AI Article Synopsis

  • The study addresses the challenges of β-carotene's poor solubility and low bioavailability by developing a new dry powder supplement that combines solid dispersion and floating gel technology to improve its release and absorption.
  • Validation of an HPLC method was conducted to accurately quantify β-carotene in different solvents, ensuring it meets international guidelines for precision and accuracy.
  • The validated HPLC method demonstrated high sensitivity and linearity, making it applicable for analyzing β-carotene in both the supplement formulation and in vitro release studies, which could enhance drug delivery systems.

Article Abstract

Despite the health benefits of β-carotene, its activity has been hampered by poor aqueous solubility and low oral bioavailability. Therefore, it is crucial to develop a new approach to overcome these problems. In this study, we developed a dry powder supplement comprising a combination approach of solid dispersion and floating gel in situ of β-carotene to enhance the solubility and achieve sustained release behavior. Here, we validated an HPLC method to quantify β-carotene as per the guidelines from ICH. The analytical method was validated in methanol and Fasted-State Simulated Gastric Fluid (FaSSGF) to determine β-carotene in recovery and in vitro release studies, respectively. A simple HPLC method using Xselect CSH™ C18 column (Waters, 3.0 × 150 mm) with the particle size of 3.5 µm was validated with 100% acetonitrile as the mobile phase. The calibration curves were found to be linear with LLOQ values < 3 ng/mL. Importantly, the method was accurate and precise without a carry over effect and successfully applied to determine the β-carotene concentration in the content analysis of the compound and in vitro drug release from floating gel in situ laden with solid dispersion formulations. The sensitivity of the method obtained here offers a wide potential use in various applications in drug delivery systems.

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Source
http://dx.doi.org/10.1016/j.jpba.2022.115041DOI Listing

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