纳米载体
化学
积雪草
淀粉
食品科学
封装(网络)
保健品
多酚
纳米颗粒
控制释放
药物输送
纳米囊
环糊精
渣
抗性淀粉
变性淀粉
输送系统
动力学
功能性食品
赋形剂
花青素
生物利用度
作者
Soubhagya Tripathy,Prem Prakash Srivastav
出处
期刊:Food Chemistry
[Elsevier BV]
日期:2026-02-03
卷期号:507: 148202-148202
被引量:1
标识
DOI:10.1016/j.foodchem.2026.148202
摘要
This study reports a novel dual-polysaccharide nanocarrier system based on maize starch (MS) and β-cyclodextrin (β-CD) for the pH-responsive oral delivery of Centella asiatica leaf polyphenols (CALE). Thus, this work reported a synergistic MS/β-CD composite nanoparticle system that integrates starch gel-network entrapment with cyclodextrin inclusion complexation to protect polyphenols. The results demonstrate that polymer at a 2:1 MS/β-CD formulation yielded highly uniform nanoparticles (166.990 ± 11.475 nm) with exceptionally high encapsulation efficiency (84.828 ± 0.50%) and loading capacity (16.349 ± 0.35%), outperforming starch-only systems. Spectroscopic and thermal analyses confirmed the formation of amorphous, hydrogen-bond-stabilized nanocomposites, providing enhanced resistance to heat, light, ionic strength, and storage-induced degradation. Importantly, the nanoparticles exhibited a distinct gastrointestinal pH-responsive behavior, suppressing polyphenol release under gastric conditions while enabling targeted intestinal release. Release kinetics followed Zero-order and Korsmeyer-Peppas models, indicating a diffusion- and matrix-relaxation-controlled delivery mechanism that enables sustained bioactive availability. This study demonstrates for the starch-cyclodextrin nanohybrids can function as food-grade, pH-responsive delivery systems for polyphenols, offering a scalable and clean-label platform for functional foods and nutraceuticals with enhanced stability, bioaccessibility, and therapeutic performance.
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