Documentation of Ethnoveterinary Practices in the CKNP Region, Gilgit-Baltistan

Iftikhar Ali, Hidayat Hussain, Huma Batool, Akber Dad, Ghulam Raza, Abiodun Falodun, Raza Ullah, Viqar Uddin Ahmad



Majority of the livestock holders in different areas of Central Karakoram National Park (CKNP) region in Gilgit-Baltistan lack the modern veterinary healthcare facilities. The local community mostly depends upon the traditional floral therapeutic veterinary practices for the cure of various livestock diseases. The lack of the ethnoveterinary surveys in the CKNP region results in loss in the scientific documentation of the traditional information and practices about the livestock healthcare.

The present study deals with the documentation of the livestock diseases and the ethnoveterinary herbal and non-herbal therapeutic practices by the livestock holders in CKNP region.

The study was conducted from March 2012 to March 2013 in the valleys of CKNP region. The ethnoveterinary data was collected through the semi-structured questionnaires and the techniques of interviews and field visits. And the productive interaction provided an enabling background for the successful Rapid Rural Appraisal and Participatory Rural Appraisal research.

Total 156 local community members were interviewed in Thallay, Khaplu, Hushe and Shigar valleys. The survey showed the prevalence of the most common diseases e.g. FMD, intestinal problems etc. Among the 51 medicinal plants, the Asteraceae family exhibited the highest number of genera with the therapeutic species. The parts of the plants that were most frequently used for the therapeutic purposes were the leaves (55%), seed (15%) etc.

The present study contributed to the documentation of the medicinal plants used in the ethnoveterinary practices in valleys in CKNP region, Gilgit-Baltistan.


Ethnoveterinary Practices  Livestock Diseases  CKNP – Gilgit-Baltistan


[1] McCorkle CM. An introduction to ethnoveterinary research and development. J Ethnobiol 1986; 6:129-149.

[2] Barboza RRD, Souto WMS, Mourao JS. The use of zootherapeutics in folk veterinary medicine in the district of Cubati, Paraiba State, Brazil. J Ethnobiol Ethnomed 2007; 3:1-14.

[3] Mathias E. Ethnoveterinary medicine: harnessing its potential. Vet Bull 2004; 74:27N–37N.

[4] Mathias-Mundy E, McCorkle CM. Ethnoveterinary Medicine: An Annotated Bibliography. Center for Indigenous Knowledge and Agricultural and Rural Development (CIKARD). Ames: Iowa State University (Bibliographies in Technology and Social Change, 1989, no. 6).

[5] Wanzala W, Zessin KH, Kyule NM, Baumann MPO, Mathias E, Hassanali A. Ethnoveterinary medicine: a critical review of its evolution, perception, understanding and the way forward. Livestock Res Rural Dev 2005; 17(119).

[6] Phondani PC, Maikhuri RK, Kal CP. Ethnoveterinary Uses of Medicinal Plants Among Traditional Herbal Healers in Alaknanda Catchment of Uttarakhand, India. Afr J Tradit Complement Altern Med 2010; 7:195–206.

[7] Kokwaro JO. Medicinal Plants of East Africa. East African Literature Bureau, Nairobi. 1976; 292-294.

[8] Cunningham AB, Zondi AS. Cattle owners and traditional medicines used for livestock. Investigational Report No. 69. Institute of Natural Resources, University of Natal, Pietermaritzburg 1991.

[9] McCorkle CM. Back to the future lessons from ethnoveterinary research, development extension for studying and applying knowledge. J Agric Food Human Values Society 1995; 22:52-80.

[10] Nfi AN, Mbanya JN, Ndi C, Kameni A, Vabi M, Pingpoh D, Yonkeu S, Moussa C. Ethnoveterinary medicine in the Northern Provinces of Cameroon. Vet Res Commun 2001; 25:71-76.

[11] Sinha P, Govil NJ, Singh VK. Diseases and their management, recent progress in medicinal plants. Sci. Tech, Pub LLC, USA. 2002; pp. 1-105.

[12] Ritter RA, Monteiro MVB, Monteiro FOB, Rodrigues ST, Soares ML, Silva JCR, Palha MDC, Biondi GF, Rahal SC, Tourinho MM. Ethnoveterinary knowledge and practices at Colares island, Para state, eastern Amazon, Brazil. J Ethnopharmacol 2012; 144:346-352 and references therein.

