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Celiac Disease, Beyond the Bowel: A Review of Its Neurological Manifestations.
Patel, SC, Shreya, D, Zamora, DI, Patel, GS, Grossmann, I, Rodriguez, K, Soni, M, Joshi, PK, Sange, I
Cureus. 2021;13(12):e20112
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Coeliac disease (CD) is an autoimmune condition in which genetically predisposed individuals develop an immunologic reaction to ingested gluten, a protein found in barley, wheat, and rye, destroying the intestinal villi. The aims of this review are to: (i) underline the pathogenic mechanism of the involvement of CD and its neurological manifestations; (ii) establish a clinical relationship between CD and its neurological manifestations; (iii) explore the existing screening and upcoming management guidelines of CD. This review shows that: - the most common neurological manifestations of CD include gluten ataxia, gluten neuropathy, and epilepsy. These conditions are strongly associated with a lower quality of life and a higher rate of hospitalisation. - neurological features of CD should be kept in mind in order to raise an adequate amount of clinical suspicion to perform screening for gluten sensitivity with the aim of reducing the time it takes for diagnosis, and thus patient suffering is kept to a minimum. Authors conclude that further thorough studies about neurological manifestations of CD are needed so that alternative treatment modalities are offered to provide a more holistic treatment approach to a patient with CD.
Abstract
Celiac disease (CD) is a multi-systemic autoimmune condition that causes a hyperinflammatory response when gluten is ingested. There has been a shift in the clinical presentation of CD from a mere malabsorption disorder to an autoimmune condition that affects multiple organ systems, which could increase the rate of hospitalizations and a decreased quality of life. This article has compiled various studies that have explored the neurological manifestations of celiac disease, their epidemiology, possible pathogenic mechanisms, diagnosis, and treatment. The most common neurological conditions include gluten ataxia (GA), gluten neuropathy, gluten encephalopathy, and epilepsy which usually present as sporadic diseases which are difficult to diagnose in the absence of gastrointestinal (GI) symptoms. The treatment for most of these conditions is a gluten-free diet (GFD) regardless of GI involvement.
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British Obesity and Metabolic Surgery Society Guidelines on perioperative and postoperative biochemical monitoring and micronutrient replacement for patients undergoing bariatric surgery-2020 update.
O'Kane, M, Parretti, HM, Pinkney, J, Welbourn, R, Hughes, CA, Mok, J, Walker, N, Thomas, D, Devin, J, Coulman, KD, et al
Obesity reviews : an official journal of the International Association for the Study of Obesity. 2020;21(11):e13087
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All bariatric surgery procedures impact on nutrition to varying degrees and can potentially cause clinically significant deficiencies of micronutrients. The British Obesity and Metabolic Surgery Society (BOMSS) published its first nutritional guidelines in 2014. In fact, the aim of this document is to systematically review the current evidence for preoperative and postoperative biochemical monitoring and micronutrient replacement for adolescents and adults undergoing bariatric surgery, and to update the recommendations for safe practice in the U.K. setting. One hundred and thirty-nine papers were included in the review. Results show that following surgery, the risk of nutritional deficiencies increases because of the impact of bariatric surgery on both oral intake and absorption. Thus, preoperative care should include: - a comprehensive nutritional assessment prior to bariatric surgery, - a clinically investigative and corrective approach of nutritional deficiencies before surgery, - preparatory support and education by a dietitian, and - guidance on following a low calorie/low carbohydrate diet. Whereas, postoperative care should include access to lifelong monitoring following bariatric surgery to ensure that nutritional requirements are met, and risks of developing post-bariatric surgery related nutritional deficiencies are reduced. Authors conclude that these guidelines have the potential to improve clinical practice and safety for people undergoing bariatric surgery and should be considered for adoption by healthcare organizations.
Abstract
Bariatric surgery is recognized as the most clinically and cost-effective treatment for people with severe and complex obesity. Many people presenting for surgery have pre-existing low vitamin and mineral concentrations. The incidence of these may increase after bariatric surgery as all procedures potentially cause clinically significant micronutrient deficiencies. Therefore, preparation for surgery and long-term nutritional monitoring and follow-up are essential components of bariatric surgical care. These guidelines update the 2014 British Obesity and Metabolic Surgery Society nutritional guidelines. Since the 2014 guidelines, the working group has been expanded to include healthcare professionals working in specialist and non-specialist care as well as patient representatives. In addition, in these updated guidelines, the current evidence has been systematically reviewed for adults and adolescents undergoing the following procedures: adjustable gastric band, sleeve gastrectomy, Roux-en-Y gastric bypass and biliopancreatic diversion/duodenal switch. Using methods based on Scottish Intercollegiate Guidelines Network methodology, the levels of evidence and recommendations have been graded. These guidelines are comprehensive, encompassing preoperative and postoperative biochemical monitoring, vitamin and mineral supplementation and correction of nutrition deficiencies before, and following bariatric surgery, and make recommendations for safe clinical practice in the U.K. setting.