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Critical Reviews in Food Science and Nutrition Volume 57, 2017 - Issue 6
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Articles

Ultrahigh pressure extraction of bioactive compounds from plants—A review

Jun XiSchool of Chemical Engineering, Sichuan University, Chengdu, ChinaCorrespondence[email protected]
Pages 1097-1106 | Published online: 13 Feb 2017

References

  • Abah, S. E. and Egwari, L. O. (2011). Methods of extraction and antimicrobial susceptibility testing of plant extracts. Afr. J. Basic Appl. Sci. 3(5):205–209.
  • Altuner, E. M., Işlek, C., Çeter, T. and Alpas, H. (2012). High hydrostatic pressure extraction of phenolic compounds from Maclura pomifera fruits. Afr. J. Biotechnol. 11(4):930–937.
  • Brachet, A., Rudaz, S., Mateus, L., Christen, P. and Veuthey, J. (2001). Optimisation of accelerated solvent extraction of cocaine and benzoylecgonine from coca leaves. J. Sep. Sci. 24:865–873.
  • Butz, P., Koller, W. D., Tauscher, B. and Wolf, S. (1994). Ultra-high pressure processing of onions: chemical and sensory changes. LWT—Food Sci. Technol. 27:463–467.
  • Carabias-Martínez, R., Rodríguez-Gonzalo, E., Revilla-Ruiz, P. and Hernández-Méndez, J. (2005). Pressurized liquid extraction in the analysis of food and biological samples. J. Chromatogr. A. 1089:1–17.
  • Chan, C. H., Yusoff, R., Ngoh, G. C. and Kung, F. W. L. (2011). Microwave-assisted extractions of active ingredients from plants. J. Chromatogr. A. 1218:6213–6225.
  • Chen, R., Meng, F., Zhang, S. and Liu, Z. (2009a). Effects of ultrahigh pressure extraction conditions on yields and antioxidant activity of ginsenoside from ginseng. Sep. Purif. Technol. 66:340–346.
  • Chen, L., Wang, H., Zeng, Q., Xu, Y., Sun, L., Xu, H. and Ding, L. (2009b). On-line coupling of solid-phase extraction to liquid chromatography - a review. J. Chromatogr. Sci. 47:614–623.
  • Choi, Y. H., Kim, J., Jeon, S. H., Yoo, K. P. and Lee, H. K. (1998). Optimum SFE Condition for Lignans of Schisandra chinensis Fruits. Chromatographia. 48(9/10):695–699.
  • Ciurlia, L., Bleve, M. and Rescio, L. (2009). Supercritical carbon dioxide co-extraction of tomatoes (Lycopersicum esculentum L.) and hazelnuts (Corylus avellana L.): A new procedure in obtaining a source of natural lycopene. J. Supercrit. Fluid. 49:338–344.
  • Corrales, M., Avelina, F. G., Peter, B. and Bernhard, T. (2009). Extraction of anthocyanins from grape skins assisted by high hydrostatic pressure. J. Food Eng. 90(4):415–421.
  • Guo, X. F., Han, D. M., Xi, H. P., Rao, L., Liao, X. J., Hu, X. S. and Wu, J. H. (2012). Extraction of pectin from navel orange peel assisted by ultra-high pressure, microwave or traditional heating: a comparison. Carbohyd. Polym. 88(2):441–448.
  • Hamburger, M., Baumann, D. and Adler, S. (2004). Supercritical carbon dioxide extraction of selected medicinal plants - Effects of high pressure and added ethanol on yield of extracted substances. Phytochem. Analysis. 15:46–54.
  • Ji, H., Zhang, L., Du, A., Yang, M. and Wang, Q. (2011). Effects of ultrahigh pressure extraction conditions on yields and antioxidant activities of flavonoid from Laoying tea, Int. J. Food Eng. 7(5):1–18.
  • Joo, C. G., Lee, K. H., Park, C. and Lee, B. C. (2011). Antioxidative activities and composition analysis of Pinus densiflora root by ultrahigh pressure extraction. J. Ind. Eng. Chem. 17:712–716.
  • Joo, C. G., Lee, K. H. and Park, C. (2012). Correlation of increased antioxidation with the phenolic compound and amino acids contents of Camellia sinensis leaf extracts following ultra high pressure extraction. J. Ind. Eng. Chem. 18(2):623–628.
