Effect of ultrasound-assisted sodium bicarbonate treatment on gel characteristics and water migration of reduced-salt pork batters

[Display omitted] •Ultrasound-assisted NaHCO3 increased pH, SSP, cooking yield of reduced-salt batter.•Ultrasound-assisted NaHCO3 improved the texture and microstructure of batters.•The mobility of water was reduced after treated with ultrasound-assisted NaHCO3.•Ultrasound-assisted NaHCO3 enabled re...

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Published inUltrasonics sonochemistry Vol. 89; p. 106150
Main Authors Kang, Zhuang-Li, Shang, Xue-Yan, Li, Yan-Ping, Ma, Han-Jun
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.09.2022
Elsevier
Subjects
Microstructure
Relaxation time
Short Communication
Sodium bicarbonate
Textural properties
Ultrasound
Sodium bicarbonate
Textural properties
Microstructure
Ultrasound
Relaxation time
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Abstract [Display omitted] •Ultrasound-assisted NaHCO3 increased pH, SSP, cooking yield of reduced-salt batter.•Ultrasound-assisted NaHCO3 improved the texture and microstructure of batters.•The mobility of water was reduced after treated with ultrasound-assisted NaHCO3.•Ultrasound-assisted NaHCO3 enabled reduced-salt batters to have good gel properties. To study the potential usefulness of ultrasound (0, 30, and 60 min) and sodium bicarbonate (0 % and 0.2 %) combination on the reduced-salt pork batters, the changes in water holding capacity, gel properties, and microstructure were investigated. The pH, salt-soluble proteins solubility, cooking yield, and b* values of reduced-salt pork batters significantly increased (P < 0.05) with the increase in ultrasound time and the addition of sodium bicarbonate, leading to the hardness, springiness, cohesiveness, and chewiness significantly increased (P < 0.05). Furthermore, the use of ultrasound-assisted sodium bicarbonate treatment caused the reduced-salt pork batters to form a typical spongy structure with more evenly cavities. Due to the initial relaxation time of T21 and T22 were shorter, and the peak ratio of P21 was increased and P22 was decreased after ultrasound-assisted sodium bicarbonate treatment, implying that the mobility of water was reduced. Thus, the use of ultrasound-assisted sodium bicarbonate treatment enabled reduced-salt pork batters to have better gel characteristics and higher cooking yield.
AbstractList To study the potential usefulness of ultrasound (0, 30, and 60 min) and sodium bicarbonate (0 % and 0.2 %) combination on the reduced-salt pork batters, the changes in water holding capacity, gel properties, and microstructure were investigated. The pH, salt-soluble proteins solubility, cooking yield, and b* values of reduced-salt pork batters significantly increased (P < 0.05) with the increase in ultrasound time and the addition of sodium bicarbonate, leading to the hardness, springiness, cohesiveness, and chewiness significantly increased (P < 0.05). Furthermore, the use of ultrasound-assisted sodium bicarbonate treatment caused the reduced-salt pork batters to form a typical spongy structure with more evenly cavities. Due to the initial relaxation time of T21 and T22 were shorter, and the peak ratio of P21 was increased and P22 was decreased after ultrasound-assisted sodium bicarbonate treatment, implying that the mobility of water was reduced. Thus, the use of ultrasound-assisted sodium bicarbonate treatment enabled reduced-salt pork batters to have better gel characteristics and higher cooking yield.To study the potential usefulness of ultrasound (0, 30, and 60 min) and sodium bicarbonate (0 % and 0.2 %) combination on the reduced-salt pork batters, the changes in water holding capacity, gel properties, and microstructure were investigated. The pH, salt-soluble proteins solubility, cooking yield, and b* values of reduced-salt pork batters significantly increased (P < 0.05) with the increase in ultrasound time and the addition of sodium bicarbonate, leading to the hardness, springiness, cohesiveness, and chewiness significantly increased (P < 0.05). Furthermore, the use of ultrasound-assisted sodium bicarbonate treatment caused the reduced-salt pork batters to form a typical spongy structure with more evenly cavities. Due to the initial relaxation time of T21 and T22 were shorter, and the peak ratio of P21 was increased and P22 was decreased after ultrasound-assisted sodium bicarbonate treatment, implying that the mobility of water was reduced. Thus, the use of ultrasound-assisted sodium bicarbonate treatment enabled reduced-salt pork batters to have better gel characteristics and higher cooking yield.