[13] Vucevac-Bajt V, Karlovic M. Traditional methods for the treatment of animal diseases in Croatia. Rev Sci Tech Off Int Epiz 1994; 13:499-512.

[14] Merwea D, Swana GE, Botha CJ. Use of ethnoveterinary medicinal plants in cattle by Setswana-speaking people in the Madikwe area of the North West Province of South Africa. J S Afr Vet Assoc 2001; 72:189-196.

[15] Pieroni A, Howard P, Volpato G, Santoro RF. Natural remedies and nutraceuticals used in ethnoveterinary practices in Inland Southern Italy. Vet Res Commun 2004; 28:55-80.

[16] Harun-or-Rashid M, Tanzin R, Ghosh KC, Jahan R, Khatun A, Rahmatullah M. An ethnoveterinary survey of medicinal plants used to treat cattle diseases in Birishiri area, Netrakona district, Bangladesh. Adv Nat Appl Sc 2010; 4:10-13.

[17] Gakuubi MM, Wanzala W. A survey of plants and plant products traditionally used in livestock health management in Buuri district, Meru County, Kenya. J Ethnobiol Ethnomed 2012; 8(39).

[18] Singh AG, Kumar A, Tewari DD. An ethnobotanical survey of medicinal plants used in Terai forest of western Nepal. J Ethnobiol Ethnomed 2012; 8:1-14.

[19] Pieroni A, Rexhepi B, Nedelcheva A, Hajdari A, Mustafa B, Kolosova V, Cianfaglione K, Quave CL. One century later: the folk botanical knowledge of the last remaining Albanians of the upper Reka Valley, Mount Korab, Western Macedonia. J Ethnobiol Ethnomed 2013; 9:1-18.

[20] Salave AP, Sonawane BN, Reddy PGD. Traditional ethnoveterinary practices in Karanji Ghat areas of Pathardi Tahasil in Ahmednagar district (M.S.) India Int J Pl An Env Sc 2012; 2:64-69.

[21] Bharati KA, Sharma BL. Plants used as ethnoveterinary medicines in Sikkim Himalayas. Ethnobot Res Appl 2012; 10:339-356.

[22] Wath M, Jambu S, Ramjan V. Documentation of ethnoveterinary practices among the Kolams of Yavtamal district. Biolife 2014, 2:538-542.

[23] Rajkumar NV, Kavithaa NV, Lakshmi CMS. Ethnoveterinary practices in Coimbatore district during foot and mouth disease outbreak. Int J Sc Env Tech 2014; 3:1480-1483.

[24] Mandal SK, Rahaman CH. Determination of informants’ consensus and documentation of ethnoveterinary practices from Birbhum district of west Bengal, India. Ind J Tradit Know 2014; 13:742-751.

[25] Lulekal E, Asfaw Z, Kelbessa E, Damme PV. Ethnoveterinary plants of Ankober District, North Shewa Zone, Amhara Region, Ethiopia. J Ethnobiol Ethnomed 2014; 10:1-19.

[26] Yigezu Y, Haile DB, Ayen WY. Ethnoveterinary medicines in four districts of Jimma zone, Ethiopia: cross sectional survey for plant species and mode of use. BMC Veterinary Research 2014; 10:1-12.

[27] Tekle Y. An ethno-veterinary botanical survey of medicinal plants in Kochore district of Gedeo Zone, Southern Nations Nationalities and Peoples Regional State (SNNPRs), Ethiopia. J Sc Innov Res 2014; 3:433-445.

[28] Giday M, Teklehaymanot T. Ethnobotanical study of plants used in management of livestock health problems by Afar people of Ada’ar District, Afar Regional State, Ethiopia. J Ethnobiol Ethnomed 2013; 9:1-10.

[29] Moreki JC. Documentation of ethnoveterinary practices used in family poultry in Botswana. Vet World 2013; 6:18-21.

[30] Moreki JC, Tshireletso K, Okoli IC. Potential use of ethnoveterinary medicine for retained placenta in cattle in Mogonono, Botswana. J Anim Prod Adv 2012; 2:303-309.

[31] Adedeji OS, Akande1 TO, Akinwumi AO, Okunlola DO, Shittu MD. Ethnoveterinary practices among sheep rearers in Ona-Ara Local Government of Oyo state, Nigeria. Sokoto J Vet Sc 2013; 11:38-44.

