Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0162275 (ketonuria)
553 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acetoacetic acid is oxidized independent of carnitine transport into the cell mitochondria and its monoglyceride is a water soluble compound. The latter was examined as an intravenous nutrient. The monoglyceride of acetoacetic acid was prepared from the acid anhydride, diketene, and glycerol and was found to be totally miscible with water. The nutritional properties of monoacetoacetin were investigated by continuous intravenous infusion of 25 or 50 g/kg body weight per day into ad libitum fed rats. The response of these animals was compared to normal and food restricted rats. All experimental animals survived the 7 day study period in good health and were free of detectable physiological and behavioral abnormalities. The test rats demonstrated weight gain dependent on the infusion rate while on an inadequate spontaneous oral food intake diet. Ketonuria, hyperketonemia and monoglyceride excretion in the urine accompanied the infusion of monoacetoacetin and were dependent on the infusion load. At 50 g/kg per day total plasma ketones were found to be comparable with the infusion load. At 50 g/kg per day total plasma ketones were found to be comparable with the maximum level obtained in fasted rats, but the acetoacetate concentration was relatively higher than in fasting. This was consistant with ketosis derived from the hydrolysis of the monoglyceride. It was concluded from these results that monoacetoacetin might be an asset for intravenous nutrition.
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PMID:Intravenous feeding of the rat with short chain fatty acid esters. II. Monoacetoacetin. 41 93

Fifty-five soldiers have been observed over a vigorous 10-day sledging patrol in the Canadian arctic and subarctic. Initial observations showed a low level of physical fitness (26% body fat, aerobic power 41.9 +/- 7.8 ml kg-1 min-1, handgrip force 43.7 +/- 7.2 kg). Over 2-week northern sojourn, energy expenditures as measured by a Kofranyi-Michaelis respirometer and diary observation averaged 3248 kcal (13.6 MJ) day-1, with a small (152 kcal (633 kJ)) positive daily energy balance. A weight loss of 1 kg, presumably water, was made good within 1 week of return to the south. A fat loss of some 3.9 kg was probably attributable largely to the demands of lean tissue synthesis. The lean mass was increased by 3.9 kg over the trial, with parallel gains of muscle force and aerobic power. The rapid mobilization of depot fat led to marked ketonuria.
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PMID:Loss of body fat during an arctic winter expedition. 59 74

Hepatic fatty infiltration complicating jejunoileal bypass can be massive and may require restoration of gastrointestinal continuity. This fatty infiltration appears to be caused by protein depletion associated with adequate or high carbohydrate intake. The present study has shown that calorie-free amino acid alimentation can reverse these changes. In three of thirteen patients who underwent 12 inch to 6 inch jejunoileal bypass procedures, symptomatic hepatomegaly developed with near total replacement of hepatocytes by massive fatty infiltration. After undergoing liver scan, liver biopsy, and liver function tests, the patients were started on a peripheral infusion of 2L per day of a 4.25 per cent crystalline amino acid solution, allowing for fat mobilization while preserving body protein stores. All oral intake was withheld except for water. At the end of a fourteen to twenty-one day infusion period, serum albumin levels increased by 1 gm in all patients. Decreases in liver volume of 83, 45, and 40 per cent occurred. During the infusion period ketonuria was 4 plus in all patients indicating active lipolysis. Weight loss was impressive (17, 19, and 40 pounds). All patients showed marked symptomatic improvement, and postinfusion liver biopsy specimens showed a return to near normal architecture. Maintenance of normal liver size by a high-protein, low-carbohydrate diet was observed in a five to seven month follow-up period. In contrast to previous studies using standard hyperalimentation solutions, the use of calorie-free amino acid solutions reverses the hepatic fatty infiltration seen after intestinal bypass by mobilization of fat. This fat mobilization does not occur as readily in the presence of large amounts of glucose.
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PMID:Reversal of severe fatty hepatic infiltration after intestinal bypass for morbid obesity by calorie-free amino acid infusion. 80 74

