptors (about 10% of the human genome) in the human body. There are 3 recognised ways for adults to ensure adequate levels of vitamin D:
These are:
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Butyrate Improves Bowel Transit
Problems such as poor transit or constipation are common, and can produce significant misery for the individual compromised in this manner. Butyrate is a short chain fatty acid, manufactured in the gut by the anaerobic fermentation of dietary fibres by resident microbiota. It is proposed that apart from its already well understood properties that it has another remarkable effect – the ability to increase the neuronal concentration of the Enteric Nervous System.[1]
Butyrate-generating foods and supplements might become an effective and simple option to prevent or treat functional gut disorders via modulation of enteric neuroplasticity.
Can Bacteria Make You Smarter?
The potential cognitive gains linked to the role of gastrointestinal bacteria continues to attract international interest. The scientific community are becoming entranced with the notion that our bacterial exposure affects not only the local tissues, but also others including the brain.
Exposure to specific bacteria in the environment, already believed to have antidepressant qualities, could increase learning behaviour. Mice fed live cultures of Mycobacterium vaccae were able to learn and complete a maze twice as fast as control mice were the key comments delivered at the 110th General Meeting of the American Society for Microbiology last week.
Mycobacterium vaccae is a natural soil bacterium which people likely ingest or breath in when they spend time in nature,” says Dorothy Matthews of The Sage Colleges in Troy, New York, who conducted the research with her colleague Susan Jenks.
Leaky Gut & Food Reactivity – What’s the Mechanism?
Michael Ash looks at leaky gut with a contemporary approach to investigation, relevance and restoration. It is quite clear that in order to extract nutrients and other sentinel information carrying agents the barrier that divides the contents of the gastric lumen from the host must be permeable. The question that has interested clinicians for many years is – when is it too permeable and what does that mean in terms of health and illness.
A paper in the March edition of Mucosal Immunology explores this concept in some detail and delivers some much needed information and potential direction in terms of dietary management and risk.[1]
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What is the Best Test for Coeliac Diagnosis?
Coeliac disease is regarded as a common disorder, yet many clinicians miss the cardinal signs that indicate further investigation is warranted. Coeliac disease is becoming an increasingly recognised autoimmune enteropathy caused by a permanent intolerance to gluten. Once thought to be a rare disease of childhood characterised by diarrhoea, coeliac disease is actually a multisystemic disorder that occurs as a result of an immune response to ingested gluten in genetically predisposed individuals and includes non gastrointestinal symptoms such as depression.
So how can practitioners decide if their patient has wheat intolerance or is requiring strict gluten avoidance to reduce the risk of linked diseases.
A paper out in the Journal of The American Medical Association on May the 5th looks at a variety of papers published since 1947 until 2009 to determine the evolution of investigative tests and to see which was most accurate. Two principle mechanisms for valid confirmation were identified.[1]
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Could a ‘Bacterial Thali’ Resolve Inflammation? – A Novel Strategy
Michael Ash BSc(Hons) DO, ND, DipION reviews the possibility that strategically selected foods and food concentrates represent a valid therapy for inflammatory illnesses.
There is substantive interest in the potential translation from bench to bedside of simple safe strategies to modify the adverse effects of inflammation. Approaching from a preventative and restorative angle the numbers of papers being published on the role of orally ingested bacteria (probiotics) and in this article – the herb Tumeric (active ingredient of which is curcumin) is presenting increasingly supportive evidence for their reasonable and safe clinical use.
Modern analytical techniques are helping to reveal novel opportunities for inflammation control in the gut and the systemic tissues in new ways that even a few years ago would have been thought of as very alternative!
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Antibiotics Can Cause Gut Related Diseases
Michael Ash BSc (Hons), DO, ND FDipION reviews the current understanding of the role of antibiotics in the initiation of gut associated inflammation and local and systemic health problems, and briefly explores some strategies to prevent and manage this.
What is perhaps the greatest medicinal discovery in the last 100 years has a sting in its tail, the tremendous success in managing bacterial infection has encouraged over and inappropriate use of antibiotics, the problems of which have been well documented. This review explores the developing comprehension that even a single day of antibiotic use has consequences that may produce transient and long term effects that compromise the health and well being of the patient and their bacterial co-habitants.
Sir Alexander Fleming discovered the antibiotic substance penicillin in 1928 and was awarded a co share in the Nobel Prize in Medicine in 1945.
It was a discovery that would change the course of history. The active ingredient in that mould, which Fleming named penicillin, turned out to be an infection-fighting agent of enormous potency. When it was finally recognised for what it was—the most efficacious life-saving drug in the world—penicillin would alter forever the treatment of bacterial infections. By the middle of the century, Fleming’s discovery had spawned a huge pharmaceutical industry, churning out synthetic penicillin’s that would conquer some of mankind’s most ancient scourges, including syphilis, gangrene and tuberculosis. (Time Magazine April 1999)
However, as the combined benefits of decent engineering for sanitation, prevention via vaccination and bacterial infection control through antibiotics have contributed to life extension, they have also produced microbe and human disturbances. The incidence of immune mediated disorders is continuing to increase and the gastrointestinal tract is continuing to gain traction as a site of significant origination.[1],[2]
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