[32] Adedeji OS, Aiyedun JO. Ethnoveterinary practices in the treatment of skin disease (Mange) in small ruminants in Kwara State, Nigeria. J Env Iss Agri Dev Count 2013; 5:51-55.

[33] Alhaji NB, Babalobi OO. Participatory epidemiology of ethnoveterinary practices fulani pastoralists used to manage contagious Bovine Pleuropneumonia and other cattle ailments in Niger State, Nigeria. J Vet Med 2015; 2015 Article ID 460408, doi:10.1155/2015/460408.

[34] Mirani AH, Mirbahar KB, Bhutto AL, Qureshi TA. Use of medicinal plants for the treatment of different sheep and goat diseases in Tharparkar, Sindh, Pakistan. Pak J Agri Agril Engg Vet Sci 2014; 30:242-250.

[35] Hassan HU, Murad W, Tariq A, Ahmad A. Ethnoveterinary study of medicinal plants in Malakand Valley, District Dir (Lower), Khyber Pakhtunkhwa, Pakistan. Irish Veterinary Journal 2014; 67:1-6.

[36] Noman A, Hussain I, Ali Q, Muhammad A, Ashraf MA, Haider MZ. Ethnobotanical studies of potential wild medicinal plants of Ormara, Gawadar, Pakistan. Emir J Food Agric 2013; 25:751-759.

[37] Khan MA, Khan MA, Hussain M. Ethnoveterinary medicinal uses of plants of Poonch valley Azad Kashmir. Pak J Weed Sci Res 2012; 18:495-507.

[38] Khan FM, HR Choudhry, YS Mustafa, W Ahmad and HM Farhan, Ethnoveterinary zootherapies and occult practices in greater Cholistan desert (Pakistan). Sci Int (Lahore) 2011; 23:241-243.

[39] Khan FM. Ethnoveterinary medicinal usage of flora of greater Cholistan desert (Pakistan). Pak Vet J 2009; 29:75-80.

[40] Qureshi RA, Ghufran MA, Sultana KN, Ashraf M, Khan AG. Ethnobotanical studies of medicinal plants of Gilgit district and surrounding areas. Ethnobot Res Appl 2006; 5:115-122.

[41] Khan SW, Khatoon S. Ethnobotanical studies on useful trees and shrubs of Haramosh and Bugrote valleys in Gilgit northern areas of Pakistan. Pak J Bot 2007; 39:699-710.

[42] Shah GM, Ahmad M, Arshad M, Khan MA, Zafar M, Sultana S. Ethno-phyto-veterinary medicines in Northern Pakistan. The J An Pl Sc 2012; 22:791-797.

[43] Shedayi AA, Gulshan B. Ethnomedicinal uses of plant resources in Gilgit-Baltistan of Pakistan. J Med Pl Res 2012; 6:4540-4549.

[44] Abbas Q, Qureshi R, Naqvi AUN, Khan SW, Hussain I. Floristic inventory and ethnobotanical study of the Naltar valley (Karakoram range), Gilgit, Pakistan. Pak J Bot 2013; 45:269-277.

[45] Hyder S, Khatoon S, Imran M. Ethnobotanical studies on plants of district Hunza-Nagar (Gilgit-Baltistan), Pakistan. Int J Biol Biotech 2013; 10:91-99.

[46] Bano A, Ahmad M, Zafar M, Sultana S, Rashid S, Khan MA. Ethnomedicinal knowledge of the most commonly used plants from Deosai Plateau, Western Himalayas, Gilgit Baltistan, Pakistan. J Ethnopharmacol 2014; 155:1046-52.

[47] Bano A, Ahmad M, Hadda TB, Saboor A, Sultana S, Zafar M, Khan MPZ, Arshad M, Ashraf MA. Quantitative ethnomedicinal study of plants used in the Skardu valley at high altitude of Karakoram-Himalayan range, Pakistan. J Ethnobiol Ethnomed 2014; 10:1-17.

[48] Hussain A, Farooq MA, Ahmed M, Akbar M, Zafar MU. Phytosociology and Structure of Central Karakoram National Park (CKNP) of Northern areas of Pakistan. World Applied Sci J 2010; 9:1443-1449.

[49] Hussain A, Ahmed M, Akbar M, Zafar MU, Nazim K, Khan M. Quantitative community description from Central Karakoram National Park Gilgit-Baltistan, Pakistan. FUUAST J Bio 2011; 1:135-143.

