Hydrochloric acid‐modified high‐purity soybean insoluble dietary fiber from Okara attenuates NO2 induced hepatic and renal injury in mice DOI Open Access

Ruining Zhang,

Jinyu Wang, Yi Wang

et al.

Journal of Food Science, Journal Year: 2025, Volume and Issue: 90(3)

Published: March 1, 2025

Nitrite, a toxic substance, has been shown to adsorb and reduce organismal damage when natural adsorbents are used. Okara, due its unique structure adsorption properties, is one of the most eco-friendly efficient adsorbents, naturally reducing nitrite-induced biotoxicity without side effects. Consequently, six groups Kunming (KM) mice (n = 10) were comprehensively evaluated through tests for identifying physicochemical properties physiological indexes. Additionally, effects high-purity soybean insoluble dietary fiber from Okara (HPSIDF) hydrochloric acid-modified (HCl-HPSIDF) on toxicity explored ultimately determine their bioavailability potentials. Results indicated 1.35-fold increase in water-holding capacity, 1.32-fold oil-holding 1.22-fold water-swelling capacity. These HCl-HPSIDF enhanced improve quality. Acid treatment increased HCl-HPSIDF's NO2 -removal rate by 20.87% compared HPSIDF capacity 42.5%. The average particle size was reduced 32.82%, increasing - contact with sites enhancing improvements changes performance support use as natural, side-effect-free adsorbent nitrite, acid functionality enabling application adsorbents.

Language: Английский

Hydrochloric acid‐modified high‐purity soybean insoluble dietary fiber from Okara attenuates NO2 induced hepatic and renal injury in mice DOI Open Access

Ruining Zhang,

Jinyu Wang, Yi Wang

et al.

Journal of Food Science, Journal Year: 2025, Volume and Issue: 90(3)

Published: March 1, 2025

Nitrite, a toxic substance, has been shown to adsorb and reduce organismal damage when natural adsorbents are used. Okara, due its unique structure adsorption properties, is one of the most eco-friendly efficient adsorbents, naturally reducing nitrite-induced biotoxicity without side effects. Consequently, six groups Kunming (KM) mice (n = 10) were comprehensively evaluated through tests for identifying physicochemical properties physiological indexes. Additionally, effects high-purity soybean insoluble dietary fiber from Okara (HPSIDF) hydrochloric acid-modified (HCl-HPSIDF) on toxicity explored ultimately determine their bioavailability potentials. Results indicated 1.35-fold increase in water-holding capacity, 1.32-fold oil-holding 1.22-fold water-swelling capacity. These HCl-HPSIDF enhanced improve quality. Acid treatment increased HCl-HPSIDF's NO2 -removal rate by 20.87% compared HPSIDF capacity 42.5%. The average particle size was reduced 32.82%, increasing - contact with sites enhancing improvements changes performance support use as natural, side-effect-free adsorbent nitrite, acid functionality enabling application adsorbents.

Language: Английский

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