Article
Cover
RJAS Journal Cover Page

RGUHS Nat. J. Pub. Heal. Sci Vol No: 11 Issue No: 1  pISSN: 2249-2194

Article Submission Guidelines

Dear Authors,
We invite you to watch this comprehensive video guide on the process of submitting your article online. This video will provide you with step-by-step instructions to ensure a smooth and successful submission.
Thank you for your attention and cooperation.

Review Article
Bani Shashikala B*,1, Mallya Suma V2, Kotturshetti Iranna B3,

1Dr. Shashikala B Bani, Professor & Head, Department of PG Studies in Dravya Guna, Rajiv Gandhi Education Society’s Ayurvedic Medical College, Ron, Karnataka.

2Department of Dravyaguna, Shri Dharmasthala Manjunatheshwara College of Ayurveda, Kuthpady, Udupi, Karnataka

3Department of PG studies in Panchakarma, Rajiv Gandhi Education Society’s Ayurvedic Medical College, Ron, Karnataka.

*Corresponding Author:

Dr. Shashikala B Bani, Professor & Head, Department of PG Studies in Dravya Guna, Rajiv Gandhi Education Society’s Ayurvedic Medical College, Ron, Karnataka., Email: dr.shashikalabani@gmail.com
Received Date: 2021-09-28,
Accepted Date: 2023-03-04,
Published Date: 2023-06-30
Year: 2023, Volume: 10, Issue: 1, Page no. 14-20, DOI: 10.26463/rjas.10_1_7
Views: 1468, Downloads: 27
Licensing Information:
CC BY NC 4.0 ICON
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0.
Abstract

The plant kingdom has always been the favourite source of medication in all tradition all over the world. Plants are the source of nutrition and medicaments. It is an approved fact that nothing will exist in this universe without any medicinal properties. This contention is more strengthened by the eternal flow of traditional use of plants as medicine. Last few decades have shown notable resurgence of interest in medicinal plants. Guizotia abyssinica Cass. commonly known as Ramtil (Niger), regionally called as Gurellu, native of Ethiopia cultivated in India also, is an erect, stout, branched annual herb, grown for its edible oil and seed. Seeds are specially used to prepare in dry chutney, condiments & as accompaniments in southern India. The ethnomedical claim about this culinary ingredient induced a focus explore it in wide angle. Various parts of the plants like leaves, whole plant are commonly used in Agro forestry and Industries. The seeds and seed oil being used culinary, it has the nutritional potentiality. It has showed the presence of major fatty acids like linoleic acids, lupeol etc. which can be taken as source for the healthy lipids. The anti-oxidant, anti-inflammatory and anthelmintic activities have been observed while screening.

<p style="text-align: justify;">The plant kingdom has always been the favourite source of medication in all tradition all over the world. Plants are the source of nutrition and medicaments. It is an approved fact that nothing will exist in this universe without any medicinal properties. This contention is more strengthened by the eternal flow of traditional use of plants as medicine. Last few decades have shown notable resurgence of interest in medicinal plants. <em>Guizotia abyssinica</em> Cass. commonly known as Ramtil (Niger), regionally called as <em>Gurellu</em>, native of Ethiopia cultivated in India also, is an erect, stout, branched annual herb, grown for its edible oil and seed. Seeds are specially used to prepare in dry chutney, condiments &amp; as accompaniments in southern India. The ethnomedical claim about this culinary ingredient induced a focus explore it in wide angle. Various parts of the plants like leaves, whole plant are commonly used in Agro forestry and Industries. The seeds and seed oil being used culinary, it has the nutritional potentiality. It has showed the presence of major fatty acids like linoleic acids, lupeol etc. which can be taken as source for the healthy lipids. The anti-oxidant, anti-inflammatory and anthelmintic activities have been observed while screening.</p>
Keywords
Ramtil (Niger), Seeds, Gurellu, Edible oil, Ethnomedical, Culinary
Downloads
  • 1
    FullTextPDF
Article
Introduction