[50] Hussain A, Ahmed M, Shaukat SS, Akbar M, Zafar MU. Future trends of the vegetation from Central Karakoram National Park, Gilgit-Baltistan, Pakistan. Sci Tech and Dev 2013; 32:165-181.

[51] Awan MR, Jamal Z, Khan A. Ethnobotanical studies of economically important plants from mountainous region of Gilgit-Baltistan, Pakistan. Sci Tech and Dev 2013; 32:308-318.

[52] Fowler HJ, Archer DR. Conflicting Signals of Climatic Change in the Upper Indus Basin. Journal of Climate Change 2006; 19:4276-4293.

[53] Nawaz MA, Shadie P, Zakaria V. Central Karakoram conservation complex, draft management plan. IUCN Project Activity Code (s): 2009; A.2.2.3.

[54] Hussain I, Bano A, Ullah F. Traditional drug therapies from various medicinal plants of Central Karakoram National Park, Gilgit-Baltistan, Pakistan 2011.

[55] Martin GJ. Ethnobotany: a methods manual London. UK: Chapman and Hall 1995.

[56] Cotton CM. Ethnobotany: Principles and applications Chichester. New York: John Wiley and Sons Ltd. 1996.

[57] Cunningham AB. Applied Ethnobotany: People, wild plant use and conservation. Earthscan Publishing Limited, London 2001.

[58] Jabbar A, Raza MA, Iqbal Z, Khan MN. An inventory of the ethnobotanicals used as anthelmintics in the southern Punjab (Pakistan). J Ethnopharmacol 2006; 108:152-154.

[59] Trotter RT, Logan MH. Informant consensus: a new approach for identifying potentially effective medicinal plants. In: Etkin NL, editor. Plants in Indigenous Medicine and Diet. Bedford Hills, New York: Redgrave Publishing Company 1986, pp. 91-112.

[60] Heinrich M, Ankli A, Frei B, Weimann C, Sticher O. Medicinal plants in Mexico: Healers’ consensus and cultural importance. Soc Sci Med 1998; 47:1859-1871.

[61] Sharma R, Manhas RK, Magotra R. Ethnoveterinary remedies of disease among milk yielding animals in Kathua, Jammu and Kashmir, India. J Ethnopharmacol 2012; 141:265-272.

[62] Ali, S. Yak – the cryophilic species of Baltistan. ISBN 978-969-0-02516-6. Published by Ferozsons (Pvt.) Ltd. Printing division Lahore, Pakistan 2015.

[63] Kiss T, Orvos P, Bánsághi S, Forgo P, Jedlinszki N, Tálosi L, Hohmann J, Csupor D. Identification of diterpene alkaloids from Aconitum napellus subsp. firmum and GIRK channel activities of some Aconitum alkaloids. Fitoterapia 2013; 90:85-93.

[64] Raj J, Basant B, Murugan PM, Teixeira-da-Silva JA, Saurav K, Chaurasia OP, Singh SB. Screening phytochemical constituents of 21 medicinal plants of trans-Himayalan region. Med Arom Pl Sc Biotechnol 2010; 4: 90-93.

[65] Chhatre S, Nesari T, Somani G, Kanchan D, Sathaye S. Phytopharmacological overview of Tribulus terrestris. Pharmacogn Rev 2014; 8:45–51 and references therein.

[66] Jakupovic J, Tan RX, Bohlmann F, Jia ZJ, Huneck S. Seco- and Nor-sesquiterpene lactones with a new carbon skeleton from Artemisia santolinifolia. Phytochemistry 1991; 30:1941-1946.

[67] Liu SJ, Liao ZX, Liu C, Ji LJ, Sun HF. Two new sesquiterpenes from Artemisia sieversiana. Fitoterapia 2014; 97:43-49.

[68] She GM, Xu C, Liu B. New monocyclic monoterpenoid glycoside from Mentha haplocalyx Briq. Chem Cent J 2012; 6:37.

[69] Ma X, Laaksonen O, Zheng J, Yang W, Trépanier M, Kallio H, Yang B. Flavonol glycosides in berries of two major subspecies of sea buckthorn (Hippophaë rhamnoides L.) and influence of growth sites. Food Chem 2016; 200:189-198.

