Effect of nanoprocessing on the physicochemical properties of bovine, porcine, chicken, and rabbit bone powders

Xue Li; Zhifei He; Jingbing Xu; Ling Zhang; Yexing Liang; Shixiong Yang; Zefu Wang; Dong Zhang; Feihu Gao; Hongjun Li

doi:10.1002/fsn3.2312

Food Science & Nutrition (Jul 2021)

Effect of nanoprocessing on the physicochemical properties of bovine, porcine, chicken, and rabbit bone powders

Xue Li,
Zhifei He,
Jingbing Xu,
Ling Zhang,
Yexing Liang,
Shixiong Yang,
Zefu Wang,
Dong Zhang,
Feihu Gao,
Hongjun Li

Affiliations

Xue Li: College of Food Science Southwest University Chongqing China
Zhifei He: College of Food Science Southwest University Chongqing China
Jingbing Xu: Chongqing Institute for Food and Drug Control Chongqing China
Ling Zhang: Agricultural Product Processing Institute Chongqing Academy of Agricultural Science Chongqing China
Yexing Liang: Agricultural Product Processing Institute Chongqing Academy of Agricultural Science Chongqing China
Shixiong Yang: Agricultural Product Processing Institute Chongqing Academy of Agricultural Science Chongqing China
Zefu Wang: College of Food Science Southwest University Chongqing China
Dong Zhang: College of Food Science Southwest University Chongqing China
Feihu Gao: Agricultural Product Processing Institute Chongqing Academy of Agricultural Science Chongqing China
Hongjun Li: College of Food Science Southwest University Chongqing China

DOI: https://doi.org/10.1002/fsn3.2312
Journal volume & issue: Vol. 9, no. 7
pp. 3580 – 3592

Abstract

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Abstract The chemical composition and hardness of bovine bone, porcine bone, chicken bone, and rabbit bone were compared, as well as the influence of nanoprocessing on the physicochemical characteristics of these bone powders. A series of nanofabrication processes led to an increase in bone minerals and the loss of protein and fat. The hardness of softened bovine bone was still the largest, whereas chicken and rabbit bones were relatively soft. There were no significant differences in the functional groups between nanoscale bone powders. Overall, nanomachining significantly reduced and homogenized the bone particle size and improved the color and release rate of calcium ions of bone powders at the same time; these effects were different for several bones. Nanoscale rabbit bone had higher comminution efficiency, as well as satisfactory nutritional value, color, and product yield, which supports its strong development potential.

Published in Food Science & Nutrition

ISSN: 2048-7177 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Technology: Home economics: Nutrition. Foods and food supply
Website: https://onlinelibrary.wiley.com/journal/20487177

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