Folklore medicine known as the ‘Traditional medicine’ existed before, exists now and will exist tomorrow and forever. Traditional herbal medicines and their preparations have been widely used for thousands of years in developing and developed countries owing to their natural origin and lesser side effects or dissatisfaction with synthetic drugs.1 There are many plants used in folklore practices but not included in the classic literature. These plants play a major role in the lives of tribal and rural people by helping in relieving ailments, particularly in remote parts of developing countries. The ethnic and rural people of India have preserved a large bulk of traditional knowledge about medicinal uses of plants of their locality. This treasure of knowledge is handed down from generation to generation orally and is extensively used for the treatment of common diseases and conditions. The indigenous method of preparation maintains its own unique methodology. Furthermore the traditional folk healers treat with kindness, grace,  patience and tolerances, which plays a vital role in healing process.2 Non documentation of such oral traditional knowledge about the medicinal plants along with urbanization and loss of green wealth could become a grave problem, with greater probability of losing some valuable botanicals, if not given any importance at least now

Guizotia abyssinica Cass.3,4 of Compositae family is an erect, stout, branched annual plant, commonly known as Ramtil or Niger plant. It is a popular source of oil seed crop cultivated mainly in different parts of Ethiopia and India.4 The black coloured seeds of the plants are commonly found in households of South India like Karnataka, Maharashtra, Madhya Pradesh, Andhra Pradesh used for culinary preparations like dry chutney, sweets, as accompaniment with other food articles and as a source of edible oil.5,6 These widely used seeds, possessing valuable therapeutic and nutritional properties, but less studied or scientifically documented is an example of the folklore medicine. The present paper is intended for comprehensive review on the literature of the plant and documents the pharmocological and phytochemical profile of Guizotia abyssinica Cass.

Plant profile

Baagoe (1974) presented a taxonomic revision of the genus based on morphological traits for the Guizotia.7

Nomenclature8

Guizotia: In honour of M. Guizot, the great French Minister Linn. Abyssinicca: Native of Abyssinia, Horn of Africa.

Taxonomical position7

Kingdom - Planatae

Phylum - Angiospermae

Class - Dicotyledoneae

Subclass - Sympetalae

Order - Campunulales

Family - Compositae

Tribe - Heliantheae

Sub tribe - Corepsidinae

Genus - Guizotia

Species - abyssinica

Vernacular names

English: Niger, Niger seed, Niger seed oil, Ramtil oil, Kerasani seeds, Surguja

Ethiopian: 

Amharic - Nog, Nuk, Nook, Noog(The plant), Nehigue (The oil),

Tigrinya and Sahinya - Neuk, Nuhk, Nehug

Orimigna, Galignya - Nuga, Nughi

Kaffinya - Nughio

Gumuzinya - Gizkoa

Indian

Assamese : Sorguja

Bengali : Ramtil, Surguja, sirguja, sarguza

Bhopal : Rameli

Gujarati : Kharasani, Kesani, Ramtal, Kaltel, Ramtal

Hindi : Ramtil, Kala til, Jagni

Kannada : Hucchellu, Gurellu

Marathi : Karale, Khurasani, Karla

Oriya : Alashi

Punjabi : Ramtil

Tamil : Kattellu, Uchellu, Payel

Telugu : Verinuvvulu,Valesulu, Ulasi3,4.6.9

Local name and its derivation

Guizotia abyssinica Cass. plant is the source of oil seeds grown in Southern part of India. These seeds are termed as Niger seeds, commonly identified as Gurellu / Hucchellu in Northern Karnataka. Botanically these are the fruits of the plant termed as achene. The seeds are black coloured, obovoid and source of the oil similar to seeds of Tila (Black Sesame Seeds). The Tila (Sesame Seeds) recognised as Ellu in the Karnataka region, Guizotia abyssinica Cass seed termed as Hucchellu / Gurellu look alike

Morphological features

Guizotia abyssinica Cass. is an annual dicotyledon plant. Epigeal germination takes place with pale brown hypocototyls and cotyledons, remaining for long period in the seedling herb (Figure 1).

