UMLS:C0040822 - FACTA Search

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Query: UMLS:C0040822 (tremor)
18,428 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypoglycaemia is possibly the most frequent metabolic emergency, in that insulin-induced hypoglycaemia is a common side-effect of treatment of a common disease. The symptoms are partly sympathetic and related to the release of catecholamines. These symptoms include sweating, tremor, palpitations, sensation of hunger, restlessness and anxiety. Other symptoms are caused by an insufficient supply of glucose to the brain, resulting in neuroglucopenia with symptoms like blurred vision, weakness, slurred speech, vertigo and difficulties in concentration. Symptom recognition is the primary and most effective defence against cerebral dysfunction which is the ultimate consequence of hypoglycaemia. Even in insulin-treated diabetic patients symptom failure might occur. Patients who experience severe episodes of hypoglycaemia do not constitute a special subgroup of patients. However, near-normalization of blood glucose levels have resulted in an increase in the incidence of severe hypoglycaemia. Moreover, the threshold for hormonal counter-regulatory responses in adrenaline, growth hormone and cortisol is lowered after a period of strict metabolic control in insulin-dependent diabetic patients. The glucose level at which the patients become subjectively aware of hypoglycaemia is correspondingly reduced. Other reasons for hypoglycaemia to occur are oral hypoglycaemic agents, especially sulfonylureas which may be potentiated by other drugs. Prolonged hypoglycaemia may be seen after first-order sulfonylureas, and may indicate glucose infusion as treatment. Next to insulin and sulfonylurea, ethanol is the most common cause of hypoglycaemia. In non-diabetics, hypoglycaemia will typically develop 6-24 h after a moderate or heavy intake of ethanol by a person who has had an insufficient intake of food for 1 or 2 days. Insulin-producing tumours, insulinomas and non-islet cell tumours may also be reasons for hypoglycaemia in non-diabetics. Treatment of mild episodes of hypoglycaemia is intake of fast-absorbing carbohydrates. Severe episodes can be treated with either i.v. dextrose or glucagon injected i.m. or i.v. The glycaemic response and recovery of a normal level of consciousness is 1-2 min slower after glucagon than after glucose.
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PMID:Endocrine emergencies. Hypoglycaemia. 173 95

To define glycemic thresholds for activation of counterregulatory hormone secretion, initiation of symptoms (autonomic and neuroglycopenic), and onset of deterioration of cognitive function, we measured indexes of these responses during glycemic plateaus of 90, 78, 66, 54, and 42 mg/dl in 10 normal volunteers, with the use of the hyperinsulinemic glucose clamp technique. Activation of glucagon, epinephrine, norepinephrine, and growth hormone secretion began at arterialized venous plasma glucose concentrations of 68 +/- 1, 68 +/- 1, 65 +/- 1, and 67 +/- 2 (SE) mg/dl, respectively. Autonomic symptoms (anxiety, palpitations, sweating, irritability, and tremor) began at 58 +/- 2 mg/dl, which was significantly (P = 0.0001) lower. Neuroglycopenic symptoms (hunger, dizziness, tingling, blurred vision, difficulty thinking, and faintness) and deterioration in cognitive function tests began at 51 +/- 3 and 49 +/- 2 mg/dl, respectively, values that were both significantly (P = 0.018 and 0.004, respectively) lower than that for initiation of autonomic symptoms. We therefore conclude that there is a distinct hierarchy of responses to decrements in plasma glucose, such that the threshold for activation of counterregulatory hormone secretion occurs at higher plasma glucose levels than that for initiation of autonomic warning symptoms, which in turn occurs at higher plasma glucose levels than that for onset of neuroglycopenic symptoms and deterioration in cerebral function. Such a hierarchy would maximize the opportunity to avoid incapacitating hypoglycemia.
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PMID:Hierarchy of glycemic thresholds for counterregulatory hormone secretion, symptoms, and cerebral dysfunction. 198 94

