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Query: UMLS:C0020505 (hyperphagia)
6,116 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Short-bowel syndrome is a state of severe malabsorption secondary to extensive bowel resection. The most common reasons for extensive bowel resection are Crohn's disease and mesenteric infarction. The pathophysiological consequences depend on extent and site of resection, integrity and adaptation of the remaining bowel, and secondary effects on other organs. Most extensively bowel resected patients can be adequately nourished by mouth, especially since they develop compensatory hyperphagia. For patients with colon in function a high-carbohydrate low-fat diet is beneficial compared to a diet with a normal fat content, because it results in decreased diarrhoea, decreased faecal mineral losses, and increased energy assimilation. The relative amount of dietary fat does not influence stool mass or energy assimilation in jejunostomy patients. Patients with jejunostomy have a high faecal output of water, sodium, and divalent cations, and they often need permanent parenteral supply of saline as well as calcium and magnesium if their small intestinal remnant is < 200 cm and parenteral nutritional support if they retain < 100 cm small bowel. In contrast, 50 cm of the jejunum often suffices for adequate oral nutrition if most of the colon is preserved. The majority of patients needing long-term intravenous supply are trained to administer parenteral nutrition at home (HPN). Most patients on HPN obtain a good or fair quality of life with hospital readmissions corresponding to an average of 10% of the HPN duration and an overall HPN related mortality of about 4%.
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PMID:Nutrition in short-bowel syndrome. 872 85

Despite recent advances in antibiotic therapy, aggressive operative intervention and intravenous hyperalimentation, sepsis, and multiple organ failure are still reported to contribute to significant morbidity and mortality in the surgical intensive care unit. In light of this, it is essential to determine the mechanism underlying the pathophysiology of sepsis so that better therapeutic interventions can be designed. Experimental studies indicate that murine polymicrobial sepsis induces a marked suppression in both lymphocytic and macrophage function associated with decreased cellular adenosine triphosphate levels and increased Ca2+. However, such changes are not detectable until approximately 12 h after the onset of sepsis. Alternatively, early (0-4 h) in sepsis, macrophages from the liver and peritoneum exhibit augmented innate secretion of proinflammatory cytokines, tumor necrosis factor, interleukin (IL)-6, and IL-1, associated with the systemic release of these agents. Sustained release of immunosuppressive agents transforming growth factor-beta, IL-4, IL-10, and PGE2, as well as glucocorticoids, are also observed during sepsis. In this regard, many investigators, including us, have suggested that an agent(s) released as a part of this systemic inflammatory response to sepsis may be responsible for the protracted suppression of immune cell function. Studies examining the effects of these mediators in vitro on various immune cells have shown that many of these agents also have the capacity to induce a process referred to as programmed cell death (PCD) or apoptosis (Ao). We have presented evidence of marked changes in the rate of Ao in immune cells after the onset of sepsis. These data suggest the possibility that mediators released in response to septic insult contribute to the observed changes in immune cell function through the induction of Ao. Inasmuch, understanding the contribution of PCD to the pathophysiology of sepsis, should provide a better basis from which to develop more effective therapy for the septic patient.
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PMID:Immune dysfunction in murine polymicrobial sepsis: mediators, macrophages, lymphocytes and apoptosis. 882 95

Calcium antagonists have been reported to alter insulin secretion and insulin sensitivity. However, there still exists a controversy over the benefits of calcium antagonists in the conditions when diabetes mellitus and hypertension coexist. In the present study the effects of six-week chronic amlodipine treatment (5 mg kg-1 p.o.) on insulin sensitivity and serum lipid levels in streptozotocin (STZ)-diabetic and spontaneously hypertensive (SH) rats were investigated. Intravenous injection of STZ produced glucosuria (> 2%). hyperglycaemia, hypoinsulinemia, polydipsia, polyphagia, loss of body weight, hypercholesterolemia, hypertriglyceridaemia, hypertension and bradycardia. SH rats were found to have significantly higher insulin levels compared to their Wistar controls. Treatment of rats with amlodipine in diabetic and diabetic-hypertensive animals significantly prevented STZ-induced loss of body weight, hypertension and bradycardia. It also significantly prevented STZ-induced hyperglycaemia in both STZ-diabetic Wistar and SH rats. The insulin levels were decreased in the non-diabetic treated Wistar rats but were unaltered in the non-diabetic SH and the diabetic Wistar and SH rats. There was a significant reduction in cholesterol levels in diabetic Wistar and SH rats. In conclusion the present study revealed beneficial effects of amlodipine treatment in hyperinsulinemic, diabetic and/or hypertensive rats.
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PMID:Effects of chronic treatment with amlodipine in streptozotocin-diabetic and spontaneously hypertensive rats. 929 5

