Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026837 (muscle rigidity)
 1,077 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Halothane screening has been used in the swine industry to identify animals susceptible to stress and prone to developing pale, soft, exudative (PSE) meat. This study evaluated the ability of halothane to identify stress-susceptible turkeys prone to developing PSE meat when reared to market age and transported before slaughter. Male Nicholas turkeys (n = 1,286) were exposed to 3% halothane for 5 min at 4 wk of age in two trials. Birds were classified as halothane sensitive (HAL+) or halothane nonresponder (HAL-), in which HAL+ birds showed signs of muscle rigidity in the legs upon removal from halothane gas, and HAL- birds showed no stiffness response. Approximately 3.5% (45) of the turkeys were HAL+. All HAL+ birds and an equal number of HAL- birds were grown until 20 wk of age. Immediately prior to slaughter, all birds were transported in coops on a flatbed trailer for 2 h and then immediately slaughtered upon arrival at the processing plant. Breast muscle pH (0, 1.5, and 24 h postmortem) and L* value (1.5 h and 24 h postmortem) were measured on the fillets. Drip loss and cook loss were also determined on marinated and nonmarinated breast fillets from each carcass. There were no significant mean differences in any parameter measured between the HAL+ and HAL- turkeys. However, the HAL+ turkeys had a greater percentage of fillets with L* values >51 compared with the HAL- turkeys. These results suggest that either halothane response is only a limited predictor of PSE meat in turkeys or that transportation is not an appropriate stressor to induce the PSE condition.
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PMID:The use of halothane gas to identify turkeys prone to developing pale, exudative meat when transported before slaughter. 1082 70

Within the last several years, the poultry industry has seen a dramatic increase in the occurrence of pale, soft, and exudative (PSE) meat. This problem is known to be associated with a rapid decline in postmortem (PM) muscle pH, which results in inferior protein functionality similar to that found in PSE pork. Many factors such as seasonal changes have been known to influence the occurrence of PSE meat in poultry and swine. Halothane and succinylcholine have been used within the pork industry to identify animals susceptible to stress and prone to developing PSE meat. The mechanism for the triggering of the PSE gene in poultry has not been fully understood. Therefore, a study was conducted to determine the effectiveness of screening broilers with halothane to identify those prone to developing PSE meat. Succinylcholine was used before slaughter to serve as a triggering agent for the PSE condition. At 4 wk of age, broilers from 4 commercial strains (n = 1,000) were subjected to 3% halothane gas and classified as either halothane positive (HAL+) or negative (HAL-) based on muscle rigidity within the legs. Although halothane sensitivity varied slightly among the strains, approximately 14% of the birds overall were classified as HAL+. All HAL- birds (n = 163) and an equal number of HAL-birds (n = 163) in each strain were grown to market age (7 wk) and were commercially processed. At the time of processing, half of the HAL+ and HAL- birds were injected intravenously with succinylcholine and were slaughtered at 0.25 h postinjection. Pectoralis muscle samples were collected at 0.25, 2, 5, and 24 h PM for the evaluation of rigor development (muscle pH) and meat quality (L* value, moisture, drip loss, and cook loss). Halothane sensitivity had no effect on rigor development, muscle color, or water-holding capacity in the 4 broiler strains. Although birds exhibited reactions to the halothane gas, the halothane sensitivity, along with the use of succinylcholine, was not able to identify birds prone to developing PSE meat.
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PMID:The use of halothane and succinylcholine to identify broilers prone to developing pale, soft, exudative meat. 1533 22