The occurrence of severe and mild hypoglycaemic attacks and their symptoms and signs were studied in 92 insulin-dependent diabetic children, 7-18 years old. A questionnaire was distributed to all families and they were interviewed by an experienced nurse. Severe attacks, for which the help of an adult was needed, were reported by 44% of the children during a 12-month period. Thirty-seven per cent of the attacks occurred in the mornings, most often attributed to extra physical exercise, but equally often without any obvious cause. They were more common in children with strict blood glucose control measured as HbA1c. Fast-acting carbohydrates, given by parents, relieved the attack in most children, but 15% needed a glucagon injection and 12% intravenous glucose. In all, 16% were admitted to hospital. Mild events occurred in 97% of the children, at least once per week in 53% of the children, and were not related to blood glucose control. They were often attributed to extra physical exercise and occurred mainly between breakfast and lunch. Initial symptoms were tremor and hunger; during the whole event tremor and sweating were most common. Parents noted pallor as the most common sign. The frequency of severe or mild attacks could not be correlated to the age of the child, duration of diabetes, daily dose or number of insulin injections.
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PMID:Symptomatic hypoglycaemia in childhood diabetes: a population-based questionnaire study. 252 88

A prospective study of symptomatic hypoglycaemia was conducted in 47 children over a 14-week period using a questionnaire completed at home for each episode of hypoglycaemia. Twenty-nine children (62%) experienced 150 episodes during the study. The average incidence was once every 33 days (range 0-5.2 mo-1). Hypoglycaemia occurred more frequently in children with lowest haemoglobin A1 levels. Episodes were not randomly distributed in time; hypoglycaemia occurred significantly more frequently in the evening, in the early morning and around midday. The majority of episodes were judged to be mild but 2 children had nocturnal convulsions and glucagon was used on three occasions. Symptomatic nocturnal hypoglycaemia occurred one or more times in 30% of the children. Daytime episodes were manifested by tremor, feeling weak, dizziness, pallor, and other symptoms and signs. In 46% of cases the cause was not evident to parents or children, but 25% were related to physical activity.
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PMID:A prospective study of symptomatic hypoglycaemia in childhood diabetes. 252 5

Stress-induced diabetic ketoacidosis is characterized by an elevation in stress hormone concentration. Whether metabolic decompensation induces or results from the secretion of stress hormones has not been examined. Our study examined the temporal relationship between the onset of stress (pyrogen-induced shaking chills and fever); the elevation in stress hormone concentation; and the rise in plasma glucose, ketone bodies, and nonesterified fatty acid concentration. Insulin deficiency, which may itself induce stress hormone secretion, was prevented by the continuous infusion of insulin (0.01 U/kg.h). Pyrogen administration induced malaise and fever in all diabetic volunteers and the rapid endogenous secretion of all stress hormones. The rise in plasma GH, catecholamines, and cortisol preceded the rise in plasma nonesterified fatty acid and ketone body concentrations by at least 30 min. The rise in plasma glucagon concentration preceded the rise in plasma glucose concentration by at lease 1 h. Thus, these studies support a primary role for stress hormones in initiating metabolic decompensation in stressed diabetic man.
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PMID:The temporal relationship between endogenously secreted stress hormones and metabolic decompensation in diabetic man. 735 Jan 76

Hypoglycaemia is the most frequent acute complication of insulin-dependent diabetes mellitus. The clinical symptoms of insulin-induced hypoglycaemia can be grouped into those attributable to the sympathetic and adrenergic responses, e.g. tremor, pallor, palpitation, sweating, mydriasis ('hypoglycaemia awareness'), and those attributable to brain dysfunction, ranging from headache to convulsions and coma. Hypoglycaemia in diabetic children can occur at any time of the day, but nocturnal hypoglycaemia is a particular fear and worry. The frequency of mild hypoglycaemia is almost impossible to ascertain and the incidence of severe hypoglycaemia varies between 0.07 and 3.6 episodes per patient-year, though most authors report a range of 0.1-0.2 episode per patient-year. The most frequent causes of hypoglycaemia in diabetic children are deviations from treatment routine such as strenuous exercise, omission of snacks or skipped meals, and gross deviations from the prescribed times of insulin injections and recommended doses of insulin. Other predisposing factors include intensified insulin treatment, improved glycaemic control, young age, longer duration of diabetes and defective counterregulation. The available paediatric studies do not seem to support the suggestion that human insulin impairs the perception of hypoglycaemic symptoms ('hypoglycaemia unawareness') and increases the frequency of hypoglycaemic episodes, but further conclusive studies are needed. Prolonged and recurrent severe hypoglycaemia, particularly in younger children, can cause permanent neuropsychological dysfunction (e.g. learning disabilities) and permanent electroencephalographic abnormalities. Mild hypoglycaemia has also been documented to affect cognitive function, and the performance of neuropsychological tasks can remain decreased for some time (up to several hours) after full clinical recovery from hypoglycaemia. An impending hypoglycaemic attack can usually be averted by the ingestion of 20 g of rapidly absorbed carbohydrate. A severe episode can be effectively treated outside hospital with subcutaneous or intramuscular glucagon (0.5-1.0 mg) or in the hospital by an intravenous bolus of 0.2-0.5 g/kg glucose followed by a continuous glucose infusion. Patient and parent education and vigilant application of diabetes self-care principles are perhaps the most effective means of prevention, but in very young children a less strict metabolic control (higher glycosylated haemoglobin levels) may be necessary.
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PMID:Hypoglycaemia in the diabetic child. 837 14

