ABSTRACT
This article explores the most recent evidence-based information on ethnomedicinal, phytochemical and pharmacological understanding of Hygrophila auriculata for the treatment of various diseases and health conditions. Various ethnomedicinal writings suggest the use of the plant or its parts for the treatment of jaundice, oedema, gastrointestinal ailments, diarrhoea, dysentery, urinogenital disorder, gall stones, urinary calculi, kidney stone, leucorrhoea, rheumatism, tuberculosis, anaemia, body pain, constipation, skin disease, and as an aphrodisiac. The plant has been reported to contain flavonoids (apigenin, luteolin, ellagic acid, gallic acid and quercetin), alkaloids (asteracanthine and asteracanthicine), triterpenes (lupeol, lupenone, hentricontane and betulin), sterols (stigmasterol and asterol), minerals, amino acids, fatty acids, aliphatic esters and essential oils. Extracts and bioactive compounds from the plant have been found to possess antimicrobial, anthelmintic, antitermite, nephroprotective, hepatoprotective, central nervous system protective, antitumour, antidiabetic, anticataract, antioxidant, haematopoietic, diuretic, antinociceptive, anti-inflammatory, antipyretic, antimotility, aphrodisiac, neuroprotection, anti-endotoxin and anti-urolithiatic activities. For this paper, we reviewed patents, clinical studies, analytical studies and marketed formulations from the earliest found examples from 1887 to the end of 2017.
Subject(s)
Humans , Acanthaceae , Chemistry , Anti-Infective Agents , Anti-Inflammatory Agents , Antioxidants , Ethnopharmacology , Medicine, Traditional , Phytochemicals , Pharmacology , Therapeutic Uses , Phytotherapy , Plant Extracts , Pharmacology , Therapeutic Uses , Protective AgentsABSTRACT
New and innovative antibacterial drugs research from plants is a best strategy to overcome the world problem about bacterial diseases. The aim of this study was to evaluate the in-vitro antibacterial activity and the phytochemical profile of various extracts from Hygrophila auriculata (Schumach.) Heine, Nelsonia canescens (Lam) Spreng and Peristrophe bicalyculata (Retz.) Nees; three acanthaceae species widely used in folk medicine of Burkina Faso. The inhibition diameter determination of the eleven bacteria strains and the Minimum Inhibition Concentration (MIC) of the plants extracts and fractions were evaluated using standards methods. All extracts were also evaluated for their phenolic contents. The results showed that all extracts and fractions exhibited good bacteria inhibition and have a wealth of phenolic compounds. Comparing the MIC of extracts and fractions, E. coli (CPI: 105182) strain was best inhibited and N. canescens butanol fraction presented the best activity. As regard phytochemical profile, highest values of total phenolics, total flavonoids, total flavonols and total tannins were obtained with N. canescens fractions. The results could justify the traditional used of these species against infectious diseases. This study shows that these three medicinal plants and especially N. canescens are good candidate for isolate new et innovative antibacterial compounds.
ABSTRACT
Objective: A simple, accurate, and rapid high-performance thin-layer chromatographic (HPTLC) method for simultaneous quantification of the two biologically active flavonoidal compounds, gallic acid and quercetin, in Hygrophila auriculata (K. Schum) Heine (HA) has been established and validated. Methods: Chromatography was performed on aluminium foil-backed silica gel 60 F254 HPTLC plates with the binary mobile phase toluene: ethyl acetate: formic acid (5:4:1, v/v/v). Ultraviolet detection was performed densitometrically at the maximum absorbance wavelength, 270nm. The method was validated for precision, recovery, robustness, specificity, and detection and quantification limits, in accordance with ICH guidelines. Results: The system was found to give compact spots for gallic acid (GA) and quercetin (QE) (Rf value of 0.31 and 0.50, respectively). The limit of detection (23 and 41 ng band-1) limit of quantification (69 and 123 ng band-1), recovery (99.4-99.9 and 98.7-99.4%), and precision (i.e ≤1.98 and 1.97) were satisfactory for gallic acid and quercetin respectively. Linearity range for GA and QE were 100-1000 (r 2= 0.9991) and 150-900 ng band-1 (r2= 0.9956) and the contents estimated as 0.28±0.01% and 0.41±0.01% w/w respectively.Conclusions:This simple, precise and accurate method gave good resolution from other constituents present in the extract. The method has been successfully applied in the analysis and routine quality control of herbal material and formulations containing Hygrophila auriculata (K. Schum) Heine.
ABSTRACT
Objective: To analyse the two marker compounds lupeol (LP) and stigmasterol (ST) from methanolic extract of Hygrophila auriculata (H. auriculata). Methods: Separation was achieved on aluminium plates precoated with silica gel 60F254 with toluene-methanol-formic acid (7.0:2.7: 0.3 v/v/v) as mobile phase. Results: Densitometric analysis was performed at 530 nm in the reflectance mode. Compact bands for LP and ST were obtained at RF 0.52 ± 0.02 and 0.28 ± 0.05. Linearity (r2=0.998 5 and 0.993 7), limit of detection (45 and 18 ng/band) limit of quantification (135 and 54 ng/band), recovery (98.2%-99.7% and 97.2%-99.6%), and precision (<2.18 and 1.91) were satisfactory for LP and ST respectively. Linearity range for LP and ST were 100-1 000 and 50-500 ng/band and the contents estimated as (0.19±0.1)% and (0.47±0.1)% w/w respectively. Conclusion:The method demonstrated efficient analysis testing of LP and ST in samples; therefore it can be used for routine analysis.