Frontiers in Pharmacology (Sep 2019)

Exploration on the Approaches of Diverse Sedimentations in Polyphenol Solutions: An Integrated Chain of Evidence Based on the Physical Phase, Chemical Profile, and Sediment Elements

  • Hao-zhou Huang,
  • Hao-zhou Huang,
  • Bi Feng,
  • Bi Feng,
  • Jun-zhi Lin,
  • Sheng-yu Zhao,
  • Sheng-yu Zhao,
  • Hong-yan Ma,
  • Hong-yan Ma,
  • Hai-yan Liu,
  • Hai-yan Liu,
  • San-hu Fan,
  • San-hu Fan,
  • Zhen-feng Wu,
  • Run-chun Xu,
  • Run-chun Xu,
  • Li Han,
  • Li Han,
  • Ding-kun Zhang,
  • Ding-kun Zhang

DOI
https://doi.org/10.3389/fphar.2019.01060
Journal volume & issue
Vol. 10

Abstract

Read online

Triphala is a famous herbal formula originated in Asia and is popular in America. Due to the high abundance of polyphenols, its oral liquid is unstable and easy to cause precipitate, which results in the loss of activities. However, complex composition and unclear precipitation mechanism hinders the improvement of stability. In this study, the accumulation of precipitation in the storage and its effect on activity were investigated. Then, an integrated chain of evidence was proposed based on the physical phase, chemical profile, and sediment elements. The results showed that antioxidant activity decreased from IC50 115 to 146 μl before and after 90 days of storage, and the anti-fatigue activity decreased from 30.54 to 28.47 min. Turbiscan Lab Expert observed that particle size increased from 106 to 122 nm, and the turbiscan stability index increased from 0 to 14, which indicated that its stability is continuously decreasing. High performance liquid chromatography (HPLC) fingerprint coupled with multivariate statistical analysis identified that these chemical markers changed significantly, such as gallic acid, catechins, and ellagic acid. Loss of catechins tends to be involved in the formation of phlobaphene precipitation. The fact that the new-born ellagic acid in precipitation (0.47 mg/ml) is significantly higher than that reduced in solution (0.25 mg/ml) indicates that it is not only derived from colloid aging. Microscopic observation combined with energy spectrum analysis further confirmed the existence of the multi-precipitates. The crystalline precipitate is ellagic acid, and the other is phlobaphene. In conclusion, based on the evidence chain analysis, this study revealed a systematic change of the whole polyphenol solution system. It provides a novel perspective to understand the sedimentation formation of polyphenol solution, which is an important theoretical contribution to the preparation of polyphenol solutions.

Keywords