Leaves: A small first paired leaves appear and the successive leaves initially and later are larger with varying colour from light green to dark green and have smooth surface. They are opposite, sessile, subcordate or ovate – lanceolate, serrate, sub scabrous, up to 22 cm long, involucre with ovate, biseriate scales (Figure 2).

Stem: The stem is smooth or slightly rough, hollow and easily breakable, usually either moderately or well branched.

Flowers: The flowers are yellow, conspicuous, in solitary or clustered heads, arranged in corymbs, with heads of 40-60 tubular hermaphroditic florets, surrounded by a marginal row of ligulate florets. The receptacle is semi-spherical, 1-2 cm in diameter and 0.5-0.8 cm high and enclosed by two rows of involucral bracts. The capitulum includes six to eight fertile female ray florets with narrowly elliptic, obovate ovules. The stigma has 2 mm long two curled branches. The disk florets are yellow to orange in colour containing yellow anthers and densely hairy stigma (Figure 3).

Flowering in each head lasts for 7-8 days, probably cross pollinated by the bees. About 40 fruits termed as achenes are produced in each head. These achenes are black in colour, with a white to yellow scar over the base and top. They bear a hard testa and white embryo10,11-13 (Figure 4).

Origin and distribution

It was believed to have originated from Ethiopia where it was domesticated in 2000 BC. It is largely found in the Ethiopian Highland of west of Rift valley. It was taken to India by the immigrants probably in the third millen- nium along with other crops like finger millets.9

It is cultivated in various parts of India, such as Andhra Pradesh, Madhya Pradesh, Orissa, Maharashtra, Bihar, Karnataka, Nagar Haveli, West Bengal etc. Madhya Pradesh is the largest among them. Bidar, Bijapur, Gul- barga, Gadag, Bagalkot, Haveri, Dharwad are the major districts of distribution in Karnataka.4

Useful Parts: Seeds, seed oil, leaves and roots.2-15

Extraction of Guizotia abyssinica Cass. seed oil

Guizotia abyssinica Cass. seed oil is pale yellow, has nutty taste and a pleasant odour. Traditionally it is ex- tracted in Ethiopia through a combination of warming, grinding and mixing with hot water, followed by centrif- ugation in an ‘ensera’ (a container made of Clay). Af- ter an hour of centrifugation on smooth soft surface, the pale yellow oil settles over the meal. The seeds are also crushed in small cottage expellers and large oil mills. The meal remaining after extraction of the oil using Ethiopian expellers, contains 6 -12% oil depending on expeller. In India, the oil is extracted by bullock – pow- ered local Ghani and rotary mills (cottage expellers) or in mechanized expellers and hydraulic presses in large industrial areas.4,14 

Uses

Culinary uses

Cold pressed seed oil and refined hot pressed oil in fresh state is used locally for edible purpose.15-17 In Ethiopia, seeds are used at household level to make oil, to make paste known as ‘litlit’ and also paste mix with snack, which is commonly given to a large family to subdue appetite at extra meal hour. The seed paste is mixed with other roasted cereal or applied on flat bread or ‘injera used during special occasions, especially in Northern Ethiopia. The flour or the meal from the oil press is also used to smoothen the heated baking clay pan before baking as ‘masesha’.18 In Ethiopia, ‘Wot’ is prepared by warming the seed in kettle over an open fire, crushed with a pestle in a mortar and then mixed with crushed pulses. The seeds are crushed and mixed with roasted cereals to prepare ‘Chibto’, a preferred food for young boys.14,18 The seeds are used for making chutneys and condiments. A spicy preparation called Chutney prepared by mixing red chilli powder with roasted and pounded seed is a common preparation in rural areas of India. These seeds are parched with pulses as snack food. It is fried in ghee, can accompany other foods to enhance their palatability and nutritional quality.4