Very fat people die earlier than people of normal weight because hypertension, diabetes and coronary disease are more frequent among the markedly obese. Most obese subjects, however, are only slightly overweight and their mortality is not elevated. Reasons for dieting are more often psychological than somatic. 2. Reducing diets are ineffective because the obese rarely follow them. Total fasting and intestinal bypass may provide better results, but are more dangerous. 3. Atkins' diet eliminates carbohydrates from food without restricting protein and fat intake. Deprived of carbohydrates, the body uses fat for fuel. A small part of metabolized fat is eliminated in the urine as ketone bodies, and this is why such diets are called "ketogenic". They have been known at least since 1863. 4. Caloric loss due to ketonuria does not exceed 100 Cal/day in the non-diabetic. It is maximal during total fasting and cannot be increased by a ketogenic diet. 5. In the short run, such diets produce rapid weight loss due to polyuria. On the other hand, refeeding carbohydrates causes water retention and weight gain. 6. The diet decreases appetite: patients eat less without feeling severe hunger and without measuring their food intake. 7. Orthostatic hypotension, fatigue, and nausea are frequent, despite what Dr. ATKINS claims. 8. The diet increases plasma cholesterol and uric acid. It may be dangerous in diabetes (anorexia, acidosis) and in heart or kidney failure (hypokalemia). 9. The diet, though far from good, is better than the book. ATKINS' theories are at best half-truths, and the results he claims lack credibility. The obese subject's disappointment with traditional reducing diets and the book's hard-sell style account for ATKINS' success.
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PMID:[Dr. Atkins' dietetic revolution: a critique]. 89 45

Seventy-eight critically ill patients who died while on the neurosurgical service were studied retrospectively to establish the prevalence of nonketotic hyperglycemic hyperosmolar coma (NHHC). All the patients had been comatose before death, and all underwent necropsy. Criteria for the diagnosis of NHHC included moderate-to-severe hyperglycemia with glucosuria, absence of significant acetonuria, hyperosmolarity with dehydration, and neurological dysfunction. This study revealed seven cases of unequivocal NHHC (9%), and six of hyperosmolarity but with incomplete records. Five of the seven confirmed cases of NHHC demonstrated no evidence of cerebral edema transtentorial herniation, or brain-stem damage, and showed central nervous system (CNS) lesions compatible with survival. Fatal complications of this syndrome, such as acute renal failure, terminal arrhythmias, and vascular accidents, both cerebral and systemic, were common in this series. The mechanism of coma in NHHC is believed related to shifts of free water from the cerebral extravascular space to the hypertonic intravascular space, with subsequent intracellular dehydration, accumulation of metabolic products of glucose, and brain shrinkage. It is uncertain whether injury to specific areas in the CNS is a predisposing factor to the development of NHHC. Factors documented to be significant in its development include nonspecific stress to primary illnesses, hyperosmolar tube feedings, dehydration, diabetes and mannitol, Dilantin, or steroid administration.
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PMID:Nonketotic hyperglycemic hyperosmolar coma. Report of neurosurgical cases with a review of mechanisms and treatment. 125 32