[70] Kumar D, Bhat ZA. Apigenin 7-glucoside from Stachys tibetica Vatke and its anxiolytic effect in rats. Phytomedicine 2014; 21:1010-1014.

[71] Moniruzzaman, Shahinuzzaman, Haque A, Khatun R, Yaakob Z. Gas chromatography mass spectrometry analysis and in vitro antibacterial activity of essential oil from Trigonella foenum-graecum. Asian Pacific Journal of Tropical Biomedicine 2015; 5:1033-1036.

[72] Ashraf SN, Zubair M, Rizwan K, Tareen RB, Rasool N, Zia-ul-Haq M, Ercisli S. Compositional studies and Biological activities of Perovskia abrotanoides Kar. oils. Biol Res 2014; 47:12.

[73] Shah NC, Thakur, RS. Chemical Composition of the Leaf/Inflorescence Oil of Seriphidium brevifolium (Wall.) Y. Ling et Y. R. Ling. Journal of Essential Oil Research 1992; 4:25-28.

[74] Grade JT, Tabuti JR, VanDamme P. Ethnoveterinary knowledge in pastoral Karamoja, Uganda. J Ethnopharmacol 2009; 122:273-293.

[75] Dilshad SM, Najeeb-ur-Rehman, Iqbal Z, Muhammad G, Iqbal A, Ahmad N. An inventory of the ethnoveterinary practices for reproductive disorders in cattle and buffaloes, Sargodha district of Pakistan. J Ethnopharmacol 2008; 117:393-402.

[76] Mathias E. Ethnoveterinary medicine in the era of evidence-based medicine: Mumbo-jumbo, or a valuable resource? Vet J 2007; 173:241-242.

[77] Njoroge GN, Busssmann RW. Herbal usage and informant consensus in ethnoveterinary management of cattle diseases among the Kikuyus (Central Kenya). J Ethnopharmacol 2006; 108:332-339.

[78] Yirga G, Teferi M, Gidey G, Zarabruk S. An ethnoveterinary survey of medicinal plants used to treat livestock diseases in Seharti-Samre district, Northern Ethiopia. Afr J Pl Sci 2012; 6:113-119.

[79] Canales M, Hernandez T, Caballero J, Romo de Vivar A, Avila G, Duran A, Lira R. Informant consensus factor and antibacterial activity of the medicinal plants used by the people of San Rafael Coxcatlan, Puebla, Mexico. J Ethnopharmacol 2005; 97:429-439.

[80] Rajakumar N, Shivanna MB. Ethno-medicinal application of plants in the eastern region of Shimoga district, Karnataka, India. J Ethnopharmacol 2009; 126:64-73.

[81] Tangjitman K, Wongsawad C, Kamwong K, Sukkho T, Trisonthi, C. Ethnomedicinal plants used for digestive system disorders by the Karen of northern Thailand. J Ethnobiol Ethnomed 2015; 11:1-13 and references therein.

[82] Menghani E, Soni M. Antimicrobial efficacy of Cassia tora and Aconitum napellus. Int J Pharm Pharmaceut Sc 2012; 4:700-702.

[83] Lekshmi NCJP, Viveka S, Jeeva S, Brindha RJ. Efficacy of crude extracts of Allium sativum and Allium cepa against human pathogens. Adv Appl Sc Res 2015; 6:72-78.

[84] Salim FD, Ahmed SH, Abd AM, Skben SZ, Ramadhan NAZ. Determination of total phenol, antioxidant and antimicrobial activities of Avena sativa and Ocimum basilicum. Baghdad Science Journal 2014; 11:1062-1066.

[85] Mazhar-ul-Islam, Azhar I, Usmanghani K, Gill MA, Shahab-ud-din, Ahmad A. Antifungal activity evaluation of Bergenia ciliata. Pak J Pharmacol 2002; 19:1-6.

[86] Uddin G, Rauf A, Arfan M, Ali, M, Qaiser M, Saadiq M, Atif M. Preliminary phytochemical screening and antioxidant activity of Bergenia caliata. Middle-East Journal of Scientific Research 2012; 11:1140-1142.

[87] Pokhrel P, Banerjee J, Dahal P, Khanal H, Gupta AK, Dey BK. Phytochemical screening and biological evaluation of different parts of plant Bergenia ciliata. J Pharmacog Phytochem 2014; 3:220-224.