  • Knorr, D. (1999). Process assessment of high pressure processing of foods: an overview. In: Processing Foods: Quality Optimisation and Process Assessment. pp. 249–267, Oliveira, F. A. R., Oliveira Jorge C., Eds., CRC Press, Boca Raton, FL, USA.
  • Lee, H. J. and Kim, C. Y. (2010). Simultaneous determination of nine lignans using pressurized liquid extraction and HPLC-DAD in the fruits of Schisandra chinensis. Food Chem. 120:1224–1228.
  • Lee, H. S., Lee, H. J., Yu, H. J., Ju, D. W., Kim, Y., Kim, C. T., Kim, C. J., Cho, Y. J., Kim, N., Choi, S. Y. and Suh, H. J. (2011). A comparison between high hydrostatic pressure extraction and heat extraction of ginsenosides from ginseng (Panax ginseng CA Meyer). J. Sci. Food Agric. 8:1466–1473.
  • Liao, G., Liu, J., He, S., Chen, J. and Zhang, Z., (2012). Optimization for ultrahigh pressure extraction of berberine from Cortex Phellodendri by central composite design-response surface methodology, J. Medicina. Plant. Res. 6(23):3963–3970.
  • Liu, C. J., Zhang, S. Q., Wu, H., Wang, C. Z. and Zhang, L. L. (2006). Application of ultrahigh pressure technology in Schisandra chinensis Baill beverage processing. Tran. Chinese Soc. Agric. Eng. 22(6):227–229.
  • Liu, F., Wang, D., Liu, W., Wang, X., Bai, A. and Huang, L. (2013a). Ionic liquid-based ultrahigh pressure extraction of five tanshinones from Salvia miltiorrhiza Bunge. Sep. Purif. Technol. 110:86–92.
  • Liu, S., Chen,Y., Gu, L., Li, Y., Wang, B., Hao, J., Zhu, H., Li, H., Yang S. and Kitanaka, S. (2013b). Effects of ultrahigh pressure extraction conditions on yields of berberine and palmatine from cortex Phellodendri amurensis, Anal. Methods. 5:4506–4512.
  • Luengthanaphol, S., Mongkholkhajornsilp, D., Douglas, S., Douglas, P. L., Pengsopa, L. and Pongamphai, S. (2004). Extraction of antioxidants from sweet Thai tamarind seed coat—Preliminary experiments. J. Food Eng. 63:247–252.
  • Mustafa, A. and Turner, C. (2011). Pressurized liquid extraction as a green approach in food and herbal plants extraction: A review. Anal. Chim. Acta. 703:8–18.
  • Noble, le. W. J. (1988). Organic High Pressure Chemistry. Elsevier, Amsterdam.
  • Ong, E. S., Cheong, J. S. H. and Goh, D. (2006). Pressurized hot water extraction of bioactive or marker compounds in botanicals and medicinal plant materials. J. Chromatogr. A. 1112:92–102.
  • Prasad, K. N., Yang, B., Zhao, M., Wei, X., Jiang, Y. and Chen, F. (2009). High pressure extraction of corilagin from longan (Dimocarpus longan Lour.) fruit pericarp. Sep. Purif. Technol. 70:41–45.
  • Richard, J. S. (1992). High Pressure Phase Behaviour of Multicomponent Fluid Mixtures. Elsevier, Amsterdam.
  • Richter, B. E., Jones, B. A., Ezzell, J. L., Porter, N. L., Avdalovic, N. and Pohl, C. (1996). Accelerated solvent extraction: a technique for sample preparation. Anal. Chem. 68(6):1033–1039.
  • Sahena, F., Zaidul, I. S. M., Jinap, S., Karim, A. A., Abbas, K. A., Norulaini, N. A. N. and Omar, A. K. M. (2009). Application of supercritical CO2 in lipid extraction-A review. J. Food Eng. 95:240–253.
  • Saldana, M. D. A., Temelli, F., Guigard, S. E., Tomberli, B. and Gray, C. G. (2010). Apparent solubility of lycopene and β-carotene in supercritical CO2, CO2 +ethanol and CO2 + canola oil using dynamic extraction of tomatoes. J. Food Eng. 99:1–8.
  • Sanchez-Moreno, C., Plaza, L., de Ancos, B. and Cano, M. P. (2004). Effect of combined treatments of high-pressure and natural additives on carotenoid extractability and antioxidant activity of tomato puree (Lycopersicum esculentum Mill.). Eur. Food Res. Technol. 219:151–160.
