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Greco-Roman mineral (litho)therapeutics and their relationship to their microbiome: The case of the red pigment miltos

This paper introduces a holistic approach to the study of Greco-Roman (G-R) lithotherapeutics. These are the minerals or mineral combinations that appear in the medical and scientific literature of the G-R world. It argues that they can best be described not simply in terms of their bulk chemistry/m...

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Autores principales: Photos-Jones, E., Knapp, C.W., Venieri, D., Christidis, G.E., Elgy, C., Valsami-Jones, E., Gounaki, I., Andriopoulou, N.C.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2018
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6360534/
https://www.ncbi.nlm.nih.gov/pubmed/30775415
http://dx.doi.org/10.1016/j.jasrep.2018.07.017
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author Photos-Jones, E.
Knapp, C.W.
Venieri, D.
Christidis, G.E.
Elgy, C.
Valsami-Jones, E.
Gounaki, I.
Andriopoulou, N.C.
author_facet Photos-Jones, E.
Knapp, C.W.
Venieri, D.
Christidis, G.E.
Elgy, C.
Valsami-Jones, E.
Gounaki, I.
Andriopoulou, N.C.
author_sort Photos-Jones, E.
collection PubMed
description This paper introduces a holistic approach to the study of Greco-Roman (G-R) lithotherapeutics. These are the minerals or mineral combinations that appear in the medical and scientific literature of the G-R world. It argues that they can best be described not simply in terms of their bulk chemistry/mineralogy but also their ecological microbiology and nanofraction component. It suggests that each individual attribute may have underpinned the bioactivity of the lithotherapeutic as an antibacterial, antifungal or other. We focus on miltos, the highly prized, naturally fine, red iron oxide-based mineral used as a pigment, in boat maintenance, agriculture and medicine. Five samples (four geological (from Kea, N. Cyclades) and one archaeological (from Lemnos, NE Aegean)) of miltos were analyzed with physical and biological science techniques. We show that: a. Kean miltos and Lemnian earth/miltos must have been chemically and mineralogically different; b. Lemnian miltos must have been more effective as an antibacterial against specific pathogens (Gram + and Gram − bacteria) than its Kean counterpart; c. two samples of Kean miltos, although similar, chemically, mineralogically and eco-microbiologically (phylum/class level), nevertheless, displayed different antibacterial action. We suggest that this may constitute proof of microbial ecology playing an important role in effecting bioactivity and, interestingly, at the more specific genus/species level. From the perspective of the historian of G-R science, we suggest that it may have been on account of its bioactivity, rather than simply its 'red-staining' effect, that miltos gained prominent entry into the scientific and medical literature of the G-R world.
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spelling pubmed-63605342019-02-14 Greco-Roman mineral (litho)therapeutics and their relationship to their microbiome: The case of the red pigment miltos Photos-Jones, E. Knapp, C.W. Venieri, D. Christidis, G.E. Elgy, C. Valsami-Jones, E. Gounaki, I. Andriopoulou, N.C. J Archaeol Sci Rep Article This paper introduces a holistic approach to the study of Greco-Roman (G-R) lithotherapeutics. These are the minerals or mineral combinations that appear in the medical and scientific literature of the G-R world. It argues that they can best be described not simply in terms of their bulk chemistry/mineralogy but also their ecological microbiology and nanofraction component. It suggests that each individual attribute may have underpinned the bioactivity of the lithotherapeutic as an antibacterial, antifungal or other. We focus on miltos, the highly prized, naturally fine, red iron oxide-based mineral used as a pigment, in boat maintenance, agriculture and medicine. Five samples (four geological (from Kea, N. Cyclades) and one archaeological (from Lemnos, NE Aegean)) of miltos were analyzed with physical and biological science techniques. We show that: a. Kean miltos and Lemnian earth/miltos must have been chemically and mineralogically different; b. Lemnian miltos must have been more effective as an antibacterial against specific pathogens (Gram + and Gram − bacteria) than its Kean counterpart; c. two samples of Kean miltos, although similar, chemically, mineralogically and eco-microbiologically (phylum/class level), nevertheless, displayed different antibacterial action. We suggest that this may constitute proof of microbial ecology playing an important role in effecting bioactivity and, interestingly, at the more specific genus/species level. From the perspective of the historian of G-R science, we suggest that it may have been on account of its bioactivity, rather than simply its 'red-staining' effect, that miltos gained prominent entry into the scientific and medical literature of the G-R world. Elsevier 2018-12 /pmc/articles/PMC6360534/ /pubmed/30775415 http://dx.doi.org/10.1016/j.jasrep.2018.07.017 Text en © 2018 The Authors http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Photos-Jones, E.
Knapp, C.W.
Venieri, D.
Christidis, G.E.
Elgy, C.
Valsami-Jones, E.
Gounaki, I.
Andriopoulou, N.C.
Greco-Roman mineral (litho)therapeutics and their relationship to their microbiome: The case of the red pigment miltos
title Greco-Roman mineral (litho)therapeutics and their relationship to their microbiome: The case of the red pigment miltos
title_full Greco-Roman mineral (litho)therapeutics and their relationship to their microbiome: The case of the red pigment miltos
title_fullStr Greco-Roman mineral (litho)therapeutics and their relationship to their microbiome: The case of the red pigment miltos
title_full_unstemmed Greco-Roman mineral (litho)therapeutics and their relationship to their microbiome: The case of the red pigment miltos
title_short Greco-Roman mineral (litho)therapeutics and their relationship to their microbiome: The case of the red pigment miltos
title_sort greco-roman mineral (litho)therapeutics and their relationship to their microbiome: the case of the red pigment miltos
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6360534/
https://www.ncbi.nlm.nih.gov/pubmed/30775415
http://dx.doi.org/10.1016/j.jasrep.2018.07.017
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