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Type :article
Subject :Q Science (General)
Main Author :Saripah Salbiah Syed Abdul Azziz
Additional Authors :Yumi Zuhanis Has-Yun Hashim
Mohamad Akmal Mat Jamil
Parveen Jamal
Nur Aimi Aliah Zainurin
Title :Hydrodistillation and soxhlet extraction of agarwood leaf extract from aquilaria malaccensis
Place of Production :Tanjong Malim
Publisher :Fakulti Sains dan Matematik
Year of Publication :2019
Corporate Name :Universiti Pendidikan Sultan Idris

Abstract : Universiti Pendidikan Sultan Idris
Agarwood (A. malaccensis) is a valuable tree; highly sought after the resin and its essential oil. It also possesses bioactive compounds that are beneficial for health. However, less is focused on the agarwood leaf despite the recorded use in traditional medicine. As such, this present work focused on the screening of operational parameters of hydrodistillation and Soxhlet extraction of agarwood leaf extract (ALEX) with subsequent phytochemical and gas chromatography mass spectrometry (GCMS) analyses. Hydrodistillation failed to obtain any essential oil. Therefore, only Soxhlet extraction was further studied based on Plackett-Burman design generated using Design Expert software, version 6. The parameters studied were solvent type and volume, time, leaf type and particle size. Based on the ALEX yield obtained, solvent type was found to be the most significant parameters followed by solvent volume, particle size and time. Meanwhile leaf type was found to be the least influential parameter. Ethanol gave higher yield as compared to hexane. Run 2 gave the highest ALEX yield (121.34 ± 31.6 mg/g) and Run 4 gave the lowest yield (20.38 ± 4.1 mg/g). Based on phytochemical analysis, ALEX possess phenol, flavonoid, alkaloid, saponin and steroid compounds . GCMS analysis has identified a total of 50 compounds from ALEX in 12 experiments. Hexadecanoic acid was found to be the major compound in run 2 (highest yield) and phytol was found to be the major compound in run 4 (lowest yield). To this end, ALEX was succesfully obtained through Soxhlet extraction and the significant parameters can be further studied to achive optimal yield

References

1. De Castro, M. D. L. 2010. Soxhlet extraction?: Past and present panacea. Journal of Chromatography A, 1217(16), 2383–2389.

2. Ghani, A. 1998. Medicinal plants of Bangladesh. (pp. 78–83). Dhaka: Asiatic Society of Bangladesh.

3. Harbone, J. B. 2001. Phytochernical methods. (pp.111-113). Chapman and Hall Ltd: London.

4. Hashim, Y. Z. H-Y., Ismail, N. I. and Abbas, P. 2014. Analysis of chemical compounds of agarwood oil from different species by gas chromatography mass spectrometry (GCMS). IIUM Engineering Journal, 15(1), 55-60.

5. Hashim, Y. Z. H-Y., Kerr, P. G., Abbas, P., Mohd Salleh, H. 2016. Aquilaria spp. (agarwood) as source of health beneficial compounds: a review of traditional use, phytochemistry and pharmacology. Journal of Ethnopharmacol, 189, 331-60. 

6. Helen, L. Y. S., Rahim, A. A., Saad, B., Saleh, M. I., and Raja, P. B. 2014. Aquilaria crassna leaves extracts - A green corrosion inhibitor for mild steel in 1 M HCL medium. International Journal of Electrochemical Science, 9(2), 830–846.

7. Huda, A. W. N., Munira, M. A. S., Fitrya, S. D., Salmah, M. 2009. Antioxidant activity of Aquilaria malaccensis (Thymelaeaceae) leaves. Pharmacognosy Research, 1(5), 270-273.

8. Khalil, A. S., Rahim, A. A., Taha, K. K., Abdallah, K. B. 2013. Characterization of methanolic extracts of agarwood leaves. Journal of Applied and Industrial Sciences, 1(3), 78–88.

9. Lee, N. Y., Yunus, M. A., Idham, Z., Ruslan, M. S., Aziz, A. H., Irwansyah, N. 2016. Extraction and identification of bioactive compounds from agarwood leaves. In IOP Conference Series: Materials Science and Engineering, 162(1):012028. IOP Publishing.

10. Manar Eissa, Hashim, Y. Z. H-Y., Zainurin, N. A. A. 2018. Aquilaria malaccensis leaf as an alternative source of anti-inflammatory compounds. International Journal on Advanced Science, Engineering and Information Technology, 8(4-2), 1625-1632.

11. Samadi, M., Abidin, Z. Z., Yunus, R., Biak, D. R. A., Yoshida, H. and Lok, E. H. 2016. Assessing the kinetic model of hydro-distillation and chemical composition of Aquilaria malaccensis leaves essential oil. Chinese Journal of Chemical Engineering, 1–22. https://doi.org/10.1016/j.cjche.2016.09.006

12. Siddiqui, M. W., Prasad, K. and Bansal, V. 2016. Plant secondary metabolites: Biological and therapeutic significance. Boca Raton, USA: CRC Press.

13. Sofowora, A. 2005. Medicinal plants and traditional medicine in Africa. (pp.289). Spectrum Books Ltd: Ibadan. Nigeria.

14. Yufeng, L., Xiuwei, Y. and Tonghua, L. 2007. GC-MS Analysis of essential oil from the leaves of Aquilaria sinensis [J]. Modern Chinese Medicine, 8, p.004.

15. Zainurin, N. A. A., Hashim, Y. Z. H.-Y., Mohamed Azmin, N. F., Abbas, P. 2018. Agarwood leaf essential oil characterization and effects on MCF-7 breast cancer cells. International Journal on Advanced Science, Engineering and Information Technology, 8(4-2), 1604-1609. 

 


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