Abstract
Fomes fomentarius, usually referred to as tinder conk, is a common wood-based fungus rich in many interesting phytochemicals and with an unique porous structure. Dry or wet ball milling of this sponge on a planetary mill results in small particles with sizes in the range of 10 µm or below. Suspended in water and without preservatives or other stabilizers, the resulting micro-suspensions are sterile for around six days, probably due to the increased temperatures of around 80 °C especially during the wet milling process. The suspensions also exhibit excellent antioxidant activities as determined in the DPPH, ferric reducing antioxidant potential (FRAP) and 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid (ABTS) assays. In the DPPH assay, IC50 values of 0.02–0.04% w/v and 0.04% w/v were observed for dry and wet milled samples, respectively. In the FRAP assay, IC50 values of <0.02% w/v and 0.04% w/v were observed for dry and wet milled samples, respectively. In contrast, the ABTS assay provided IC50 values of 0.04% w/v and 0.005% w/v, respectively. Notably, this activity is mostly—albeit not exclusively—associated with the highly porous particles and their large surfaces, although some active ingredients also diffuse into the surrounding aqueous medium. Such suspensions of natural particles carrying otherwise insoluble antioxidants on their surfaces provide an interesting avenue to unleash the antioxidant potential of materials such as sponges and barks. As dry milling also enables longer storage and transport, applications in the fields of medicine, nutrition, agriculture, materials and cosmetics are feasible.
Highlights
Antioxidants represent a class of interesting and often quite reactive and reductive substances which have attracted considerable interest in medicine, nutrition, agriculture, materials, food processing and cosmetics. Natural antioxidants, such as secondary metabolites found in many plants, fungi andorganisms are especially attractive, yet often insoluble in water and difficult to extract, store, purify and to deliver [1,2]
An analysis of the resulting suspensions shows that the particles have diameters of around 10 μm, and that these particles exhibit considerable antioxidant activity, most likely due to redox events at the vast surface areas of these extraordinarily porous materials
The preparation is straight forward, there is no need for complicated procedures or stabilizers, and the resulting suspensions, albeit prone to sedimentation in the absence of surfactants, are quite stable in the context of fouling, as ball milling is in itself an exothermic process and to some extent able to sterilize the samples and to prevent foul play [8,9]
Summary
Antioxidants represent a class of interesting and often quite reactive and reductive substances which have attracted considerable interest in medicine, nutrition, agriculture, materials, food processing and cosmetics. Natural antioxidants, such as secondary metabolites found in many plants, fungi and (micro-)organisms are especially attractive, yet often insoluble in water and difficult to extract, store, purify and to deliver [1,2]. 3,4-dihydrobenzaldehyde (3,4-DHBA) and the gallic acid derivative purpurogallin [4,5,6,7] Extraction of such (redox-) active ingredients requires (a) solvents such as ethanol and (b) elevated temperatures and the process itself (c) is tedious and (d) is not Antioxidants 2021, 10, 303.
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