Shilajit
Shilajit (Sanskrit: शिलाजीत "conqueror of mountain, conqueror of the rocks, destroyer of weakness") or salajeet (Urdu: سلاجیت) or mumijo or mumie [1] is natural organic-mineral product of predominantly natural biological origin, formed in the mountains (in mountain crevices and caves).[2]
A blackish-brown powder or an exudate from high mountain rocks, often found in the Himalayas, the Pamir Mountains (primarily in Gorno-Badakhshan, Tajikistan), Karakoram, Gilgit-Baltistan in Pakistan, Nepal, Bhutan, the Caucasus Mountains within Russia, Altai, Central Asia, Iran, Mongolia and in southern Peru, where it is called Andean shilajit.[3] The powder is also known as μούμια (in Greek), mumiyo or mumie (Russian: Мумиё), brag-shun or barakhshin ("oil of the mountains" in Mongolia and southern Russian Siberian regions near the Sayan Mountains such as Khakassia and Buryatia), rock sap or rock juice (in Tibet, Central Asia, Himalaya, Pamir and Altai), asphalt, mineral pitch, Jew’s pitch, slag or mineral wax (in English), silajita or silajatu (in Bengali), hajarul-Musa or araq-al-jibal (in Arabic), myemu, moomiaii or mumnaei (in Persian), Mumie (in German), kao-tun ("blood of the mountain" in Myanmar) and "blessing of nature" (Nepal).[4] The peoples of the East used mumiyo in folk and non-traditional (alternative) medicine (Ayurveda, Chinese, Tibetan). Mumiyo is sold both in dry extract form and as part of dietary supplements adaptogens,[5] cosmetics and food products. In modern science-based medicine, mumiyo is not used.
Origin
Various opinions are expressed about the origin of mumiyo. It is believed that it is formed as a result of the decomposition of oil rocks by microorganisms.
In early (pre-scientific) ideas, the mountain origin and inorganic composition of mumiyo (gold, silver, copper, iron) were postulated.
In the second half of the 20th century, it was assumed that mumiyo was a waste product of animal excrement (bats, etc.), deposits of rodent feces on the rocks.
According to modern ideas, mumiyo is of plant origin and, most likely, represents fossilized products of decomposition (rotting) of plant remains that have undergone metamorphosis under rock pressure.
History
Since ancient times, mumijo has been a folk medicine in Afghanistan, India, Iran, China, Central Asia and Tibet. Mumijo has been used as a folk medicine and in alternative medicine for more than 4000 years.[6] The healing effects of mumijo for different diseases is mentioned in the works of Aristotle, Razi, Biruni, Ibn Sina and others.[2][7][8]
D’Herbelot confounded this natural production of the rock with artificial or human mummy.[9]
Natural reserves
Deposits of Mumijo are found in many regions of the world: in the Caucasus, Central Asia, Russia, the South Siberian region of the Sayan-Altai Mountains, India, Mongolia, Iran, Arabia, Indonesia, Australia, Burma, South America, China, Nepal , Afghanistan and the countries of north-eastern Africa.
Research by the Central State Geographical Exploration Center “Tsentrquartz Gems” has shown that deposits of mumiyo, despite the wide geography of their location, are very rare, and the reserves of raw materials in them are limited. Mumiyo tends to undergo oxidation–reduction, but duration of process ranges from 2 to 300 or more years. Found in calcareous, metamorphic rock, and sedimentary rocks (from Proterozoic to Quaternary) in Central Asia, Tuva, at the lake Baikal, in the Caucasus and other regions. [10] More often found in the Himalayas, Tibetan Plateau, mountains of the Arabian Peninsula, Iran, Mongolia, Myanmar.
Composition
Although shilajit is sometimes referred to as a mineral tar or resin, it is not actually either of those. It is a highly viscous substance like a tar or resin, that is very dark brown or black in color, but unlike these is readily soluble in water but insoluble in ethanol.
