Abstract

Mitragyna speciosa Korth (kratom) is known for its psychoactive and analgesic properties. Mitragynine is the primary constituent present in kratom leaves. This study highlights the utilisation of the green accelerated solvent extraction technique to produce a better, non-toxic and antinociceptive active botanical extract of kratom. ASE M. speciosa extract had a dry yield (0.53–2.91 g) and showed a constant mitragynine content (6.53–7.19%) when extracted with organic solvents of different polarities. It only requires a shorter extraction time (5 min) and a reduced amount of solvents (less than 100 mL). A substantial amount of total phenolic (407.83 ± 2.50 GAE mg/g and flavonoids (194.00 ± 5.00 QE mg/g) were found in ASE kratom ethanol extract. The MTT test indicated that the ASE kratom ethanolic leaf extract is non-cytotoxic towards HEK-293 and HeLa Chang liver cells. In mice, ASE kratom ethanolic extract (200 mg/kg) demonstrated a better antinociceptive effect compared to methanol and ethyl acetate leaf extracts. The presence of bioactive indole alkaloids and flavonols such as mitragynine, paynantheine, quercetin, and rutin in ASE kratom ethanolic leaf extract was detected using UHPLC-ESI-QTOF-MS/MS analysis supports its antinociceptive properties. ASE ethanolic leaf extract offers a better, safe, and cost-effective choice of test botanical extract for further preclinical studies.

Highlights

  • Mitragyna speciosa Korth (Rubiaceae) is popularly known as kratom in Thailand and ketum or biak biak in Malaysia

  • Water was chosen as the extraction solvent to extract the kratom leaves using the Accelerated solvent extraction (ASE) technique and to measure its extraction efficiency

  • The time of extraction was chosen to be optimised in this ASE technique

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Summary

Introduction

Mitragyna speciosa Korth (Rubiaceae) is popularly known as kratom in Thailand and ketum or biak biak in Malaysia. Previous phytochemical studies in M. speciosa have reported the presence of bioactive secondary metabolites from the phytochemical groups such as indole alkaloids, flavonoids, triterpenoids, saponins, and glycoside [4]. It was previously reported that conventional solvent extraction methods use a large amount of toxic organic solvents (MeOH & CHCl3), are labour intense, and have longer extraction times and low extraction yields [7]. These problems can be overcome by using modern, advanced, and green extraction techniques developed in agreement with Green

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