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Presumed Neuroglycopenia Caused by Severe Hypoglycemia in Horses.
BackgroundNeuroglycopenia refers to a shortage of glucose in the brain resulting in neuronal dysfunction and death if left untreated. Presumed neuroglycopenia has not been described in horses.ObjectiveTo report neurological signs in horses with presumed neuroglycopenia as the result of severe hypoglycemia.AnimalsNinety horses (hours to 28 years of age) diagnosed with hypoglycemia (blood glucose concentration < 75 mg/dL [< 4.2 mmol/L]).MethodsRetrospective study. Electronic medical records were searched. Signalment, history, complaint, clinical signs, laboratory findings including CSF analysis, electroencephalogram, clinical or definitive diagnosis, and outcome were recorded. Kruskal-Wallis analysis of variance and logistic regression were used to investigate association between blood glucose concentration and data extracted. Statistical significance was set at P < 0.05.ResultsThirty-eight and 52 horses had mild (50-74 mg/dL [2.8-4.1 mmol/L]), and severe hypoglycemia (< 50 mg/dL [< 2.8 mmol/L]), respectively. Most common causes of hypoglycemia included liver and gastrointestinal (40%) disease, sepsis (33%), neoplasia (7%), and insulin-induced (4%). Most common neurologic deficits included obtundation (100%), seizures (42%), and disorientation (22%). CSF-glucose was severely low (mean 2.5 mg/dL [0.1 mmol/L], median 0 mg/dL). Paroxysmal discharges in support of seizures were identified in the occipital (visual) and parietal (closest to temporal-auditory) cortical regions upon EEG examination (8/8 horses).Conclusions and clinical importanceNeuroglycopenia is presumed to occur in horses as the result of severe hypoglycemia. Subclinical seizures, and intermittent blindness and deafness of cortical origin can occur. Severe altered state of consciousness and seizures can be observed at a blood glucose cut-off value of < 42 mg/dL (< 2.3 mmol/L)
Violence Against Women: Entrapment, Repetition and Transformation
Violence Against Women: Entrapment, Repetition and Transformation is a reflection on my creative practice as a visual artist. The project is the culmination of five years of research into this subject, inspired by artists and theorists to examine it from a feminist point of view. It is an ongoing body of work that explores themes of power, domination, gender inequality, entrapment, repetition and transformation. These issues are still relevant today and my personal interest and experience have motivated me to use my art practice to raise awareness.
Researching feminist theorists such as Amelia Valcárcel, Ana de Miguel Marcela Lagarde y Laura Segato has given me insight into the subject and allowed me to develop my artistic practice further, adding substance to my work and making my work more engaging. Philosophers Rosi Braidotti and Daisaku Ikeda have shown optimism is still possible and that we are all interconnected. They reinforce the importance of building better communities and fighting injustice against women.
Key artists such as Regina José Galindo, Jenny Holzer, Susan Hiller and Lorena Wolfer have been a source of inspiration, encouraging me to explore using different media, including photography, video, installation and performance. They have also shown me ways to use specific tools in my art practice, in order to convey the message of highlighting violence against women and bring about social awareness
A gravitational wave window on extra dimensions
We report on the possibility of detecting a submillimetre-sized extra
dimension by observing gravitational waves (GWs) emitted by pointlike objects
orbiting a braneworld black hole. Matter in the `visible' universe can generate
a discrete spectrum of high frequency GWs with amplitudes moderately weaker
than the predictions of general relativity (GR), while GW signals generated by
matter on a `shadow' brane hidden in the bulk are potentially strong enough to
be detected using current technology. We know of no other astrophysical
phenomena that produces GWs with a similar spectrum, which stresses the need to
develop detectors capable of measuring this high-frequency signature of large
extra dimensions.Comment: 9 pages, 5 figure
Intravenous infusion of magnesium sulfate and its effect on horses with trigeminal-mediated headshaking.
BackgroundTrigeminal-mediated headshaking results from low-threshold firing of the trigeminal nerve resulting in apparent facial pain. Magnesium may have neuroprotective effects on nerve firing that potentially dampen signs of neuropathic pain. This hypothesis has not been investigated in horses with trigeminal-mediated headshaking.ObjectiveTo investigate head-shaking behavior in affected horses after IV magnesium sulfate infusion.AnimalsSix geldings with trigeminal-mediated headshaking.MethodsProspective randomized crossover study. Horses were controlled for diet and infused IV with 5% dextrose solution (DS; control solution at 2 mL/kg body weight [BW]) and MgSO4 50% solution (MSS at 40 mg/kg BW). Head-shaking behavior was recorded at times T0 (baseline, before infusion) and T15, T30, T60, and T120 minutes post-infusion. Venous blood variables such as pH, HCO3 - , standard base excess (SBE), Na+ , Cl- , K+ , Ca2+ , Mg2+ , total magnesium (tMg), glucose, and lactate were measured; strong ion difference (SID) and anion gap (AG) were calculated for each time point.ResultsBlood variables including pH, Na+ , Cl- , K+ , SID, AG, lactate, Ca2+ , tMg, and Mg2+ had significant changes with MSS as compared to DS treatment. Glucose, SBE, and HCO3 - did not have significant changes. A 29% reduction in head-shaking rate occurred after MSS treatment but no change occurred after DS treatment.Conclusions and clinical importanceAdministration of MSS IV increased plasma total and ionized magnesium concentrations and significantly decreased head-shaking behavior in horses with trigeminal-mediated headshaking
Luteinizing hormone concentrations in healthy horses and horses with trigeminal-mediated headshaking over an 8-hour period.
BackgroundTrigeminal-mediated headshaking results from a low threshold for firing of the trigeminal nerve. A seasonal component has been implicated in onset of clinical signs, which occur during the spring and summer months. Geldings are overrepresented in the affected population and hormonal differences as compared to a healthy control population of geldings might contribute to headshaking.Objective/hypothesisTo assess concentrations of luteinizing hormone (LH) over an 8-hour period in gelded healthy controls and horses affected with headshaking. Our hypothesis was that geldings with seasonal headshaking would have higher concentrations of LH over an 8-hour period compared to control horses during the summer when affected horses manifested headshaking.AnimalsTwelve geldings (6 controls and 6 affected).MethodsProspective controlled trial. Blood samples were drawn every 15 minutes over an 8-hour time period during summer from all horses to measure circulating LH concentrations by using a radioimmunoassay for equine LH. All affected horses were actively affected by headshaking at the time of sample collection.ResultsNo statistically significant differences in LH concentrations were found throughout the study period in headshakers as compared to control horses. Time had no significant effect, but a slight decrease in LH concentrations was observed for all horses. The main limitation of the study was the low number of horses.Conclusions and clinical importanceHorses affected with headshaking did not have significant differences in circulating LH during the late summer as compared to control horses
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