Meat quality of broiler chickens processed using electrical and controlled atmosphere stunning systems

Increased consumer concern for animal welfare has led some poultry producers to alter their stunning methods from electrical to controlled atmosphere stunning. The potential for different impacts on meat quality between commercially applied controlled atmosphere stunning (CAS) and electrical stunnin...

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Autores principales: Riggs, Montana R., Hauck, Rüdiger, Baker-Cook, Bethany I., Osborne, Rachel C., Pal, Amrit, Terra, Maria T. Bethonico, Sims, Gracie, Urrutia, Andrea, Orellana-Galindo, Leticia, Reina, Marco, DeVillena, Juan F., Bourassa, Dianna V.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2022
Materias:
PROCESSING AND PRODUCT
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9846002/
https://www.ncbi.nlm.nih.gov/pubmed/36640558
http://dx.doi.org/10.1016/j.psj.2022.102422
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author Riggs, Montana R.
Hauck, Rüdiger
Baker-Cook, Bethany I.
Osborne, Rachel C.
Pal, Amrit
Terra, Maria T. Bethonico
Sims, Gracie
Urrutia, Andrea
Orellana-Galindo, Leticia
Reina, Marco
DeVillena, Juan F.
Bourassa, Dianna V.
author_facet Riggs, Montana R.
Hauck, Rüdiger
Baker-Cook, Bethany I.
Osborne, Rachel C.
Pal, Amrit
Terra, Maria T. Bethonico
Sims, Gracie
Urrutia, Andrea
Orellana-Galindo, Leticia
Reina, Marco
DeVillena, Juan F.
Bourassa, Dianna V.
author_sort Riggs, Montana R.
collection PubMed
description Increased consumer concern for animal welfare has led some poultry producers to alter their stunning methods from electrical to controlled atmosphere stunning. The potential for different impacts on meat quality between commercially applied controlled atmosphere stunning (CAS) and electrical stunning (ES) using current US parameters needs further evaluation. Three trials were conducted in a commercial broiler processing facility that uses separate processing lines for ES and CAS. Blood glucose concentrations were measured from broilers stunned by either CAS or ES at: 1) lairage, 2) pre-stunning, and 3) post-stunning, using a glucose monitor. Occurrence of visible wing damage was evaluated post-defeathering and breast fillet meat quality was evaluated through measurement of pH, color, and drip loss at deboning and after 24 h. Data were analyzed using GLM or chi-square with a significance at P ≤ 0.05 and means were separated by Tukey's HSD. Blood glucose concentrations (mg/dL) from CAS and ES birds were not different at lairage (284, 272, P = 0.2646) or immediately prior to stunning (274, 283, P = 0.6425). Following stunning and neck cut, circulating blood glucose from birds stunned by CAS was higher than ES (418, 259, P < 0.0001). CAS carcasses had more visible wing damage than ES carcasses (3.6%, 2.2%, P < 0.0001). Breast fillet pH was lower, L* was higher, and a* was lower at debone for CAS fillets (5.81, 54.65, 1.96) compared to ES fillets (5.92, 53.15, 2.31, P < 0.0001, P = 0.0005, P = 0.0303). Drip loss did not differ between breast fillets from CAS or ES broilers (4.83, 4.84; P = 0.0859). The implications of increased blood glucose concentration post-CAS are unknown and require further evaluation. However, the increase in visible wing damage observed post-defeathering from CAS carcasses indicated a need for equipment parameter adjustments during the process from stunning through defeathering when using CAS for broiler stunning. Although differences were observed in breast fillet attributes at deboning, these differences would have minimal practical application and were no longer present at 24 h. Overall, use of CAS in a commercial facility resulted in differences in subsequent product quality when compared to ES.
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spelling pubmed-98460022023-01-19 Meat quality of broiler chickens processed using electrical and controlled atmosphere stunning systems Riggs, Montana R. Hauck, Rüdiger Baker-Cook, Bethany I. Osborne, Rachel C. Pal, Amrit Terra, Maria T. Bethonico Sims, Gracie Urrutia, Andrea Orellana-Galindo, Leticia Reina, Marco DeVillena, Juan F. Bourassa, Dianna V. Poult Sci PROCESSING AND PRODUCT Increased consumer concern for animal welfare has led some poultry producers to alter their stunning methods from electrical to controlled atmosphere stunning. The potential for different impacts on meat quality between commercially applied controlled atmosphere stunning (CAS) and electrical stunning (ES) using current US parameters needs further evaluation. Three trials were conducted in a commercial broiler processing facility that uses separate processing lines for ES and CAS. Blood glucose concentrations were measured from broilers stunned by either CAS or ES at: 1) lairage, 2) pre-stunning, and 3) post-stunning, using a glucose monitor. Occurrence of visible wing damage was evaluated post-defeathering and breast fillet meat quality was evaluated through measurement of pH, color, and drip loss at deboning and after 24 h. Data were analyzed using GLM or chi-square with a significance at P ≤ 0.05 and means were separated by Tukey's HSD. Blood glucose concentrations (mg/dL) from CAS and ES birds were not different at lairage (284, 272, P = 0.2646) or immediately prior to stunning (274, 283, P = 0.6425). Following stunning and neck cut, circulating blood glucose from birds stunned by CAS was higher than ES (418, 259, P < 0.0001). CAS carcasses had more visible wing damage than ES carcasses (3.6%, 2.2%, P < 0.0001). Breast fillet pH was lower, L* was higher, and a* was lower at debone for CAS fillets (5.81, 54.65, 1.96) compared to ES fillets (5.92, 53.15, 2.31, P < 0.0001, P = 0.0005, P = 0.0303). Drip loss did not differ between breast fillets from CAS or ES broilers (4.83, 4.84; P = 0.0859). The implications of increased blood glucose concentration post-CAS are unknown and require further evaluation. However, the increase in visible wing damage observed post-defeathering from CAS carcasses indicated a need for equipment parameter adjustments during the process from stunning through defeathering when using CAS for broiler stunning. Although differences were observed in breast fillet attributes at deboning, these differences would have minimal practical application and were no longer present at 24 h. Overall, use of CAS in a commercial facility resulted in differences in subsequent product quality when compared to ES. Elsevier 2022-12-10 /pmc/articles/PMC9846002/ /pubmed/36640558 http://dx.doi.org/10.1016/j.psj.2022.102422 Text en © 2022 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle PROCESSING AND PRODUCT
Riggs, Montana R.
Hauck, Rüdiger
Baker-Cook, Bethany I.
Osborne, Rachel C.
Pal, Amrit
Terra, Maria T. Bethonico
Sims, Gracie
Urrutia, Andrea
Orellana-Galindo, Leticia
Reina, Marco
DeVillena, Juan F.
Bourassa, Dianna V.
Meat quality of broiler chickens processed using electrical and controlled atmosphere stunning systems
title Meat quality of broiler chickens processed using electrical and controlled atmosphere stunning systems
title_full Meat quality of broiler chickens processed using electrical and controlled atmosphere stunning systems
title_fullStr Meat quality of broiler chickens processed using electrical and controlled atmosphere stunning systems
title_full_unstemmed Meat quality of broiler chickens processed using electrical and controlled atmosphere stunning systems
title_short Meat quality of broiler chickens processed using electrical and controlled atmosphere stunning systems
title_sort meat quality of broiler chickens processed using electrical and controlled atmosphere stunning systems
topic PROCESSING AND PRODUCT
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9846002/
https://www.ncbi.nlm.nih.gov/pubmed/36640558
http://dx.doi.org/10.1016/j.psj.2022.102422
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