[Display omitted] •Ultrasound-assisted NaHCO3 increased pH, SSP, cooking yield of reduced-salt batter.•Ultrasound-assisted NaHCO3 improved the texture and microstructure of batters.•The mobility of water was reduced after treated with ultrasound-assisted NaHCO3.•Ultrasound-assisted NaHCO3 enabled reduced-salt batters to have good gel properties. To study the potential usefulness of ultrasound (0, 30, and 60 min) and sodium bicarbonate (0 % and 0.2 %) combination on the reduced-salt pork batters, the changes in water holding capacity, gel properties, and microstructure were investigated. The pH, salt-soluble proteins solubility, cooking yield, and b* values of reduced-salt pork batters significantly increased (P < 0.05) with the increase in ultrasound time and the addition of sodium bicarbonate, leading to the hardness, springiness, cohesiveness, and chewiness significantly increased (P < 0.05). Furthermore, the use of ultrasound-assisted sodium bicarbonate treatment caused the reduced-salt pork batters to form a typical spongy structure with more evenly cavities. Due to the initial relaxation time of T21 and T22 were shorter, and the peak ratio of P21 was increased and P22 was decreased after ultrasound-assisted sodium bicarbonate treatment, implying that the mobility of water was reduced. Thus, the use of ultrasound-assisted sodium bicarbonate treatment enabled reduced-salt pork batters to have better gel characteristics and higher cooking yield.
• Ultrasound-assisted NaHCO 3 increased pH, SSP, cooking yield of reduced-salt batter. • Ultrasound-assisted NaHCO 3 improved the texture and microstructure of batters. • The mobility of water was reduced after treated with ultrasound-assisted NaHCO 3 . • Ultrasound-assisted NaHCO 3 enabled reduced-salt batters to have good gel properties. To study the potential usefulness of ultrasound (0, 30, and 60 min) and sodium bicarbonate (0 % and 0.2 %) combination on the reduced-salt pork batters, the changes in water holding capacity, gel properties, and microstructure were investigated. The pH, salt-soluble proteins solubility, cooking yield, and b* values of reduced-salt pork batters significantly increased ( P  < 0.05) with the increase in ultrasound time and the addition of sodium bicarbonate, leading to the hardness, springiness, cohesiveness, and chewiness significantly increased ( P  < 0.05). Furthermore, the use of ultrasound-assisted sodium bicarbonate treatment caused the reduced-salt pork batters to form a typical spongy structure with more evenly cavities. Due to the initial relaxation time of T 21 and T 22 were shorter, and the peak ratio of P 21 was increased and P 22 was decreased after ultrasound-assisted sodium bicarbonate treatment, implying that the mobility of water was reduced. Thus, the use of ultrasound-assisted sodium bicarbonate treatment enabled reduced-salt pork batters to have better gel characteristics and higher cooking yield.
To study the potential usefulness of ultrasound (0, 30, and 60 min) and sodium bicarbonate (0 % and 0.2 %) combination on the reduced-salt pork batters, the changes in water holding capacity, gel properties, and microstructure were investigated. The pH, salt-soluble proteins solubility, cooking yield, and b* values of reduced-salt pork batters significantly increased (P < 0.05) with the increase in ultrasound time and the addition of sodium bicarbonate, leading to the hardness, springiness, cohesiveness, and chewiness significantly increased (P < 0.05). Furthermore, the use of ultrasound-assisted sodium bicarbonate treatment caused the reduced-salt pork batters to form a typical spongy structure with more evenly cavities. Due to the initial relaxation time of T21 and T22 were shorter, and the peak ratio of P21 was increased and P22 was decreased after ultrasound-assisted sodium bicarbonate treatment, implying that the mobility of water was reduced. Thus, the use of ultrasound-assisted sodium bicarbonate treatment enabled reduced-salt pork batters to have better gel characteristics and higher cooking yield.
ArticleNumber 106150
Author Ma, Han-Jun
Li, Yan-Ping
Shang, Xue-Yan
Kang, Zhuang-Li
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Keywords Sodium bicarbonate
Textural properties
Microstructure
Ultrasound
Relaxation time
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Snippet [Display omitted] •Ultrasound-assisted NaHCO3 increased pH, SSP, cooking yield of reduced-salt batter.•Ultrasound-assisted NaHCO3 improved the texture and...
To study the potential usefulness of ultrasound (0, 30, and 60 min) and sodium bicarbonate (0 % and 0.2 %) combination on the reduced-salt pork batters, the...
• Ultrasound-assisted NaHCO 3 increased pH, SSP, cooking yield of reduced-salt batter. • Ultrasound-assisted NaHCO 3 improved the texture and microstructure of...
To study the potential usefulness of ultrasound (0, 30, and 60 min) and sodium bicarbonate (0 % and 0.2 %) combination on the reduced-salt pork batters, the...
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StartPage 106150
SubjectTerms Microstructure
Relaxation time
Short Communication
Sodium bicarbonate
Textural properties
Ultrasound
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Title Effect of ultrasound-assisted sodium bicarbonate treatment on gel characteristics and water migration of reduced-salt pork batters
URI https://dx.doi.org/10.1016/j.ultsonch.2022.106150
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Volume 89
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