Applied Sciences (May 2022)

Effects of Laser Irradiation at 488, 514, 532, 552, 660, and 785 nm on the Aqueous Extracts of <i>Plantago lanceolata</i> L.: A Comparison on Chemical Content, Antioxidant Activity and Caco-2 Viability

  • Lucia Camelia Pirvu,
  • Sultana Nita,
  • Nicoleta Rusu,
  • Cristina Bazdoaca,
  • Georgeta Neagu,
  • Corina Bubueanu,
  • Mircea Udrea,
  • Radu Udrea,
  • Alin Enache

DOI
https://doi.org/10.3390/app12115517
Journal volume & issue
Vol. 12, no. 11
p. 5517

Abstract

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In this study, six laser radiation (488 nm/40 mW, 514 nm/15 mW, 532 nm/20 mW, 552 nm/15 mW, 660 nm/75 mW, and at 785 nm/70 mW) were tested on the aqueous extracts of leaves of Plantago lanceolata L. to compare extraction efficacy and antioxidant and cell viability effects in vitro. Briefly, in comparison with the control extract, laser extracts at 488, 514, 532, and 552 nm revealed small acquisitions of total extractible compounds in samples (up to 6.52%; laser extracts at 488 and 532 nm also revealed minerals and micro-elements increases (up to 6.49%); the most prominent results were obtained upon Fe (up to 38%, 488 nm), Cr (up to 307%, 660 nm), and Zn (up to 465%, 532 nm). Laser extracts at 488, 514, 552, and 785 nm proved more intense antioxidant capacity than the control sample, while laser extract at 660 nm indicated clear pro-oxidant effects. Caco-2 cells study indicated stimulatory activity for the extracts at 488 nm, no effects at 532 nm, and the decrease of the cell viability in the case of extracts at 660 nm respectively. Further studies are necessary to understand the pro-oxidant effects observed in the case of extracts exposed to laser radiation at 660 nm.

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