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2 results

  • The effects of pulse width of a direct current used in water bath stunning and of slaughter methods on spontaneous electroencephalograms in broilers

  • ABM Raj, M O'Callaghan, SI Hughes
  • Journal:
    Animal Welfare / Volume 15 / Issue 1 / February 2006
    Published online by Cambridge University Press:
    11 January 2023, pp. 25-30
    • Article
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  • The effect of the pulse width of a direct current (DC) on the effectiveness of electrical water bath stunning, and slaughter, was evaluated in broilers (n = 29). Broilers were individually stunned in a water bath for 1 s with a constant peak current of 400 mA of 200 Hz DC delivered using a variable voltage/constant current stunner. The pulse width of the 200 Hz DC was set at 0.5, 1.5 or 2.5 ms (10, 30 or 50% of 5 ms current cycle). The results showed that pulse width had a significant effect on the incidence of epileptiform activity in the electroencephalograms (EEGs). A pulse width of 10% of the current cycle was less effective than pulse widths of 30 and 50% of the current cycle; there was no significant difference between a pulse width of 30 and 50%. The results of a univariate analysis showed that ventral neck-cutting resulted in a significantly shorter time to the onset of less than 10% of the pre-stun power contents in the 13–30 Hz and 2–30 Hz EEG frequency bands when compared with unilateral neck-cutting. It is concluded that a pulse width of 30 or 50% of the current cycle of 200 Hz DC, delivering 400 mA peak current, was better than using a pulse width of 10% of the current cycle.

  • Appendix C: - Abnormal Involuntary Movement Scale

  • Edited by William J. Marks, Jr, University of California, San Francisco
  • Book:
    Deep Brain Stimulation Management
    Published online:
    10 November 2010
    Print publication:
    28 October 2010, pp 147-148

  • Summary

    This chapter reviews the elements of anatomy that are required in order to understand and control deep brain stimulation (DBS) outcomes and side effects in patients with dystonia. The essential features for optimal programming in dystonia are: optimal electrode selection and configuration, amplitude, pulse width, and rate. One of the challenges of the initial programming in patients with dystonia is the virtual absence of immediate clinical response to stimulation. One of the very first reports describing successful treatment of dystonia with globus pallidus internal (GPi) DBS described maximal symptomatic relief with stimulation at 50 Hz, though at a very high pulse width. Appropriate DBS lead location is absolutely necessary to achieve optimal results. Currently available neurostimulators provide features that may help the programmer in distinguishing device-related problems from other forms of therapeutic failure. Current spread ventrally to the optic tract causes phosphenes and occasionally nausea.