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Stress Hyperglycemia (stress + hyperglycemia)
Selected AbstractsEditorial: Stress Hyperglycemia and Diabetes Mellitus in CatsJOURNAL OF VETERINARY INTERNAL MEDICINE, Issue 2 2002Richard Nelson DVM No abstract is available for this article. [source] Acute Stress Hyperglycemia in Cats Is Associated with Struggling and Increased Concentrations of Lactate and NorepinephrineJOURNAL OF VETERINARY INTERNAL MEDICINE, Issue 2 2002Jacqueline S. Rand We characterized the changes in blood glucose concentrations in healthy cats exposed to a short stressor and determined the associations between glucose concentrations, behavioral indicators of stress, and blood variables implicated in stress hyperglycemia (plasma glucose, lactate, insulin, glucagon, cortisol, epinephrine, and norepinephrine concentrations). Twenty healthy adult cats with normal glucose tolerance had a 5-minute spray bath. Struggling and vocalization were the most frequent behavioral responses. There was a strong relationship between struggling and concentrations of glucose and lactate. Glucose and lactate concentrations increased rapidly and significantly in all cats in response to bathing, with peak concentrations occurring at the end of the bath (glucose baseline 83 mg/dL, mean peak 162 mg/dL; lactate baseline 6.3 mg/dL, mean peak 64.0 mg/dL). Glucose response resolved within 90 minutes in 12 of the 20 cats. Changes in mean glucose concentrations were strongly correlated with changes in mean lactate (r= .84; P <.001) and mean norepinephrine concentrations (r= .81; P < .001). There was no significant correlation between changes in mean glucose concentrations and changes in mean insulin, glucagon, cortisol, or epinephrine concentrations. Struggling and lactate concentrations were predictive of hyperglycemia. Gluconeogenesis stimulated by lactate release is the likely mechanism for hyperglycemia in healthy cats in this model of acute stress. Careful handling techniques that minimize struggling associated with blood collection may reduce the incidence of stress hyperglycemia in cats. [source] Diabetes hyperglycemia and recovery from strokeGERIATRICS & GERONTOLOGY INTERNATIONAL, Issue 1-2 2001Christopher S Gray Strokeis a major cause of death and severe disability in older people. Despite the burden of disease, there is still no safe, simple and proven medical therapy for the treatment of acute stroke. Advances in acute stroke treatment have been either consistently disappointing (neuroprotective therapy) or fraught with controversy regarding risk/benefit (thrombolysis), and attention is once again being directed towards physiological variables that may influence outcome. Both insulin-dependent and non-insulin-dependent diabetes mellitus are major risk factors for stroke. Diabetes mellitus has also been shown to be associated with increased mortality and reduced functional outcome after stroke. Hyperglycemia is a frequent finding following stroke and may reflect the metabolic stress of the acute event, so-called stress hyperglycemia, and/or underlying impaired glucose metabolism. Several large clinical studies have now demonstrated a positive association between a raised blood glucose and poor outcome from stroke; greater mortality and reduced functional recovery. What is not clear is to what extent hyperglycemia is a ,normal' physiological response to stroke or whether hyperglycemia per se increases cerebral damage in the acute phase. There are many potential mechanisms by which hyperglycemia can exert a harmful effect upon cerebral tissue and it is probable that an important relationship exists, not only between glucose and stroke outcome, but also between insulin and neuroprotection. It remains to be determined whether lowering and maintaining ,normal' glucose levels in the immediate aftermath of stroke, combined with the administration of insulin as an acute treatment, can modify this outcome. [source] Acute Stress Hyperglycemia in Cats Is Associated with Struggling and Increased Concentrations of Lactate and NorepinephrineJOURNAL OF VETERINARY INTERNAL MEDICINE, Issue 2 2002Jacqueline S. Rand We characterized the changes in blood glucose concentrations in healthy cats exposed to a short stressor and determined the associations between glucose concentrations, behavioral indicators of stress, and blood variables implicated in stress hyperglycemia (plasma glucose, lactate, insulin, glucagon, cortisol, epinephrine, and norepinephrine concentrations). Twenty healthy adult cats with normal glucose tolerance had a 5-minute spray bath. Struggling and vocalization were the most frequent behavioral responses. There was a strong relationship between struggling and concentrations of glucose and lactate. Glucose and lactate concentrations increased rapidly and significantly in all cats in response to bathing, with peak concentrations occurring at the end of the bath (glucose baseline 83 mg/dL, mean peak 162 mg/dL; lactate baseline 6.3 mg/dL, mean peak 64.0 mg/dL). Glucose response resolved within 90 minutes in 12 of the 20 cats. Changes in mean glucose concentrations were strongly correlated with changes in mean lactate (r= .84; P <.001) and mean norepinephrine concentrations (r= .81; P < .001). There was no significant correlation between changes in mean glucose concentrations and changes in mean insulin, glucagon, cortisol, or epinephrine concentrations. Struggling and lactate concentrations were predictive of hyperglycemia. Gluconeogenesis stimulated by lactate release is the likely mechanism for hyperglycemia in healthy cats in this model of acute stress. Careful handling techniques that minimize struggling associated with blood collection may reduce the incidence of stress hyperglycemia in cats. [source] |