Contains mineral substances Ca, Mg, Na, Fe, Cr, Pb, et cеtr more than 20 elements as well as solid paraffin hydrocarbons, proteins, carbohydrates, amino acids, fatty acids, alcohols et ctr. Chemical composition of organic part of the extract (~ 50% C and 10% H) indicates the oil origin of Mumijo. [10]
Shilajit is composed of 60–80% humic substances such as humic and fulvic acids.[11][12][13][14]
Studied by analytical methods Mumijo samples from Himalayas 5.1 kDa , Altai 8 kDa , Tian Shan 7.5 kDa , Dzungarian 9.0 kDa molecular weight, demonstrated that it consist of two principal components: the high-molecular part is fulvic nature of sample as typical peat fulvic acids (sample from Sakhtysh lake, Russia), and the low-molecular part represents a range of vegetative and animal metabolites such as methyldiaminocyclohexane, shikimic acid , hippuric acid , quinic acid , hydroxyhippuric acid, methyldiaminocyclohexane dimmer. [15]
The mineral content is 15–20%, along with trace elements including selenium.[16] Therefore, Shilajit is rich in nutrients such as mineral salts, amino acids, etc., and other organic components including: benzoic acid, hippuric acid, fatty acids (myristic acid, stearic acid, Oleic acid, petroselinic acid, linoleic acid, lauric acid, saturated fatty acids), ichthyridine, salicylic acid, resins, triterpenes, sterols, aromatic carboxylic acids, 3,4-benzocoumarins, amino groups acids, phenolic lipids, 85 trace minerals (potassium, calcium, and magnesium are the most prevalent), latex, albumin, sterols, tea polyphenols, phenolic lipids, dibenzo-alpha-pyrones (DBP), selenium, and dibenzo-α-pyrone chromoproteins (DCPs).[12][17]
Organoleptic properties
Mumiyo tastes bitter and can resemble pure chocolate with a high cocoa content. The smell of mumiyo is similar to the smell of bitumen.
Mumiyo varieties
The composition of mumiyo varies by location[18] and appearance:[19]
- Coprolitic (mumiyo-saladji, Pamir and Altai mumiyo, mumiyo-asil, etc.) are fossilized phyto- and zooorganic remains mixed with fragments and gruss of rocks and soil formations. The content of extractive substances in coprolite mumiyo ranges from 10 to 30% or more.
- Mumiyo-bearing breccias are large-clastic rocks (more often, fissured limestones) cemented by mumiyo-bearing clay mass. The content of extractive substances is 0.5–5.0%.
- Evaporite mumiyo occurs in formations of streaks, icicles and shiny black or gray dull, thin films that stain the roofs and walls of caves, niches, grottoes and other large cavities. Its extraction is difficult.
Some researchers hypothesize that shilajit is produced by the decomposition or humification of latex and resin-bearing plant material from species such as Euphorbia royleana and Trifolium repens over a period of centuries.[20][21]
Mumioids are a group of natural formations resembling mumiyo in appearance. The group includes ozokerite, saltpeter, fossilized vegetable resins and gums, mountain wax, white, stone and mountain oils, Antarctic shilajit, lofor, or aqua bitum.[19]
Classification
Shilajit occurs in different colors and grades according to the type of metal contained: red (Sauvarna Shilajit) with gold, white (Rajat Shilajit) with silver, blue (Tamra, with copper Shilajit) and iron-containing black (Lauha Shilajit Shilajit). Of these, black shilajit containing gold is the rarest and is considered to have the best curative effect. In nature, shilajit containing iron is used most in traditional medicine.[12]
Research
Studies conducted by 2011 did not detect biological activity of mumiyo, declared by adherents of non-traditional (alternative) medicine (Ayurveda, Chinese, Tibetan) medicine.[1]
References
- Wilson, Eugene; Rajamanickam, G. Victor; Dubey, G. Prasad; Klose, Petra; Musial, Frauke; Saha, F. Joyonto; Rampp, Thomas; Michalsen, Andreas; Dobos, Gustav J. (2011-06-14). "Review on shilajit used in traditional Indian medicine". Journal of Ethnopharmacology. 136 (1): 1–9. doi:10.1016/j.jep.2011.04.033. ISSN 1872-7573. PMID 21530631.
- "MUMIYO • Great Russian encyclopedia - electronic version". bigenc.ru. Retrieved 2022-08-01.
- Hill, Carol A.; Forti, Paolo (1997). Cave Minerals of the World. National Speleological Society. ISBN 978-1-879961-07-4.
- Rahmani Barouji, Solmaz; Saber, Amir; Torbati, Mohammadali; Fazljou, Seyyed Mohammad Bagher; Yari Khosroushahi, Ahmad (2020). "Health Beneficial Effects of Moomiaii in Traditional Medicine". Galen Medical Journal. 9: e1743. doi:10.31661/gmj.v9i0.1743. ISSN 2322-2379. PMC 8343599. PMID 34466583.
- Winston, David; Maimes, Steven (2007-03-22). "Part two: Materia medica. 7. Monographs on Adaptogens. Shilajit". Adaptogens: Herbs for Strength, Stamina, and Stress Relief. Inner Traditions / Bear & Co. p. 129. ISBN 978-1-59477-158-3.
- Kloskowski, T.; Szeliski, K.; Krzeszowiak, K.; Fekner, Z.; Kazimierski, Ł; Jundziłł, A.; Drewa, T.; Pokrywczyńska, M. (2021-11-19). "Mumio (Shilajit) as a potential chemotherapeutic for the urinary bladder cancer treatment". Scientific Reports. 11 (1): 22614. Bibcode:2021NatSR..1122614K. doi:10.1038/s41598-021-01996-8. ISSN 2045-2322. PMC 8604984. PMID 34799663.
