Development of On-Line High Performance Liquid Chromatography (HPLC)-Biochemical Detection Methods as Tools in the Identification of Bioactives

Malherbe, Christiaan J.; Beer, Dalene de; Joubert, Elizabeth

doi:10.3390/ijms13033101

Cited by 38 publications

(20 citation statements)

References 128 publications

(197 reference statements)

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“…To better understand discrepancies between measured vitamin antioxidant potentials and clinical failure perhaps the antioxidant tests should be considered. Current antioxidant tests that created the indices comparing different vitamins with activities of other antioxidants are primarily based on changes between the oxidation of a sample and free-radicals from a stable source, metal ions through a Fenton reaction or a physiologic-relevant reactive species such as the hydroxyl radical [74][75][76][77]. The original antioxidant testing by Burton and Ingold in 1981 used thermal changes as an indication for free-radical complexing with a sample [15].…”

Section: Antioxidant Testsmentioning

confidence: 99%

“…The original antioxidant testing by Burton and Ingold in 1981 used thermal changes as an indication for free-radical complexing with a sample [15]. The most current common antioxidant tests use colorimetric assays with uv-vis spectroscopy that examines optical adsorption at a characteristic maximum peak in the visible region of the electromagnetic spectrum between about 400-700 nm [74][75][76][77]. In the assay sample-freeradical complex, adsorption occurs at a maximum peak that can be measured from a control standard.…”

Section: Antioxidant Testsmentioning

confidence: 99%

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Reactive Secondary Sequence Oxidative Pathology Polymer Model and Antioxidant Tests

Petersen

2012

IRJPAC

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Aims-To provide common Organic Chemistry/Polymer Science thermoset free-radical crosslinking Sciences for Medical understanding and also present research findings for several common vitamins/antioxidants with a new class of drugs known as free-radical inhibitors.Study Design-Peroxide/Fenton transition-metal redox couples that generate free radicals were combined with unsaturated lipid oils to demonstrate thermoset-polymer chain growth by crosslinking with the α-β-unsaturated aldehyde acrolein into rubbery/adhesive solids. Further, Vitamin A and beta carotene were similarly studied for crosslink pathological potential. Also, free-radical inhibitor hydroquinone was compared for antioxidant capability with Vitamin E.Methodology-Observations were recorded for Fenton free-radical crosslinking of unsaturated lipids and vitamin A/beta carotene by photography further with weight measurements and percentshrinkage testing directly related to covalent crosslinking of unsaturated lipids recorded over time with different concentrations of acrolein. Also, hydroquinone and vitamin E were compared at concentrations from 0.0-7.3wt% as antioxidants for reductions in percent-shrinkage measurements, n = 5.Results-Unsaturated lipid oils responded to Fenton thermoset-polymer reactive secondary sequence reactions only by acrolein with crosslinking into rubbery-type solids and different nonsolid gluey products. Further, molecular oxygen crosslinking was demonstrated with lipid peroxidation and acrolein at specially identified margins. By peroxide/Fenton free-radical testing, both vitamin A and beta-carotene demonstrated possible pathology chemistry for chain-growth crosslinking. During lipid/acrolein testing over a 50 hour time period at 7.3wt% antioxidants, hydroquinone significantly reduced percent shrinkage greatly compared to the standard antioxidant vitamin E, %shrinkage at 11.6 ±1.3 for hydroquinone and 27.8 ±2.2 for vitamin E, P = .001.Conclusion-Free radicals crosslinked unsaturated lipid fatty acids into thermoset polymers through Fenton reactions when combined with acrolein. Further, hydroquinone was a superior antioxidant to vitamin E.

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Section: Antioxidant Testsmentioning

confidence: 99%

Section: Antioxidant Testsmentioning

confidence: 99%

Reactive Secondary Sequence Oxidative Pathology Polymer Model and Antioxidant Tests

Petersen

2012

IRJPAC

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“…37 Therefore, process miniaturization requires an orders of magnitude smaller volume sampling, which in micro process engineering would mean easily most of the volume of the whole reactor. Some analytical techniques, which include sampling, fulfil that criterion such as Raman, 38 liquid chromatography, 39 or capillary electrophoresis. 40,41 However, for small molecule analysis, high-performance liquid chromatography (HPLC) is commonly preferred and is quasi the unique method used for process monitoring applications in micro-channels offline.…”

