Ultrasound-assisted hydration of finger millet (Eleusine Coracana) and its effects on starch isolates and antinutrients

•Ultrasound-assisted hydration process was developed and optimized for finger millet.•Hydration was optimum at 65.73% amplitude, 26.13 min treatment and 1:3 grain-water ratio.•Phytate and tannin (antinutrients) were reduced by 66.98 and 62.83%, respectively.•Morphology, water binding capacity, and s...

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Veröffentlicht in:Ultrasonics sonochemistry 2021-05, Vol.73, p.105542-105542, Article 105542
Hauptverfasser: Yadav, Shweta, Mishra, Sabyasachi, Pradhan, Rama Chandra
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Sprache:eng
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Zusammenfassung:•Ultrasound-assisted hydration process was developed and optimized for finger millet.•Hydration was optimum at 65.73% amplitude, 26.13 min treatment and 1:3 grain-water ratio.•Phytate and tannin (antinutrients) were reduced by 66.98 and 62.83%, respectively.•Morphology, water binding capacity, and solubility of the isolated starch improved.•The ultrasound-assisted hydration is a better alternative for finger millet. Finger millet (Eleusine Coracana) is rich in nutrients and minerals. The iron and calcium contents are comparatively higher than other cereal crops. Finger millet also has some antinutrients such as tannins and phytates, that needs to be removed for maximum health benefits. Traditionally, these antinutrients are removed by the hydration process. The conventional hydration process is time cumbersome and often results in poor quality grains. Ultrasonication during hydration of finger millet could reduce the processing time and antinutrient content in finger millet. The ultrasound amplitude, treatment time, and grain to water ratio during hydration were optimized. An ultrasound amplitude of 66%, treatment time of 26 min, and a grain to water ratio of 1:3 resulted in best desirability parameters with a reduction in phytate and tannin contents of the finger millet by 66.98 and 62.83%, respectively. Ultrasonication during hydration increased the water binding capacity and solubility of the finger millet starch. XRD study of the starch isolates confirmed the increased crystallinity of the particles. FESEM of the starch isolates also confirmed that ultrasound-assisted hydration of finger millet resulted in the desired size reduction and homogeneous distribution of starch particles. The optimized ultrasound-assisted hydration could be adopted and scaled up for bulk processing of finger millets.
ISSN:1350-4177
1873-2828
DOI:10.1016/j.ultsonch.2021.105542