The cloning of mouse obesity genes and their human homologues provides unique opportunities to identify novel cellular targets for therapeutic intervention. The first of these to be cloned, agouti, antagonizes central nervous system melanocortin receptor (MCR) binding, resulting in hyperphagia and an obesity/hyperinsulinemia syndrome. There appears to be significant cross-talk between the agouti and leptin signaling systems. Agouti antagonism of central nervous system (CNS) MCR binding inhibits the anorexic effects of leptin, whereas agouti up-regulates adipocyte leptin expression, serving to limit the magnitude of agouti-induced obesity. The effects of agouti and leptin mutations on obesity, however, are independent and additive. Agouti also regulates adipocyte lipid metabolism, functioning both to increase the expression and activity of lipogenic genes and to inhibit lipolysis. Both of these actions occur via a Ca(2+)-dependent mechanism, suggesting that modulation of adipocyte Ca2+ transport may be a key target for further investigation.
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PMID:Agouti/melanocortin interactions with leptin pathways in obesity. 976 77

We report a case of systemic sclerosis (SSc) complicated with benign pneumoperitoneum without apparent pneumatosis cystoides intestinalis (PCI). A 43-year-old woman was admitted to our hospital because of prominent abdominal distension in April 1997. Raynaud's phenomenon has been detected since 1991. She was suffering from recurrent diarrhea, constipation, and subileus. The diagnosis of SSc was made in 1996 based on the sclerosis in her face, forearms, and chest, and hypomotility of the esophagus. On admission, she presented no signs of peritoneal irritation. The laboratory data revealed that white blood cell count was 7,400/mm3 and C-reactive protein was 0.1 mg/dl. Chest and abdominal roentgenograms showed massive free air under the diaphragm, dilatation of small and large intestine, and air-fluid level. PCI was not apparent. Pneumoperitoneum was improved after four weeks with intravenous hyperalimentation. But she presented recurrent severe diarrhea and high fever whenever she tried to take food orally. Klebsiella pneumoniae was proved in her jejunal juice by bacteriologic examination. Intravenous prostaglandin F2 alpha and oral fosfomycin calcium intake made her condition better. Benign pneumoperitoneum without PCI is rarely reported in the patients with SSc. In her condition, weakness of intestinal wall, hypomotility of intestine, unusual bacterial overgrowth, and elevated intraluminal pressure made intraluminal gas go through the wall of the fragile intestine of SSc. As operation of intestine of SSc usually cause miserable outcome, pneumoperitoneum accompanied with SSc even if PCI is apparent or not must be treated with conventional manner while there is no signs of peritoneal irritation.
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PMID:[Pneumoperitoneum with systemic sclerosis]. 1004 21

