Optimising High-Pressure Processing (HPP) for Optimal Total Phenolic and Flavonoid Content in Kelulut (Stingless Bee) Honey

Natural and Life Sciences Communications Pub Date : 2024-05-20 DOI:10.12982/nlsc.2024.034

Muhammad Faiz Razali, B. Talip, N. Adzahan, A. Sulaiman, Azeman Samiun, Noor Akhmazillah Mohd Fauzi

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Abstract

High-pressure processing (HPP) has the potential to enhance the total phenolic and flavonoid content (TPC and TFC) in Kelulut honey (KH). However, KH’s inherent variability possesses challenges in optimising these phytochemicals. This study hence explores the optimisation of KH through HPP, focusing on TPC and TFC. The Face-centered Central Composite Design (FC-CCD), involving two factors with three levels each (pressure of 200, 400, and 600 MPa, and time of 5, 10, and 15 min), was applied to investigate two response variables (total phenolic and flavonoid content). The optimisation identified the optimal parameters as 200 MPa for 15 min, with a desirability of 0.986, indicating precise modeling. Compared to other pressures (400 and 600 MPa) at common processing time (15 minutes), 200 MPa recorded higher TPC and TFC with differences of 25.71% to 30.92% and 13.78% to 14.19%, respectively. A verification step revealed that HPP-KH at 200 MPa for 15 minutes yielded a TPC of 15.278 ± 0.525 mg GAE/100 g and a TFC of 38.274 ± 1.980 mg RE/100 g, indicating the precise accuracy of the quadratic modeling. However, this discovery contradicts the consensus that pressures above 500 MPa increase TPC and TFC. Consequently, it underscores the need for tailored high-pressure strategies in KH processing, offering essential insights for industry applications and further research endeavors.

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优化高压加工（HPP）以优化克鲁鲁（无刺蜂）蜂蜜中的总酚类和类黄酮含量

高压加工（HPP）具有提高凯露露蜂蜜（KH）中总酚类和类黄酮含量（TPC 和 TFC）的潜力。然而，KH 固有的可变性给优化这些植物化学物质带来了挑战。因此，本研究通过 HPP 方法对 KH 进行优化，重点关注 TPC 和 TFC。研究采用了面心中心复合设计（FC-CCD），涉及两个因子，每个因子有三个水平（压力分别为 200、400 和 600 兆帕，时间分别为 5、10 和 15 分钟），以研究两个响应变量（总酚和类黄酮含量）。优化确定的最佳参数为 200 兆帕 15 分钟，可取性为 0.986，表明建模精确。在相同的加工时间（15 分钟）下，与其他压力（400 和 600 兆帕）相比，200 兆帕的 TPC 和 TFC 更高，分别为 25.71% 至 30.92% 和 13.78% 至 14.19%。验证步骤显示，HPP-KH 在 200 兆帕 15 分钟的条件下，TPC 为 15.278 ± 0.525 毫克 GAE/100 克，TFC 为 38.274 ± 1.980 毫克 RE/100 克，表明二次建模的精确性。然而，这一发现与 500 兆帕以上的压力会增加 TPC 和 TFC 的共识相矛盾。因此，它强调了在 KH 加工过程中采用量身定制的高压策略的必要性，为工业应用和进一步的研究工作提供了重要的启示。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Natural and Life Sciences Communications

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