The winter athlete has several potential tactics for sustaining body temperature in the face of severe cold. An increase in the intensity of physical activity may be counter-productive because of increased respiratory heat loss, increased air or water movement over the body surface, and a pumping of air or water beneath the clothing. Shivering can generate heat at a rate of 10 to 15 kJ/min, but it impairs skilled performance, while the resultant glycogen usage hastens the onset of fatigue and mental confusion. Non-shivering thermogenesis could arise in either brown adipose tissue or white fat. Brown adipose tissue generates heat by the action of free fatty acids in uncoupling mitochondrial electron transport, and by noradrenaline-induced membrane depolarisation and sodium pumping. The existence of brown adipose tissue in human adults is controversial, and although there are theoretical mechanisms of heat production in white fat, their contribution to the maintenance of body temperature is small. Acclimatisation to cold develops over the course of about 10 days, and in humans the primary change is an insulative, hypothermic type of response; this reflects the intermittent nature of most occupational and athletic exposures to cold. Nevertheless, with more sustained exposure to cold air or water, humans can apparently develop the humoral type of acclimatisation described in small mammals, with an increased output of noradrenaline and/or thyroxine. The associated mobilisation of free fatty acids suggests the possibility of using winter sport as a pleasant method of treating obesity. In men, a combination of moderate exercise and facial cooling induces a substantial fat loss over a 1- to 2-week period, with an associated ketonuria, proteinuria, and increase of body mass. Possible factors contributing to this fat loss include: (a) a small energy deficit; (b) the energy cost of synthesising new lean tissue; (c) energy loss through the storage and excretion of ketone bodies; (d) catecholamine-induced 'futile' metabolic cycles with increased resting metabolism; and (e) a specific reaction to cold dehydration. Current limitations for the clinical application of such treatment include uncertainty regarding optimal environmental conditions, concern over possible pathological reactions to cold, and suggestions of a less satisfactory fat mobilisation in female patients. Possible interactions between physical fitness and metabolic reactions to cold remain controversial.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Adaptation to exercise in the cold. 388 60

The effects of late pregnancy on metabolic fuels, liver composition, gluconeogenesis, and nitrogen metabolism have been examined in fed and fasted rats. Plasma free fatty acid (FFA) and immunoreactive insulin (IRI) are greater and glucose and ketones are lower in fed 19-day pregnant than they are in agematched virgin rats. A 48 hr fast elicits greater increases in FFA and ketones and more profound reductions in glucose in the pregnant rats and obliterates the differences in IRI. Fetal weight is not modified by such fasting but maternal weight losses exceed that of the nongravid rats. Livers from rats 19 days pregnant contain more and larger hepatocytes. Per mumole hepatic deoxyribonucleic acid (DNA)-phosphorus, water and protein are more abundant, whereas glycogen is unaffected. Livers from fed pregnant rats contain more lipid phosphorus and less neutral lipid fatty acid. After a 48 hr fast, hepatic steatosis supervenes in gravid animals due to accumulated neutral fat. The contents of hepatic acetyl-coenzyme A (CoA) and citric acid are not different in fed pregnant and virgin rats but are greater in the pregnant rats after fasting. Formation of glucose-(14)C and glycogen-(14)C from administered pyruvate-(14)C are the same in fed pregnant and virgin rats, but greater in the pregnant ones after a 24 or 48 hr fast. Pregnancy does not affect creatinine excretion, and urinary urea is not different in fed pregnant, virgin, and postpartum animals. Contrariwise, more nitrogen, potassium, and phosphorus are excreted by the pregnant animals during a 2 day fast. The increment in urinary nitrogen is due largely to urea on the 1st day, whereas heightened ammonia accounts for half the increase on the 2nd and correlates with the enhanced ketonuria. Muscle catabolism, gluconeogenesis, and diversion to fat are activated more rapidly and to a greater degree when food is withheld during late gestation in the rat. These catabolic propensities are restrained in the fed state. The capacity for "accelerated starvation" may confer survival benefit upon an intermittently eating mother in the presence of a continuously feeding fetus.
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PMID:Carbohydrate metabolism in pregnancy. VI. Plasma fuels, insulin, liver composition, gluconeogenesis, and nitrogen metabolism during late gestation in the fed and fasted rat. 535 39