The proponents of fat-restricted diets for children argue that low-fat diets given in childhood will prevent the development of atherosclerosis in adulthood, low-fat diets given a childhood will condition children to prefer low-fat diets in adulthood, and low-fat diets for children are safe. There is no evidence that low-fat diets in childhood will prevent atherosclerosis in adulthood. In fact, studies of migrating populations indicate that immigrants to the United States from Third World countries who consumed low-fat diets in childhood take on the character of their new environments, including higher serum cholesterol levels and more coronary disease. The prevalence of fatty streaks in childhood bears little relationship to the prevalence of atheromatous plaques in adulthood. In fact, girls have more aortic fatty streaks and higher serum cholesterol values in childhood than boys, but fewer plaques in adulthood and less coronary disease. From the PDAY study, it has also been learned that hypercholesterolemia in childhood enhances fatty streak formation, but not that of plaques. It now seems established from autopsy studies that the progression of atherosclerosis from fatty streaks to plaque is arrested in childhood and does not begin to a significant extent until after puberty in males and after menopause in females. So the oft-repeated statement that atherosclerosis begins in childhood is semantically true but very misleading. The particularly harmful form of atherosclerosis (the plaque) does not become significant until much beyond puberty. The effects of low-fat, low-cholesterol diets on serum lipids and lipoproteins are of a lesser magnitude in children than in adults. The 0.78 mmol/L decrease in LDL cholesterol in the intervention group from controls (change 1.5%) in the DISC study was biologically insignificant and reflects the tighter control of lipoprotein and cholesterol synthesis in children compared with adults. It must be remembered that the human body synthesizes all of the cholesterol it needs from acetyl CoA. In general, the larger the amount of dietary cholesterol absorbed, the smaller the rate of biosynthesis of cholesterol. In some adults and most children this homeostatic control is nearly perfect, but in many adults the correction in biosynthesis of cholesterol with increased dietary input is imperfect and LDL cholesterol values increase. The second argument of the proponents of low-fat diets for children is that they are conditioned to continue low-fat diets in adulthood. From the studies of Birch and Fisher (51) this prediction seems unlikely. These investigators found that restricting access to palatable foods enhanced the interest of 3- to 5-year-old children in those foods and increased their desire to obtain and consume those foods. They concluded that "stringent parental controls can potentiate preference for high-fat energy-dense foods, limit children's acceptance of a variety of foods and disrupt children's regulation of energy intake." Brosin (52) has also observed that food restriction in childhood may lead to gluttony in adulthood. Finally, the claim that low-fat diets are safe in childhood is based on observations over too short a time to establish safety. It is true that growth and development of children studied in the DISC study was not changed from the expected increments, but that is not proof of long-term safety. In addition, the lower content of essential nutrients in low-fat, low-cholesterol diets (calcium, zinc, magnesium, phosphorus, vitamin E, vitamin B-12, thiamin, niacin, and riboflavin) must be considered along-term risk (53,54). Furthermore, the published studies of the safety of low-fat diets have been conducted under intensive surveillance in medical centers, conditions very different from those in the homes of free-living families.
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PMID:Is it wise to restrict fat in the diets of children? 1064 98

The data reviewed in this paper indicate that there is compelling direct and indirect evidence that certain dietary modifications can limit the risk for stone formation. Fluid therapy should be a front-line approach for all stone formers, because it is safe, cheap, and effective. Restricting sodium and animal-protein consumption produces changes in the urinary environment that should benefit the majority of stone formers, including a decrease in calcium and increase in citrate excretion. Minimizing the intake of processed goods limits sodium gluttony. These dietary modifications also reduce cardiovascular risks. Indiscriminant calcium restriction should be avoided, because it could accelerate stone formation and violate skeletal integrity. Oxalate restriction should be considered for calcium oxalate stone formers, especially those with hyperoxaluria. Specific recommendations for modifying the consumption of other nutrients cannot be made at this time because of the limited available information about the resultant effects. The aforementioned goals can be achieved within the context of a nutritionally balanced diet providing adequate sources of fruits and vegetables. There is a definite need for better designed studies of the nutritional effects on stone disease. This would promote a better understanding of the interplay between the genetic and environmental components of this disorder.
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PMID:Role of diet in the therapy of urolithiasis. 1077 68