Agro Forestry uses

The plant of Guizotia abyssinica Cass. is fed to sheep, silage can be fed to cattle. The green stalks and leaves of plant are used as green manure to increase the organ- ic soil matter. The dried plant contains nitrogen 0.20, potash (K2O) 0.85, and phosphoric acid (P2O5) 0.11%. The seeds are sometimes fed to cage birds. These are fa- vourites of finches especially Goldfinch and Greenfinch, referred or sold as thistle seed. Niger seedcake is utilized for feeding cattle or as manure. It has a high manorial value and gives good results when applied to sugar cane crops.4

Industrial uses

The oil contains stearic or palmitic acid and is employed for making soap and illuminate. The soap made from it is white and soft. The oil is almost odourless and absorbs the characteristic fragrance of flowers. This oil is used in cosmetic industry. The seed oil is often used as a sub- stitute or as an adulterant for other oils as it is relatively low in cost. The seed oil is a semi-drying oil used to a limited extent as paint oil.

Ethno medicinal uses

Guizotia abyssinica Cass. seeds are roasted and pounded into flour, boiled, inhaled and drunk as a remedy for common cold. A preparation named ‘Tej’ which is a mixture of Guizotia abyssinica Cass. seed sprouts mixed with garlic is used to treat cough. A thick paste of leaves and root made with water is applied to joints in rheumatism, arthritis and to treat burns. The seeds are used for birth control. Seed oil is applied for healing of burns. Seed paste and seed oil are applied to treat microbial infections. The seeds are used as poultice, applied to the surface of the body to relieve pain, itching, swelling, inflammation, abscesses, boils etc.2 Reports are available regarding the use of seed oil for birth control and in the treatment of syphilis.2,18

Phytochemical Profile

Guizotia abyssinica Cass. seeds are reported to contain nutritional components like oil (30-40%), proteins (10- 25%), soluble sugars (12-18%), crude fibre (10-20%) and moisture (10-11%).9 The fixed oil is a mixture of triglycerides, lauric, palmitic, palmitoleic, stearic, oleic, linoleic and arachidic acids. The unsaponifiable matter is said to be the mixture of sigmasterol n-triacontne and lupeol.3

The seed oil has typical fatty acid composition of Compositae plant family with linoleic acid as dominant fatty acid. The characteristics of Indian variety seed oil are different from those of the African variety. The latter is reported to be richer in Linoleic acid (70%) than the Indian. The linoleic acid content is approximately 55% in seeds grown in India with a corresponding increase in oleic acid content. The components of fatty acids of the oil are myristic (including capric and lauric acids) 1.7-3.4; palmatic 5.0-6.4; stearic 2.0-4.9; oleic 31.1-38.9; linoleic 51.6-54.3%; arachidic acids. The components glycerides are trilinolien 2.0, oleodilinolien 40, dioleodililinilien 30, mitodililinolien 6.0, palmito oleolinolien 11.0, stearodilineolien 2 and sterooleolinolein 4%.19,20,21

As reported, the total lipid of the seed oil is triacylglycerides and 0.7-.8% of polar lipids account for the lipid content. The amount of total tocopherol is 720 -935 µg/g oil in which α – tocopherol is 90%, 3-5% is ɤ-tocopherol and β–tocopherol is only 1%. High levels of α– tocopherol being antioxidant improves the stability of the seed oil. The total sterol consists of 38-43% β, 14% campesterol,14% stigmasterol, 5-7% of 5 avenasterol and 4% of 7 avenasterol.22

The amino acid composition of the seed protein showed a deficiency in tryptophan. The lipoprotein concentration is isolated from seeds using hot water/ ethanol, sodium chloride solution extraction (Eklund 1971a,1971b). This lipoprotein has 4% moisture, 12% ash, 46% protein, 20% fat, 7% crude fibre and 11% soluble carbohydrate. The lipoprotein has 400 kcal/100g of energy content.23