There is little information concerning the physiological response to hypoglycaemia induced by sulphonylureas. We compared the physiological and symptomatic responses to insulin and tolbutamide induced hypoglycaemia in 8 normal subjects. While infusing either insulin or tolbutamide, we used a glucose clamp to maintain blood glucose at 4.5 mmol l-1 for 30 min and lowered it to 2.9 mmol l-1 for a further 30 min. Mean peripheral insulin levels during the insulin infusion arm in comparison with the tolbutamide infusion were not significantly different during the euglycaemic plateau: 106 +/- 4 vs 77 +/- 15 mU l-1 (mean +/- SEM) (mean difference 29 mU l-1, 95% CI -22 to 80; p = NS) but were greater during the hypoglycaemic plateau: 106 +/- 3.5 vs 21.0 +/- 4.0 mU l-1 (mean difference 85 mU l-1, 95% CI 72 to 98; p < 0.0001). Portal insulin concentrations, calculated from C-peptide data were not significantly different during the euglycaemic plateau with insulin as compared to tolbutamide. However, during hypoglycaemia portal insulin concentrations were significantly higher 15 min from the start of the plateau, during insulin infusion. During hypoglycaemia induced by either insulin or tolbutamide there were similar peak responses of glucagon: 124 +/- 14 vs 128 +/- 7 ng l-1 (mean difference -4, 95% CI -39 to 31; p = NS) and adrenaline: 2.9 +/- 0.4 vs 2.8 +/- 0.3 nmol l-1, (mean difference 0.1, 95% CI -0.9 to 1.0; p = NS). Increases in tremor and sweating and deterioration in reaction time were similar during both periods of hypoglycaemia as were increases in total: 18.5 +/- 1.4 vs 19.6 +/- 2.2 (mean difference -1.0, 95% CI -3.8 to 1.8; p = NS) and autonomic: 8.9 +/- 0.9 vs. 9.9 +/- 1.3 (mean difference -1.1, 95% CI -5.9 to 3.6; p = NS) symptom scores. We conclude that there is no difference in the glucagon, sympathoadrenal, cognitive or symptomatic response during hypoglycaemia induced by either insulin or tolbutamide. This suggests that the different insulin concentrations produced by these contrasting models of hypoglycaemia had no effect on the physiological response and patients taking sulphonylureas can be expected to develop similar warning symptoms to those on insulin.
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PMID:Similar physiological and symptomatic responses to sulphonylurea and insulin induced hypoglycaemia in normal subjects. 884 97