It is remarkable that neurons are able to survive and function for a century or more in many persons that age successfully. A better understanding of the molecular signaling mechanisms that permit such cell survival and synaptic plasticity may therefore lead to the development of new preventative and therapeutic strategies for age-related neurodegenerative disorders. We all know that overeating and lack of exercise are risk factors for many different age-related diseases including cardiovascular disease, diabetes and cancers. Our recent studies have shown that dietary restriction (reduced calorie intake) can increase the resistance of neurons in the brain to dysfunction and death in experimental models of Alzheimer's disease, Parkinson's disease, Huntington's disease and stroke. The mechanism underlying the beneficial effects of dietary restriction involves stimulation of the expression of 'stress proteins' and neurotrophic factors. The neurotrophic factors induced by dietary restriction may protect neurons by inducing the production of proteins that suppress oxyradical production, stabilize cellular calcium homeostasis and inhibit apoptotic biochemical cascades. Interestingly, dietary restriction also increases numbers of newly-generated neural cells in the adult brain suggesting that this dietary manipulation can increase the brain's capacity for plasticity and self-repair. Work in other laboratories suggests that physical and intellectual activity can similarly increase neurotrophic factor production and neurogenesis. Collectively, the available data suggest the that dietary restriction, and physical and mental activity, may reduce both the incidence and severity of neurodegenerative disorders in humans. A better understanding of the cellular and molecular mechanisms underlying these effects of diet and behavior on the brain is also leading to novel therapeutic agents that mimick the beneficial effects of dietary restriction and exercise.
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PMID:Neuroprotective signaling and the aging brain: take away my food and let me run. 1111 86

Mutations in the melanocortin 4 receptor gene (MC4R) are the most common cause of monogenic human obesity. As part of our ongoing project entitled 'Turkish Obesity Genome Study' we determined the nucleotide sequence of the entire coding region of the MC4R gene in 40 morbidly obese subjects from independent families. Here we report a novel heterozygous mutation (N274S) in an adult female obese individual (age: 52 yrs, BMI 41.7 kg/m(2), height 158 cm, weight: 104 Kg). The sister of the index case (age: 55 yrs, height: 160 cm, weight: 110 Kg, BMI: 43 kg/m(2)) also carries the same mutation. Although both sisters were morbidly obese and hypertensive the index case had normal plasma insulin and fasting blood glucose levels whereas her sister had type 2 diabetes mellitus. No abnormalities of the reproductive function were present. Despite marked hyperphagia in childhood both sisters had a history of relatively diminished intensity of appetite after the age of 20. Of notice, index case was diagnosed to have cyclothymia whereas her sister was being treated for bipolar affective disorder. Detailed clinical evaluation revealed normal bone mineral density and serum calcium parameters as well as intact thyroid axis and hypothalamus-pituitary-adrenal axis in both patients. The human MC4-R deficient phenotype resembles the murine deficient state with regard to preserved reproductive function although hyperphagia, increased linear growth and absence of diabetes in mice are not observed in humans. Affected individuals have hyperphagia in childhood, which looses intensity later in life, and they also present with normal height and diabetes mellitus. Accumulating evidence indicate that melanocortin endocrine system or defective melanocortin signaling has inherently different characteristics in mice and humans resembling the variation observed with regard to leptin deficiency in both species.
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PMID:A novel melanocortin 4 receptor (MC4R) gene mutation associated with morbid obesity. 1144 23

A 9-year-old, spayed female domestic shorthair cat presented for polyphagia, polydipsia, and polyuria following chronic methylprednisolone acetate therapy for pruritus. Initial diagnostics were consistent with uncomplicated diabetes mellitus. Serum calcium was within reference range. Within 12 hours the cat developed depression, anorexia, vomiting, and severe dehydration. Laboratory analysis indicated marked hypercalcemia as measured by both ionized and total calcium concentration. No underlying neoplastic or inflammatory process was identified. An adrenocorticotropic hormone stimulation test was indicative of adrenocortical insufficiency. The hypercalcemia resolved with glucocorticoid supplementation and correction of the dehydration. The diabetes mellitus and adrenal insufficiency both resolved within 9 weeks.
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PMID:Hypercalcemia due to latrogenic secondary hypoadrenocorticism and diabetes mellitus in a cat. 1180 13

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