Section: Introductionmentioning

confidence: 99%

Quality-In(Process)Line (QuIProLi) process intensification for a micro-flow UV-photo synthesis enabled by online UHPLC analysis

et al. 2018

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Quality-in(Process)Line (QuIProLi) process intensification for a micro-flow UV-photo synthesis enabled by online UHPLC analysis Citation for published version (APA): Escriba Gelonch, M., Shahbazali, E., Honing, M., & Hessel, V. (2018). Quality-in(Process)Line (QuIProLi) process intensification for a micro-flow UV-photo synthesis enabled by online UHPLC analysis. Tetrahedron, 74(25), 3143-3151. https://doi. ABSTRACTProcess intensification commonly enables reaction acceleration and therefore continuous-flow/PAT is urgently needed. The low volumes typical for micro-flow pose challenges for online sampling operations in analytics. In this paper, a very fast process is combined with a modified ultra-highperformance liquid chromatography (UHPLC) system allowing for very fast sampling and analysis. Lowvolume online sampling according to the needs posed by PAT for pharma quality control, is introduced here for UHPLC analysis of the photo-Claisen rearrangement in micro-flow. Chances and challenges are critically reviewed, including the reproducibility and robustness of the sampling. Furthermore, the ability and speed of the chosen set-up in order to capture process changes and adjust the process parameters properly is investigated. With the applied online sampling system, it was possible to perform, almost unattended and spending 12 times less sampling volume, a full factorial analysis of all relevant reaction conditions (243 experiments) in three days. Such quality-in-the-process-line (QuIProLi) online sampling avoided random errors due to automation.

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“…Acetylcholinesterase (AChE) is an important enzyme owing to its relation with AD, so the screening of AChE inhibitors from complex extracts has attracted much attention owing to most AD drugs inhibiting AChE. At present, the on‐line analysis methods for rapid identification of active compounds in complex extracts have overcome to some extent the problems in the traditional separation and screening processes of active compounds of complex extracts, such as time, labor and money consumption for useless compounds (Peng, Tan, Huang, & Ding, ; Niederländer, van Beek, Bartasiute, & Koleva, ; Shi et al, ; Li, Qian, & Li, ; Malherbe, de Beer, & Joubert, ). Some novel analysis techniques, on‐line HPLC coupled with different detectors such as UV detection nearby 400 nm (Fabel, Niessner, & Weller, ), fluorescence (FL) detection based on fluorogenic substrate 7‐acetoxy‐1‐methyl quinolinium iodide ( λ ex 406 nm; λ em 505 nm) (Rhee, Appels, Luijendijk, Irth, & Verpoorte, ; Marques et al, ; Heus et al, ) and MS detection (Ingkaninan et al, ; de Jong, Derks, Bruyneel, Niessen, & Irth, ), have been developed to quickly screen AChE inhibitors in complex extracts.…”

Section: Introductionmentioning

confidence: 99%

Multiple on‐line HPLC coupled with biochemical detection methods to evaluate bioactive compounds in Danshen injection

Peng¹,

Zeng²,

Li³

et al. 2016

Biomedical Chromatography

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On-line high performance liquid chromatography (HPLC) coupled with three biochemical detection (BCD) methods was applied to evaluate bioactive components in Danshen injection. On-line HPLC-photo-diode array-fluorescence detection based on the fluorogenic substrate 7-acetoxy-1-methyl quinolinium iodide, was built to search acetylcholinesterase (AChE) inhibitors in Danshen injection. On-line HPLC coupled with the scavenging assay of 1,1-diphenyl-2-picrylhydrazyl (DPPH) and 2,2'-azinobis (3-ethylbenzothiazoline-6-sulfonic acid) (ABTS) free radicals was developed to screen antioxidants. The three active profiles were obviously different. Radical scavenging profiles revealed seven strong peaks in the chromatographic fingerprint possessing obvious free radical inhibition effects, while some minor peaks exhibited stronger AChE inhibition activities. The main radical scavengers and AChE inhibitors were identified by HPLC-MS. Several unknown ingredients showing strong AChE inhibition activities needed further identification except protocatechuic aldehydrate, salvianolic acid H or I and lithospermic acid. The on-line multiple on-line HPLC-BCD methods will provide powerful tools in the field of pharmacognosy for fast-track identification of interesting and/or novel bioactive compounds.

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Development of On-Line High Performance Liquid Chromatography (HPLC)-Biochemical Detection Methods as Tools in the Identification of Bioactives

Cited by 38 publications

References 128 publications

Reactive Secondary Sequence Oxidative Pathology Polymer Model and Antioxidant Tests

Reactive Secondary Sequence Oxidative Pathology Polymer Model and Antioxidant Tests

Quality-In(Process)Line (QuIProLi) process intensification for a micro-flow UV-photo synthesis enabled by online UHPLC analysis

Multiple on‐line HPLC coupled with biochemical detection methods to evaluate bioactive compounds in Danshen injection

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