Investigation of thymoquinone stability in black seed oil alginate beads
Thymoquinone (TQ) is the main active compound in black seed oil (BSO) which has unacceptable taste. Many reports confirmed that TQ has medical uses, but very few reports have documented its quantification or stability after formulation. In addition, stability of pure TQ under different conditions...
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| Main Authors: | , , , , |
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| Format: | Article |
| Language: | English |
| Published: |
Association of Biotechnology and Pharmacy
2020
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| Subjects: | |
| Online Access: | http://irep.iium.edu.my/84711/1/84711_Investigation%20of%20thymoquinone.pdf http://irep.iium.edu.my/84711/ http://abap.co.in/proceedings-abstracts-international-research-conference-pharmaceutical-and-allied-sciences-ircpas-20 |
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| Institution: | Universiti Islam Antarabangsa Malaysia |
| Language: | English |
| Summary: | Thymoquinone (TQ) is the main active compound in black seed oil (BSO) which has
unacceptable taste. Many reports confirmed that TQ has medical uses, but very few reports
have documented its quantification or stability after formulation. In addition, stability of pure
TQ under different conditions was studied to confirm that TQ was unstable in aqueous
solutions, especially under alkaline environment. On the other hand, it is rarely to find reports
about stability of TQ in BSO or BSO formulations. However, one of the most strongly used
excipient in taste masking and improvement stability of the active compounds is alginate which
can fabricated as beads in the presence of calcium ions.This study aimed to encapsulate BSO
in alginate beads, and then to study stability of TQ in both forms of BSO and BSO-alginate
beads.BSO-alginate beads were fabricated in 1% w/v calcium chloride bath. Concentration of
BSO in the beads was 15% w/w. Aqueous solution of TQ, BSO, and BSO-alginate beads were
packed in glass containers, well closed and stored at 40°±2°C /75±5% RH for 30 days. After
specific time intervals (0, 15, and 30 days), the TQ content was analysed by using HPLC.The
results indicated a poor stability of TQ in aqueous solution. Concentration of TQ in the aqueous
solution was significantly (p0.05) decreased from 97.290.33 µg/mL at day 0 to 56.800.08
µg/mL at day 30. Moreover, concentration of TQ extracted from BSO showed a significant
decreasing (p0.05) from 2.11±0.02% at day 0 to 1.95±0.005% at day 30. On the other hand,
the stability of TQ in alginate beads containing BSO was highly improved (p0.05),
(1.65±0.03% at day 0 and 1.58±0.04% at day 30). TQ in BSO may undergo some oxidation
reaction during the period of storage in the stability chambers resulting in TQ degradation. On
the other hand, alginate beads act a barrier against TQ oxidation, prolonging its shelf-life. This
study suggests that BSO-alginate beads are stable in term of active principle and can be used
as a source to provide TQ due to the unsuitability of aqueous solutions to formulate TQ. |
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