Malnutrition continues to threaten the lives of millions across the world, with children being hardest hit. Although inadequate access to food and infectious disease are the primary causes of childhood malnutrition, the gut microbiota may also contribute. This review considers the evidence on the role of diet in modifying the gut microbiota, and how the microbiota impacts childhood malnutrition. It is widely understood that the gut microbiota of children is influenced by diet, which, in turn, can impact child nutritional status. Additionally, diarrhoea, a major contributor to malnutrition, is induced by pathogenic elements of the gut microbiota. Diarrhoea leads to malabsorption of essential nutrients and reduced energy availability resulting in weight loss, which can lead to malnutrition. Alterations in gut microbiota of severe acute malnourished (SAM) children include increased Proteobacteria and decreased Bacteroides levels. Additionally, the gut microbiota of SAM children exhibits lower relative diversity compared with healthy children. Thus, the data indicate a link between gut microbiota and malnutrition in children, suggesting that treatment of childhood malnutrition should include measures that support a healthy gut microbiota. This could be of particular relevance in sub-Saharan Africa and Asia where prevalence of malnutrition remains a major threat to the lives of millions.
Pakistan has hosted millions of Afghan refugees over the last several decades. Due to poor socioeconomic status, food insecurity and inadequate access to health care, these refugees are considered to be at high risk of malnutrition. Previous studies on nutritional assessment of high-risk populations (refugees) have focused mainly on women and children (0–59 months). The current study aims to assess nutritional status of adolescent Afghan refugees; the population who are equally vulnerable to malnutrition and its consequences. In this cross sectional study, the nutritional status of 206 adolescent (10–19 years old) Afghans boys and girls living in a refugee camp in Peshawar, Pakistan was assessed using standard methods. The results indicate a prevalence of stunting, thinness, and overweight and obesity at 35.3%, 4.4% and 14.8%, respectively. Furthermore, there was a significantly high prevalence of micronutrient deficiencies (vitamin D, 80.5%; vitamin B12, 41.9%; and folate, 28.2%); and anemia (10.1%). Together, these findings indicate that this vulnerable population group suffers from the double burden of malnutrition and are thus at serious risk of impaired psychosocial cognitive development, general ill-health and diminished wellbeing. This study therefore highlights the urgent need to include adolescents in regular screening and intervention programs of such at-risk populations.
Purpose – The purpose of this paper was to synthesis all primary evidence relevant to the anti-diabetic effect of dandelion. Dandelion leaf and root have been used extensively for its medicinal and health benefits since hundreds of years ago. This systematic review was conducted to gather scientific evidence that are available with regards to the anti-diabetic effect of dandelion leaf and root. Design/methodology/approach – A systematic search was conducted using PubMed, BioMed, PLUSONE and Cochrane databases between June 6, 2013 and June 30, 2013. Manual search was also done on books and journals in the KNUST library and its electronic database for possible documented effects of dandelion leaf or root on diabetic patients. Key words “dandelion”, “Taraxacum”, “dandelion and diabetes”, “Taraxacum officinale”, “Taraxacum and diabetes”, “dandelion and hypoglycemia” and “dandelion and hyperglycemia” were used in the search. Findings – The search yielded 713 papers, and after the removal of duplicates and papers not relevant to this review, 20 papers were accepted for the review. These included studies conducted in humans and animals (rats and mice). Among the 20 studies reviewed, only 1 study examined and reported a positive hypoglycemic effect of dandelion on diabetic rats. Research limitations/implications – The review only considered published papers and might have left out some unpublished research works. Practical implications – The results of this review suggest paucity of data available on the use of dandelion in the treatment/management of diabetes. There is the need for well-designed clinical trials to ascertain the anti-diabetic effect of dandelion. Social implications – The consumption of dandelion by type 2 diabetic patients to treat or manage their blood glucose has not been clinically proven to be effective, as shown by the review. Originality/value – The paper provides a clear picture of the evidence available in the use of dandelion as an anti-diabetic herb, and this provides some preliminary data for the conduct of a clinical research on it.
The management of diabetes is crucial since that is the only option for this chronic non-communicable disease. The administration of medicinal drugs for the management of diabetes is critical. It is however important to note that some plants have components that confer anti-diabetic properties and may be of use especially in developing countries where there is limited access to healthcare. The aim of this review is to review studies that involved plants with anti-diabetic effects. Such plants as tea, mushroom, broccoli, garlic, moringa, ginseng, guava, onion, tiger nut, bush mango, okra, dates, bitter melon, dandelion, water melon, and pumpkins may reduce diabetes risks, or even lower blood sugar in diabetes patients (notably type 2 diabetes). Phytoremediation via plant foods should not be underestimated in the management of diabetes.
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