Nolutho Mkhumbeni scite author profile

Nolutho Mkhumbeni

4Publications

29Citation Statements Received

70Citation Statements Given

How they've been cited

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127

Affiliations

Vaal University of Technology, Tshwane University of Technology

Publications

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Possible roles of <i>Eucomis autumnalis</i> in bone and cartilage regeneration: A review

Alaribe¹,

Maepa²,

Mkhumbeni³

et al. 2018

Trop. J. Pharm Res

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In response to the recent alarming prevalence of cancer, osteoarthritis and other inflammatory disorders, the study of anti-inflammatory and anticancer crude medicinal plant extracts has gained considerable attention. Eucomis autumnalis is a native flora of South Africa with medicinal value. It has been found to have anti-inflammatory, anti-bacterial, anti-tumor/cancer, anti-oxidative and antihistaminic characteristics and produces bulb that have therapeutic value in South African traditional medicine. Despite the widely acclaimed therapeutic values of Eucomis autumnalis, its proper identification and proper knowledge, morphogenetic factors are yet to be efficiently evaluated. Similar to other plants with the same characteristics, E. autumnalis extract may stimulate bone formation and cartilage regeneration by virtue of its anti-inflammatory properties. This review provides data presented in the literature and tries to evaluate the three subspecies of E. autumnalis, highlighting their geographical location in South African provinces, their toxicity effects, as well as their phytochemistry and anti-inflammatory properties. Biologically active components, pharmacological importance and some environmental factors that can affect E. autumnalis are presented. The review also discussed the novel potential roles of E. autumnalis in regenerative medicine. Proper knowledge of the E. autumnalis plant and its possible role in bone and cartilage regeneration will help in addressing and clarifying its use in the production of drugs and for other therapeutic purposes, especially in the treatment of inflammatory diseases and cancer.

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The Future of Tissue Engineering and Regenerative Medicine in Africa

Dzobo

Senthebane

Pillay

et al. 2017

Tissue Engineering Part A

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Effect of Eucomis autumnalis on the Osteogenic Differentiation of Adipose-Derived Stem Cells

Mkhumbeni

Pillay

Mtunzi

et al. 2022

Tissue Engineering Part A

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Fabrication of Zein/PVA Fibre Blends: Optimizing Concentration and Applied Voltage

Moloto

Kubheka

Mkhumbeni

2023

CNM

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The fabrication of polymer fibre blends has gained much attention for the development of innovative nanomaterials. Polymer fibre blends are nanomaterials with different functionalities and properties such as a sizeable surface-to-area ratio, high porosity, flexibility, and stability. The focus of this study was to produce zein/PVA fibre blends using the electrospinning technique and varying parameters such as concentration and applied voltage. The two parameters are key driving factors for the production of fibres. Zein as a natural polymer has challenges in developing fibre materials which require artificial polymers like PVA to create a good blending mixture for electrospinning. Methods: The zein/PVA nanofibre blends were fabricated using the electrospinning technique. The FE-SEM (Leo, Zeiss) was used to study the surface morphologies of the zein/PVA nanofibers blends. The optical properties of the nanofibre blends were determined using the UV-vis spectrophotometer and the chemical structure and composition of zein/PVA nanofibers blends were studied using Thermo Scientific Nicolet iS50-FTIR spectrometer, universal ATR with the diamond detector. Results: The SEM images showed smooth zein/PVA ribbon-like nanofibre blends of 90/10, 80/20, 70/30, 60/40, and 50/50. SEM images of zein/PVA (80/20) electrospun at 25 kV were obtained to be the maximum fibre yield due to zein/PVA compatibility, increased conductivity, and enhanced fibre formation. The optical properties (absorption spectroscopy) suggested that the zein/PVA (80/20) fibre blend was miscible, and the FTIR spectra confirmed their functional groups. Therefore, the characterization results showed that the polymer blended solutions concentration and applied voltage increment affected fibre size distribution and morphology. Conclusion: Optimizing concentration and applied voltage successfully produced smooth, uniform bead-free zein/PVA fibre blends as parameters are increased.

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