Combined Tumbling and Postmortem Aging to Improve Fresh Beef Quality, Palatability, and Proteolysis
Abstract
Tenderness is a key sensory trait influencing beef palatability. Tumbling is a value-adding process that has been extensively applied and studied within the realm of processed meats. Various post-harvest strategies to ensure fresh beef reaches acceptable levels of tenderness have been employed, often with the aim of physically disrupting myofibrillar structure or enhancing the rate and extent of postmortem proteolysis. One such method would be the application of postmortem aging; however, the effectiveness of aging on tenderization is well-known to differ throughout individual muscles of the beef carcass. For inherently tough cuts, physical interventions such as mechanical tenderization are often used, although several detriments to quality attributes may be induced. Further, some modern consumers prefer meat products with no added non-meat ingredients. An alternative method of applying tumbling in the absence of a brine solution followed by additional postmortem aging could be a practical means to facilitate tenderization while potentially minimizing detriments to other eating quality attributes.To evaluate the efficacy of tumbling without brine a method of beef tenderization, the process was first assessed in the longissimus lumborum muscle(n=9). In this study, muscles were allocated among 0, 60, and 90 minutes of tumbling, after which aging for 0, 7, and 14 days was conducted. Immediately after the application of the tumbling process, steaks from muscles that had been tumbled were considerably more tender (24.7 N and 21.6 N for 60 and 90 minutes, respectively) than non-tumbled controls (34.8 N). Steaks from the tumbled groups maintained greater instrumental tenderness throughout the course of the aging period. These results were supported by increases in myofibril fragmentation index, as well as increased troponin-T degradation during aging. However, cooking loss was increased in tumbled steaks, which could have implications for sensory juiciness. Considering this study demonstrated that tumbling without brine inclusion followed by postmortem aging resulted in profound changes to sensory traits, further study regarding its impacts on sensory attributes and proteolysis among different beef muscles was warranted.The following study evaluated the combined tumbling and aging process on the quality, palatability, and proteolytic attributes of beef longissimus lumborum and semitendinosus muscles (n=16). Muscle sections were allocated among 0, 40, 80, and 120 minutes of tumbling, as well as 0 or 10 days of subsequent aging. Regardless of aging duration, tumbling for any duration increased instrumental tenderness of the longissimus lumborum but not semitendinosus muscle. Similar to the previous study, increased cooking loss was induced through tumbling. In both muscles, obvious fragmentation of the myofibrillar structure with tumbling was observed through increases in myofibril fragmentation index and transmission electron microscopy. Tumbling with aging favored the degradation of myofibrillar proteins including troponin-T and desmin; however, calpain-1 autolysis appeared mostly unchanged. Neither tumbling nor aging influenced the amount and properties of collagen, which may indicate why the process did not influence instrumental tenderness of the semitendinosus despite myofibrillar fragmentation and degradation. Longissimus lumborummuscles tumbled for any durations were rated by consumers (n=120) to be more tender with greater overall liking than control steaks.
Degree
Ph.D.
Advisors
Mishra, Purdue University.
Subject Area
Aging|Analytical chemistry|Animal sciences|Chemistry
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