[88] El-Wahab AEA, Ghareeb DA, Sarhan EEM, Abu-Serie MM, El-Demellawy MA. In vitro biological assessment of Berberis vulgaris and its active constituent, berberine: antioxidants, anti-acetylcholinesterase, anti-diabetic and anticancer effects. BMC Compl Alt Med 2013; 13:1-12.

[89] Kumaraswamy MV, Satish S. Free radical scavenging activity and lipoxygenase inhibition of Woodfordia fructicosa Kurz and Betula utilis Wall. Afr J Biotech 2008; 7:2013-2016.

[90] Kumaraswamy MV, Kavitha HU, Satish S. Antibacterial evaluation and phytochemical analysis of Betula utilis D. Don against some human pathogenic bacteria. World J Agr Sc 2008; 4:661-664.

[91] Poffenberger M, McGean B, Khare A, Campbell J. Community Forest Economy and Use Pattern: Participatory Rural Appraisal Method in South Gujarat, India. Field Methods Manual Volume II. New Delhi, Society for promotion of Wastelands Development 1992.

[92] Luis JC, Valdés F, Martín R, Carmona AJ, Díaz JD. DPPH radical scavenging activity of two flavonol glycosides from Aconitum napellus sp. lusitanicum. Fitoterapia 2006; 77:469-471.

[93] Zhou XD, Chai XY, Zeng KW, Zhao MB, Jiang Y, Tu PF. Artesin A, a new cage-shaped dimeric guaianolide from Artemisia sieversiana. Tetrahedron Letters 2015; 56:1141-1143.

[94] Rastogi S, Pandey MM, Rawat AKS. Medicinal plants of the genus Betula – Traditional uses and a phytochemical-pharmacological review. Journal of Ethnopharmacology 2015; 159:62-83 and references therein.

[95] Tripathee HP, Sharma RP, Timilsina YP, Pathak R, Devkota KP. An Assessment of Ethnomedicinal Use, Chemical Constituents Analysis and Bioactivity Evaluation on High Altitude Medicinal Plant Delphinium brunonianum of Manang District. Nepal Journal of Science and Technology 2011; 12:111-118.

[96] Sezik E, Aslan M, Yesilada E, Ito S. Hypoglycaemic activity of Gentiana olivieri and isolation of the active constituent through bioassay-directed fractionation techniques. Life Sciences 2005; 76:1223-1238.

[97] Wang J, Lan Y, Li H, Zhang Y, Zhang Q, Cao Y, Wu Q. Percutaneous penetration enhancement effect of essential oil of mint (Mentha haplocalyx Briq.) on Chinese herbal components with different lipophilicity. J Trad Chin Med Sc 2014; 1:109-119.

[98] Ahmad VU, Parvez A, Hassan NM. Isolation and structure determination of peradione (1) a novel triterpene with a rearranged perovskane skeleton from Perovskia abrotanoides. Tetrahedron Letters 1993; 34:5337-5340.

[99] Tomczyk M, Latté KP. Potentilla—A review of its phytochemical and pharmacological profile. Journal of Ethnopharmacology 2009; 122:184-204 and references therein.

[100] Atta-ur-Rahman, Haroone MS, Tareen RB, Mesaik MA, Jan S, Abbaskhan A, Asif M, Gulzar T, Al-Majid AM, Yousuf S, Choudhary MI. Secondary metabolites of Sophora mollis subsp. griffithii (Stocks) Ali. Phytochemistry Letters 2012; 5:613-616.

[101] Sinha S, Amin H, Nayak D, Bhatnagar M, Kacker P, Chakraborty S, Kitchlu S, Vishwakarma R, Goswami A, Ghosal S. Assessment of microtubule depolymerization property of flavonoids isolated from Tanacetum gracile in breast cancer cells by biochemical and molecular docking approach. Chemico-Biological Interactions 2015; 239:1-11.

[102] Song YH, Kim DW, Curtis-Long MJ, Park C, Son M, Kim JY, Yuk HJ, Lee KW, Park KH. Cinnamic acid amides from Tribulus terrestris displaying uncompetitive α-glucosidase inhibition. Eur J Med Chem 2016; 114:201-208.

[103] Benayad Z, Gómez-Cordovés C, Es-Safi NE. Identification and quantification of flavonoid glycosides from fenugreek (Trigonella foenum-graecum) germinated seeds by LC–DAD–ESI/MS analysis. Journal of Food Composition and Analysis 2014; 35:21-29.


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