- Korchubekov, B. K., Altymyshev, A. A. (1987). Mumië "arkhar-tash" i ego fiziologicheskai︠a︡ aktivnostʹ. Soviet Union: Ilim.
- Source study and textual criticism of monuments of medieval sciences in the countries of Central Asia: a collection of scientific works. (1989). Russia: "Science," Siberian Branch.
- Ouseley, William (1821). Travels in various countries of the East : more particularly Persia. Rodwell and Martin, London.
- "Геологический словарь. Том 1 (А-М) | Геологический портал GeoKniga" [Geological dictionary. Volume 1 (А-М) | Geological portal]. www.geokniga.org. p. 485. Retrieved 2023-10-01.
- Ghosal, Shibnath (1990-01-01). "Chemistry of shilajit, an immunomodulatory Ayurvedic rasayan". Pure and Applied Chemistry. 62 (7): 1285–1288. doi:10.1351/pac199062071285. ISSN 1365-3075. S2CID 20837659.
- Schepetkin, Igor A.; Khlebnikov, Andrei I.; Ah, Shin Young; Woo, Sang B.; Jeong, Choon-Soo; Klubachuk, Olesya N.; Kwon, Byoung S. (2003-08-27). "Characterization and biological activities of humic substances from mumie". Journal of Agricultural and Food Chemistry. 51 (18): 5245–5254. doi:10.1021/jf021101e. ISSN 0021-8561. PMID 12926866.
- Stohs, Sidney J. (2014-04-03). "Safety and Efficacy of Shilajit (Mumie, Moomiyo): SHILAJIT (MUMIE, MOOMIYO) SAFETY AND EFFICACY". Phytotherapy Research. 28 (4): 475–479. doi:10.1002/ptr.5018. PMID 23733436. S2CID 22593008.
- Schepetkin, Igor A.; Xie, Gang; Jutila, Mark A.; Quinn, Mark T. (2009-03-01). "Complement-fixing activity of fulvic acid from Shilajit and other natural sources". Phytotherapy Research. 23 (3): 373–384. doi:10.1002/ptr.2635. ISSN 1099-1573. PMC 2650748. PMID 19107845.
- Konstantinov, A. I.; Vladimirov, G. N.; Grigoryev, A. S.; Kudryavtsev, A. V.; Perminova, I. V.; Nikolaev, E. N. (2013). "Molecular Composition Study of Mumijo from Different Geographic Areas Using Size-Exclusion Chromatography, NMR Spectroscopy, and High-Resolution Mass Spectrometry". In Xu, Jianming; Wu, Jianjun; He, Yan (eds.). Functions of Natural Organic Matter in Changing Environment. Dordrecht: Springer Netherlands. pp. 283–287. doi:10.1007/978-94-007-5634-2_52. ISBN 978-94-007-5634-2.
- Khanna, Rajesh; Witt, Matthias; Khalid Anwer, Md.; Agarwal, Suraj P.; Koch, Boris P. (December 2008). "Spectroscopic characterization of fulvic acids extracted from the rock exudate Shilajit". Organic Geochemistry. 39 (12): 1719–1724. Bibcode:2008OrGeo..39.1719K. doi:10.1016/j.orggeochem.2008.08.009.
- Ding, Rong; Zhao, Mingming; Fan, Jiuyu; Hu, Xiuquan; Wang, Meng; Zhong, Shihong; Gu, Rui (2020-06-29). "Mechanisms of generation and exudation of Tibetan medicine Shilajit (Zhaxun)". Chinese Medicine. 15 (1): 65. doi:10.1186/s13020-020-00343-9. ISSN 1749-8546. PMC 7322889. PMID 32612671.
- Пещеры: Выпуск 14-15 (in Russian). Пермский государственный университет. pp. 174–267.
- Savinykh, Mikhail (2022-05-15). Encyclopedia of mumiyo (in Russian). Litres. ISBN 978-5-04-090878-3.
- Agarwal, Suraj P.; Khanna, Rajesh; Karmarkar, Ritesh; Anwer, Md. Khalid; Khar, Roop K. (May 2007). "Shilajit: a review". Phytotherapy Research. 21 (5): 401–405. doi:10.1002/ptr.2100. PMID 17295385. S2CID 40620070.
- Ghosal, S.; Reddy, J.P.; Lal, V.K. (May 1976). "Shilajit I: Chemical Constituents". Journal of Pharmaceutical Sciences. 65 (5): 772–773. doi:10.1002/jps.2600650545. PMID 932958.