Efficacy of a Novel Mechanical Cervical Dislocation Device in Comparison to Manual Cervical Dislocation in Layer Chickens.

Abstract

Simple SummaryOn-farm euthanasia of diseased or injured chickens is a common task within the poultry industry. For animal welfare, the aim of any euthanasia technique is to achieve rapid loss of sensibility, for the process to cause minimal pain, and for death to follow quickly. Manual cervical dislocation (separating the skull from the spine by hand) is a common method for killing poultry on farms, but it can be aesthetically displeasing. Therefore, different tools for neck dislocation (separating the skull from the spine by mechanical device) are developed as alternative euthanasia methods. These tools need scientific assessment for their effectiveness and humaneness. The Koechner Euthanasia Device (KED) (Koechner MFG. CO., INC, USA) is commercially available as a mechanical cervical dislocation tool for poultry. We compared the efficacy of KED with manual cervical dislocation based on time to brain death (irreversible insensibility) and degree of damage to the brain and neck in anesthetized chickens. The anesthetic agents reduced any distress and pain associated with the killing technique. Our results indicated that KED resulted in less damage to the brain, causing longer times to brain death and cardiac arrest in comparison to manual cervical dislocation. We suggest that manual cervical dislocation is more efficient and humane for layer chicken euthanasia than KED.The main objective of this study was to assess the efficacy of mechanical cervical dislocation using the Koechner Euthanasia Device Model C (KED) in comparison to manual cervical dislocation in layer chickens. Laying hens and/or roosters in three different age groups (12, 27–29, and 65–70 weeks old) were randomly assigned to one of three experimental groups: manual cervical dislocation in conscious birds (CD), manual cervical dislocation in anesthetized birds (aCD), or mechanical cervical dislocation by KED in anesthetized birds (aMCD). Anesthetized birds received an intramuscular dose of 0.3 mg/kg medetomidine and 30 mg/kg of ketamine to achieve clinical anesthesia. A comparison of CD vs. aCD responses confirmed that the anesthetic plane abolished or reduced clonic convulsions, nictitating membrane reflex, tonic convulsions, and cloacal relaxation. Time to loss of the pupillary light reflex (~123 s), and time to cardiac arrest (~172 s) were longer (p < 0.001) in the birds in the aMCD group than aCD (~71 and ~137 s, respectively). Radiographs revealed that the majority of the birds killed by manual cervical dislocation (CD + aCD) had dislocations between the skull and atlas (C1) or between cervical vertebrae C1–C2. The KED resulted in a majority of dislocations at C2–C3. Birds killed by manual cervical dislocation presented more subdural and parenchymal hemorrhage in the brain stem compared to birds killed by KED. Radiographs indicated the presence of fractures in a few birds killed by either method (CD + aCD versus aMCD). Compared to manual CD, KED resulted in less brain trauma and a longer latency to brain death, indicating a lower efficacy of KED as an on-farm killing method.