The effects of human and porcine insulins on the symptomatic, physiological, and counterregulatory hormonal responses to acute hypoglycaemia were compared in 40 patients with Type 1 diabetes, 20 of whom were newly diagnosed while 20 had been treated for between 5 and 20 years. In a double-blind, cross-over trial all patients were treated with human or porcine insulin, in random order, for two consecutive 3-month periods. At the end of each treatment period they were subjected to an acute episode of experimental hypoglycaemia induced by a continuous intravenous infusion (2.0 mU kg(-1)min(-1)) of the same insulin species. Haemodynamic, sweating, and tremor responses were measured during both studies, symptom scores were recorded and the arterialized plasma glucose thresholds for autonomic activation and the onset of subjective symptoms were identified. In all patients the glycaemic thresholds for the initiation of the autonomic physiological responses to hypoglycaemia and the onset of the symptomatic response were concurrent and did not differ with insulin species (plasma glucose 1.94 vs 1.96 mmol I(-1), human vs porcine studies). The onset, temporal pattern, nature, and magnitude of the physiological responses (sweating, heart rate, blood pressure, and tremor) during acute experimental hypoglycaemia were also identical with each insulin species. The magnitude and temporal pattern of the response of counterregulatory hormones (adrenaline, noradrenaline, glucagon, ACTH, and GH) to hypoglycaemia as induced by human and porcine insulins were indistinguishable, as were the total and individual scores of autonomic and neuroglycopenic symptoms. In conclusion, in patients who had newly diagnosed and intermediate duration (5-20 years) of diabetes, the symptomatic, physiological, and counterregulatory hormonal responses to acute insulin-induced hypoglycaemia did not differ between human and porcine insulins, and the plasma glucose thresholds at which the symptomatic and autonomic responses were initiated were identical with both insulin species. This study does not support the hypothesis that treatment with human insulin modifies the symptomatic, physiological, and counterregulatory hormonal responses to acute hypoglycaemia.
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PMID:A comparative study of responses to acute hypoglycaemia induced by human and porcine insulins in patients with Type 1 diabetes. 916 11

Hypoglycemia is often associated with typical, but not specific symptoms. A differentiation is made between neuroglucopenic symptoms (e.g., confusion, somnolence) on the one hand, and those that arise as a result of the counterregulatory response of the sympathetic nervous system (e.g., tremor, sweating), on the other. The diagnosis of hypoglycemia can cause considerable problems, in particular when only isolated single symptoms present (e.g., confusion, psychosis, seizures, coma). For the elective clarification of recurrent hypoglycemia, further diagnostic examinations (e.g., fasting with determination of hormones, measurement of insulin) are employed in addition to the patient's history. For differential diagnostic considerations not only organic causes, but also adverse drug reactions and a factitious genesis must be excluded. In the event of an emergency (e.g., hypoglycemic coma) the usual form of treatment is the administration of glucoses or glucagon.
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PMID:[Hypoglycemia. Symptoms, differential diagnosis, therapy]. 917 11

In humans, the role of hypothalamic centers for activation of counterregulatory release of catecholamines and glucagon during hypoglycemia is unclear. To address this question, we investigated the counterregulatory response to acute insulin-induced hypoglycemia of glucagon, epinephrine, and norepinephrine in eight patients who had undergone transcranial surgery for a craniopharyngioma extending to the hypothalamic region. We compared the patients' responses with those of four patients suffering from hypopituitarism and of six healthy subjects. After the i.v. injection of 0.1 U of human insulin per kg of body weight in the patients or 0.15 U in healthy subjects, the plasma glucose concentrations decreased to similar minimum levels within 30 min in all three groups. All subjects recovered spontaneously from hypoglycemia within 2 h. In five of eight craniopharyngioma patients, only a small counterregulatory rise in plasma epinephrine (< or =2-fold) and norepinephrine could be observed (P < 0.05 for epinephrine and P = 0.22 for norepinephrine vs. healthy controls). During hypoglycemia, virtually no adrenergic symptoms (tremor, heart pounding, and anxiety) were reported by these five patients, and changes in the heart rate were diminished. In three craniopharyngioma patients, the counterregulatory increase in catecholamines was unimpaired, adrenergic symptoms were reported and a rise in heart rate was observed during hypoglycemia. In all craniopharyngioma patients, the counterregulatory glucagon response to hypoglycemia was preserved and orthostasis increased both catecholamines and the heart rate similar to in the patients with hypopituitarism as well as in the healthy controls. Our results demonstrate selective impairment of counterregulatory sympathoadrenal activation in patients who had undergone surgery for a craniopharyngioma extending to the hypothalamic region. This strongly suggests the involvement of hypothalamic centers in hypoglycemia-induced activation of the sympathoadrenal axis in humans. It remains unclear as to whether hypoglycemia-induced glucagon secretion is also controlled by the hypothalamus. However, a common hypothalamic center controlling both counterregulatory catecholamine and glucagon release is unlikely, and sympathoadrenal activation is not required for hypoglycemia-induced glucagon secretion in humans.
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PMID:Sympathoadrenal counterregulation in patients with hypothalamic craniopharyngioma. 1183 95

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