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Review Article | Open Access

Effect of high-pressure steam sterilization on the stability of medicine and food homology oral liquid: from the perspective of chemical composition and physical phase

Xiao-Rong Wei1,Jun Tang1,Guo-Tao Xue1Fang-Yu Xiang1Ding-Kun Zhang1,2Meng-Qi Li3San-Hu Fan4Tai-Gang Mo4Jun-Zhi Lin5( )Hao-Zhou Huang6( )Li Han1( )
State Key Laboratory of Southwestern Chinese Medicine Resources, Pharmacy School, Chengdu University of Traditional Chinese Medicine, Chengdu 611137, China
Sichuan Provincial Engineering Research Center of Innovative Re-development of Famous Classical Formulas, Tianfu TCM Innovation Harbour, Chengdu University of Traditional Chinese Medicine, Pengzhou 611900, China
Pharmacy department, Sichuan Nursing Vocational College, Chengdu 610100, China
Sanajon Pharmaceutical Group, Chengdu 610000, China
TCM Regulating Metabolic Diseases Key Laboratory of Sichuan Province, Hospital of Chengdu University of Traditional Chinese Medicine, Chengdu 610072, China
State key Laboratory of Southwestern Chinese Medicine Resources, Innovative Institute of Chinese Medicine and Pharmacy, Chengdu University of Traditional Chinese Medicine, Chengdu 611137, China

Xiao-Rong Wei and Jun Tang contributed equally to this work.

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Highlights

(1) Providing a comprehensive review of the instability phenomena of MFHOL and its novel formulations after high-temperature steam sterilization.

(2) Systematically analyze the instability mechanism of MFHOL after high-temperature steam sterilization from the perspective of physical phase and chemical composition transition.

(3) Exploring advanced, reliable sterilization methods, and their potential applications and scenarios in the industrial production of MFHOL.

Abstract

Oral liquid has the advantages of large drug loading, simple preparation and rapid effect. The substances of medicine and food homology (SMFH) are mostly developed into the form of oral liquid and prepared by high-temperature steam sterilization (HPSS). However, due to the complex composition of the solution, it is easy to be affected by HPSS and produce a series of unstable phenomena, which has become the key to hinder the development of the medicine and food homology oral liquid (MFHOL). Based on the characteristics of HPSS, this paper analyzed the chemical composition and physical phase interaction in the solution, discussed the mechanism and influencing factors of MFHOL instability induced by this method, as well as put forward feasible future solutions. Through the analysis and summary of the literature on oral liquid instability, it was found that HPSS can cause dramatic changes in the chemical composition of MFHOL, lead to changes of the physical phase, as well as produce a series of chain reactions, which seriously affect its stability. At the same time, this paper introduced the new sterilization technology that can be applied to the production of MFHOL in the future, put forward the personalized sterilization program and the establishment of intelligent continuous sterilization system according to the characteristics of SMFH. So as to provide the corresponding theoretical basis for the efficient and reasonable sterilization of MFHOL, in order to promote its further development.

Graphical Abstract

This article reviewed the unstable phenomena that occur in MFHOL and their novel application forms following high-pressure steam sterilization. The mechanisms behind these instabilities are discussed from the perspectives of physical phase transitions and chemical composition. Additionally, we explored the potential applications and scenarios of advanced and reliable sterilization methods in the industrial production of MFHOL.

References

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Food & Medicine Homology
Article number: 9420090

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Cite this article:
Wei X-R, Tang J, Xue G-T, et al. Effect of high-pressure steam sterilization on the stability of medicine and food homology oral liquid: from the perspective of chemical composition and physical phase. Food & Medicine Homology, 2026, 3(2): 9420090. https://doi.org/10.26599/FMH.2026.9420090

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Received: 07 September 2024
Revised: 01 November 2024
Accepted: 02 November 2024
Published: 21 February 2025
© National R & D Center for Edible Fungus Processing Technology 2025. Published by Tsinghua University Press.

This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).