The metabolic adaptation in man to starvation, semistarvation, and carbohydrate restriction is complex and involves a number of hormones, substrates, and tissues. In particular, however, the need for the ketoacids beta-hydroxybutyric acid and acetoacetic acid to replace glucose as the primary fuel for the brain of fasting man appears to be the key to maximum protein conservation. That is, ketogenesis is necessary to provide the brain with a fat-derived, water-soluble, insulin-independent, glucose-equivalent fuel. This adaptation is associated with a small loss of the ketoacids into the urine (100-150 mM/day or 40-60 calories/day). The ketonuria, in turn, necessitates increased renal utilization of muscle-derived glutamine. Synthesis of glutamine by muscle requires muscle proteolysis. Administration of glucose in amounts needed to meet the requirements of the brain results in suppression of ketogenesis in fasting man and a significant diminution in nitrogen mobilization and utilization as well.
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PMID:Metabolic adaptations to starvation, semistarvation, and carbohydrate restriction. 702 58

Interrelations between glucose and electrolyte homeostasis were evaluated in 193 insulin-treated diabetic out-patients. All had normal serum creatinine and were studied during their everyday metabolic control. Although the patients were selected to be without proteinuria and ketonuria, they exhibited wide ranges of blood glucose values (2.5-29.5 mmol/l) and urine glucose excretions (0-301 mmol/mmol creatinine). Patients with blood glucose values within 2.5-10 mmol/l (n = 80) had entirely normal levels of serum sodium (140.6 +/- 2.7 (SD) versus 141.0 +/- 2.6 mmol/l) and potassium (4.35 +/- 0.38 versus 4.40 +/- 0.38 mmol/l) as compared with normals (n = 371). In contrast, diabetics with higher blood glucose concentrations (n = 113) showed hyponatremia (137.7 +/- 2.6 mmol/l, p less than 0.001) and a moderate increase of serum potassium (4.60 +/- 0.39 mmol/l, p less than 0.001). On stratification into classes of blood glucose, serum sodium declined from 142 to 135 mmol/l (r = -0.61, p less than 0.001), whereas serum potassium rose from 4.33 to 4.87 mmol/l (r = 0.37, p less than 0.001). Despite these reciprocal changes the urinary excretion rates relative to creatinine of sodium potassium and water rose with rising degrees of glycosuria (r = 0.24, p less than 0.001; r = 0.28, p less than 0.001; and r = 0.63, p less than 0.001, respectively). The decline in serum sodium represents a well-known osmoregulatory response to hyperglycemia. However, the rising level of serum potassium in virtual absence of renal failure and ketonuria suggests an abnormality in potassium homeostasis. Diabetic dysregulation, or rather insulin deficiency may be its cause.
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PMID:Hyponatremia and hyperkalemia in relation to hyperglycemia in insulin-treated diabetic out-patients. 703 73

A case of adult Reye's syndrome is described. A previously healthy 17-year-old man developed convulsions 2 days after resolution of an upper respiratory infection with parainfluenza virus type 3. During the preceding infection, he took aspirin. On admission, he was drowsy. There was no focal signs. Cranial CT scan was unremarkable. A lumbar puncture revealed an opening pressure of 180 mm H2O; the cerebrospinal fluid was acellular with normal protein level. Serum chemistry showed elevated transaminase activities and normal bilirubin level. Blood ammonia level was high; urea and citrulline levels were abnormally low. These abnormalities disappeared later, suggesting transient cysfunction of mitochondrial urea-cycle enzymes. Free and acyl carnitine levels were unremarkable. Both metabolic acidosis and ketonuria were absent. Thus, a variety of aminoacidurias and organic acidemias are unlikely. All these findings meet diagnostic criteria for Rye's syndrome proposed by the CDC of the USA. Status epilepticus was treated with intravenous infusion of thiamylal sodium. He was treated with hypertonic glucose solution and osmotic diuretic. Three months after the onset of the illness, his convulsions were controlled only with zonisamide, clonazepam, and carbamazepine. He had motor dysfunctions. This case is unique in that a patient with adult Reye's syndrome and status epilepticus favorably recovered.
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PMID:[A case of adult Reye's syndrome with favorable outcome despite status epilepticus]. 904 59


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