  • Sasidharan, S., Chen, Y., Saravanan, D., Sundram, K M. and Latha, L Y. (2011). Extraction, isolation and characterization of bioactive compounds from plants extracts. Afr. J. Tradit. Complement. Altern. Medicine. 8(1):1–10.
  • Shi, J., Yi, C., Xue, S. J., Jiang, Y., Ma, Y. and Li, D. (2009). Effects of modifiers on the profile of lycopene extracted from tomato skins by supercritical CO2. J. Food Eng. 93:431–436.
  • Vilegas, J. H. Y., de Marchi, E. and Lancas, F. M. (1997). Extraction of low-polarity compounds (with emphasis on coumarin and kaurenoic acid) from Mikania glomerata (‘Guaco’) leaves. Phytochem. Analysis. 8:266–270.
  • Vilkhu, K., Mawson, R., Simons, L. and Bates, D. (2008). Applications and opportunities for ultrasound assisted extractionin the food industry—a review. Innov. Food Sci. Emerg. 9:161–169.
  • Xi, J. (2006). Effect of high pressure processing on the extraction of lycopene in tomato paste waste. Chem. Eng. Technol. 29(6):736–739.
  • Xi, J. (2009). Caffeine extraction from green tea leaves assisted by high pressure processing. J. Food Eng. 94:105–109.
  • Xi, J., Shen, D. J., Li, Y. and Zhang, R. (2011a). Micromechanism of ultrahigh pressure extraction of active ingredients from green tea leaves. Food Control. 22(8):1473–1476.
  • Xi, J., Shen, D. J., Li, Y. and Zhang, R. (2011b). Ultrahigh pressure extraction as a tool to improve the antioxidant activities of green tea extracts. Food Res. Int. 44:2783–2787.
  • Xi, J., Zhao, S., Lu, B., Zhang, R., Li, Y., Shen, D. and Zhou, G. (2010). Separation of major catechins from green tea by ultrahigh pressure extraction. Int. J. Pharmaceut. 386:229–231.
  • Xi, J., Shen, D., Zhao, S., Lu, B., Li, Y. and Zhang, R., (2009). Characterization of polyphenols from green tea leaves using a high hydrostatic pressure extraction. Int. J. Pharmaceut. 382:139–143.
  • Xi, J. and Zhang, S. (2007). Antioxidant activity of ethanolic extracts of propolis by high hydrostatic pressure extraction. Int. J. Food Sci. Tech. 42:1350–1356.
  • Xi, J. and Wang, B. S. (2013). Optimization of ultrahigh-pressure extraction of polyphenolic antioxidants from green tea by response surface methodology. Food Bioprocess Tech. 6:2538–2546.
  • Yan, H. X. (2002). Separation Engineering. China Petrochemical Press, Beijing.
  • Zhang, H. F., Yang, X. H. and Wang, Y. (2011a). Microwave assisted extraction of secondary metabolites from plants: Current status and future directions. Trends Food Sci. Tech. 22:672–688.
  • Zhang, S. T., Wang, Z. Y., Cheng, G. H., Wang, T. S., Ni, Z. and Lin, J. M. (2011b). Optimization for ultra high pressure extraction of Scutellaria barbata by central composite design response surface methodology. Afr. J. Biotechnol. 10(65):14637–14643.
  • Zhang, S. T., Wang, Z. Y., Wang, T. S., Ni, Z., Li, M. X. and Lin, J. M. (2012). Optimization of central composite design-response surface methodology in ultra high pressure extraction of Scutellaria baicalensis. J. Medicina. Plant. Res. 6(3):373–378.
  • Zhang, S., Xi, J. and Wang, C. (2005). High hydrostatic pressure extraction of flavonoids from propolis. J. Chem. Technol. Biot. 80:50–54.
  • Zhu, Q., Liu, F., Xu, M., Lin, X. and Wang, X. (2012). Ultrahigh pressure extraction of lignan compounds from Dysosma versipellis and purification by high-speed counter-current chromatography. J. Chromatogr. B. 905:145–149.

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