Cortical function in cattle during slaughter: conventional captive bolt stunning followed by exsanguination compared with shechita slaughter

Daly, C.C.; Kallweit, Erhard; Ellendorf, F

doi:10.1136/vr.122.14.325

Cited by 79 publications

(56 citation statements)

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“…During our experiment, calves in an inverted or upright position lost consciousness, based on EEG recordings, 49 ± 25 and 109 ± 32 s, respectively (mean ± SD), after the neck cut. Previous studies in cattle indicated loss of consciousness ranging from 10 s up to over 3 min after the neck cut (Daly et al, 1988;Gregory et al, 2010;Bourguet et al 2011). Newhook andBlackmore (1982) suggested the possibility of an intermittent return to consciousness for up to 123 to 323 s after non-stunned slaughter in cattle.…”

Section: Discussionmentioning

confidence: 99%

“…There is considerable variation between cattle in time to loss of consciousness after the neck cut. Some studies suggest a rapid loss of consciousness (4 to 7 s) in cattle after the neck cut (Nangeroni and Kennett, 1963;Bager et al, 1992) whereas other studies report a spontaneous loss of brain activity 75 ± 48 s after the neck cut (range 19 to 113 s) and the possibility of an intermittent return to consciousness for up to 123 to 323 s after slaughter (Newhook and Blackmore, 1982;Daly et al, 1988). There is substantial debate about which indicators most adequately assess unconsciousness at slaughter and which merit further investigation (European Food and Safety Authority (EFSA), 2013).…”

Section: Introductionmentioning

confidence: 99%

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Validation of indicators used to assess unconsciousness in veal calves at slaughter

Verhoeven

Gerritzen

Hellebrekers

et al. 2016

animal

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European legislation states that after stunning regular checks should be performed to guarantee animals are unconscious between the end of the stunning process and death. When animals are killed without prior stunning these checks should be performed before the animal is released from restraint. The validity of certain indicators used to assess unconsciousness under different stunning and slaughter conditions is under debate. The aim of this study was to validate the absence of threat-, withdrawal-, corneal-and eyelid reflex as indicators to assess unconsciousness in calves subjected to different stunning and slaughter methods. Calves (201 ± 22 kg) were randomly assigned to one of the following four treatments: (1) Captive bolt stunning followed by neck cut in an inverted position (n = 25); (2) Non-stunned slaughter in an upright position (n = 7); (3) Non-stunned slaughter in an inverted position (180°rotation) (n = 25); (4) Non-stunned slaughter in an upright position followed by captive bolt stunning 40 s after the neck cut (n = 25). Each calf was equipped with non-invasive electroencephalogram (EEG) electrodes before the slaughter procedure. All reflexes were verified once before the slaughter procedure. At the beginning of the procedure (T = 0 s) calves were stunned (treatment 1) or neck cut in an upright position (treatment 2, 4) or inverted position (treatment 3). Calves of treatment 4 were captive bolt stunned 34 ± 8 s after the neck cut. Reflexes were assessed every 20 s from T = 15 s for all treatments until all reflex tests resulted in a negative response three times in a row and a flat line EEG was observed. In addition, reflexes were assessed 5 s after captive bolt stunning in calves of treatments 1 and 4. Visual assessment of changes in the amplitude and frequency of EEG traces was used to determine loss of consciousness. Timing of loss of consciousness was related to timing of loss of reflexes. After captive bolt stunning, absence of threat-, withdrawal-, corneal-and eyelid reflex indicated unconsciousness as determined by EEG recordings. After non-stunned slaughter, both threat-and withdrawal reflex were on average lost before calves were unconscious based on EEG recordings. The eyelid-and corneal reflex were on average lost after calves had lost consciousness based on EEG recordings and appeared to be distinctly conservative indicators of unconsciousness in non-stunned slaughtered calves since they were observed until 76 ± 50 and 85 ± 45 s (mean ± SD), respectively, after EEG-based loss of consciousness.Keywords: electroencephalogram, calves, reflexes, slaughter, (un)consciousness ImplicationsMonitoring unconsciousness at slaughter is mandatory by European legislation and is often determined by the absence of behavioural indicators (i.e. loss of posture), physical signs (i.e. rhythmic breathing) and reflexes. Previous research in sheep has indicated that the absence of certain reflexes at slaughter is not a reliable indicator of unconsciousness. The present study showed that absence of the withdr...

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Validation of indicators used to assess unconsciousness in veal calves at slaughter

Verhoeven

Gerritzen

Hellebrekers

et al. 2016

animal

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“…The bolt penetrating the skull usually causes immediate unconsciousness, as demonstrated in experimental animals by a loss of visually evoked potentials (7) as weIl as a loss of corneal reflexes, depending on the localization of the injury (8,9). It has also been shown in experimental animals, however, that captive bolt injury of the brain is not necessarily associated with unconsciousness (9,10) and that cerebral function can-at least partly-be restored, as indicated by the reappearance of acoustically or visually evoked potentials (11).…”

Section: Discussionmentioning

confidence: 99%

Homicide with a Captive Bolt Pistol

Betz

Pankratz

Penning

et al. 1993

The American Journal of Forensic Medicine and Pathology

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“…In this region immediately caudal to the skull will be portions of the rete mirabile-a specific adaptation of the vascular system of marine mammals which appears to function to buffer pressure (and perhaps pH and oxygenation levels) in blood circulation to the brain (Lin, Lin, & Chou, 1998;Melnikov, 1986;Nagel, Morgane, McFarlan, & Galliano, 1968 Ellendorf, 1988). In the case of the use of the rod, after the operative has used the rod to cause tissue damage, a wooden peg is inserted into the hole created by the rod (see Figure 1).…”

Section: Resultsmentioning

confidence: 99%

A Veterinary and Behavioral Analysis of Dolphin Killing Methods Currently Used in the “Drive Hunt” in Taiji, Japan

Butterworth

Brakes²,

Vail³

et al. 2013

Journal of Applied Animal Welfare Science

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Cortical function in cattle during slaughter: conventional captive bolt stunning followed by exsanguination compared with shechita slaughter

Cited by 79 publications

References 0 publications

Validation of indicators used to assess unconsciousness in veal calves at slaughter

Validation of indicators used to assess unconsciousness in veal calves at slaughter

Homicide with a Captive Bolt Pistol

A Veterinary and Behavioral Analysis of Dolphin Killing Methods Currently Used in the “Drive Hunt” in Taiji, Japan

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