AI Article Synopsis
- Current diagnostic methods for muscle disorders in chickens are subjective and time-consuming, leading to a need for quantitative measures in live birds.
- This study used untargeted metabolomics to identify plasma metabolites linked to wooden breast and white striping in broiler chickens, finding 98 and 44 metabolites associated with each condition, respectively.
- A support vector machine model achieved 94% accuracy in categorizing wooden breast severity using just 6 key metabolites, with 3-methylhistidine being the most notable for its predictive accuracy.
Article Abstract
Current diagnostic methods for wooden breast and white striping, common breast muscle myopathies of modern commercial broiler chickens, rely on subjective examinations of the pectoralis major muscle, time-consuming microscopy, or expensive imaging technologies. Further research on these disorders would benefit from more quantitative and objective measures of disease severity that can be used in live birds. To this end, we utilized untargeted metabolomics alongside two statistical approaches to evaluate plasma metabolites associated with wooden breast and white striping in 250 male commercial broiler chickens. First, mixed linear modeling was employed to identify metabolites with a significant association with these muscle disorders and found 98 metabolites associated with wooden breast and 44 metabolites associated with white striping (q-value < 0.05). Second, a support vector machine was constructed using stepwise feature selection to determine the smallest subset of metabolites with the highest categorization accuracy for wooden breast. The final support vector machine achieved 94% accuracy using only 6 metabolites. The metabolite 3-methylhistidine, which is often used as an index of myofibrillar breakdown in skeletal muscle, was the top metabolite for both wooden breast and white striping in our mixed linear model and was also the metabolite with highest marginal prediction accuracy (82%) for wooden breast in our support vector machine. Overall, this study identified a candidate set of metabolites for an objective measure of wooden breast or white striping severity in live birds and expanded our understanding of these muscle disorders.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9512222 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0274208 | PLOS |
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