The seed meal/cake remaining after oil extraction contains approximately 30% protein and 23% crude fibre. Overall compositions of oil, protein and crude fibre content of the seed are affected by the thickness of the hull; thicker the hull, less is the oil & protein and more is the crude fibre. The chemical composition and nutritive value of the seed cake is crude protein 32.74 on basis of dry matter; ether extract 4.42; crude fibre 17.62; N- free extract 31.45; total ash 13.75; calcium (CaO) 0.84, Phosphorous (P2O5) 2.55%; digestible nutrients – crude protein 32.74; ether extract 4.38; total carbohydrate 6.80; total digestible nutrients 49.4; and starch equivalent 43.3lb/100lb.4

Ariel part of the plant showed the presence of nin flavonoids (-) liquiritigenin, (-)-7,3’,4’-trihydroxy flavanone,(-)-7,8,3’,4’-tetrahydroxyflavanone,7,3’,4’- trihydroxyflavone, quercentin, isoliquiritigenin, butein, okanin and 3,2’4’- trihydroxy-4,3’-dimethoxychalcone.24

Investigations regarding the phytoconstituents of ethanolic extract of seeds reported the presence of tannins, terpanoids, alkaloids, flavonoids, cardiac glycosides and steroids.25-27

Pharmacological Profile

The pharmacological properties concerning the ethno medical claims were investigated scientifically and major database of the activities has emerged. Dwivedi Sumeet et al., assessed the in vitro anthelminthic activity in earthworms with aqueous extract and ethanolic extract of leaves and seeds, reported a significant anthelmintic activity of the aqueous extract compared to ethanolic extract.28 The acute toxicity test in albino rats has not exhibited any toxic effect. On screening, the anti- inflammatory activity of aqueous and ethanolic extract was found to be significant with p <0.01.29

Amin N et al., conducted a study to determine the antimicrobial, antifungal and cytotoxic activity of the ethnolic extract of seeds of Guizotia abyssinica Cass. The antibacterial activity against the strains like Bacillus subtilis, Streptococcus aureus, Streptococcus abony, Escherichia coli, Pseudomonas aerugiosa was assessed. Inhibitory activity against all the microorganisms with higher antibacterial effect against E. coli, S. abony and B. subtilis was observed.

Ethanolic extracts of Guizotia abyssinica Cass. seed when tested against pathologic fungi like Alternaria solani, Lasiodiploidia theobromae, Rhizopus spp., and Aspegillus niger, exhibited good antifungal activity except against Alternaria solani. Ethanolic extracts of seeds of Guizotia abyssinica Cass. evaluated for cytotoxic activity on c2c12 (Mouse, Muscle cell line) and HEK293T(Human embryonic kidney cell line) showed remarkable cytotoxic effect29 Hirvey Swati et al., studied anti-diabetic activities of ethanolic extract of Guizotia abyssinica Cass. seed using in vitro and in vivo methods and reported significant in vivo anti-diabetic activity supported by the in vitro study.30

Antioxidant activity of methanol and n-hexane extracts of leaves and seeds of Guizotia abyssinica Cass. have been assayed for total antioxidant capacity, total phenolic content, 2,2-diphenyl-1-picrylhydrazyl (DPPH) scavenging activity, reducing power and lipid peroxidation activities. All the activities showed a significant increase in antioxidant potential with increase in concentration of the extract. The total methanol and n– hexane extracts showed higher reducing power and the percentage inhibition of linoleic acid lipid peroxidation was considerable compared to the standard n-propyl gallate. Antioxidant activity of the plant extracts are not limited to phenolic compounds, and can also be attributed to other secondary metabolites such as volatile oils, carotenoids and vitamins.31

Discussion and Conclusion

Guizotia abyssinica Cass. is a commonly cultivated plant for its culinary use. Leaves or the whole plant has utility in agroforestry and industries. The seeds and seed oil have been used for culinary purpose because of nutritional potentiality. Several ethno-medical claims regarding medical properties ignited the vision of scientific validation about pharmacological properties of the plants. This review about phytochemical and pharmacological profile provides scientific data about the qualitative and quantitative assay of the seeds and seed oil, demonstrating the presence of fatty acids like linoleic acids, oleic acids, lupeol, and presence of healthy lipids. The pharmacological profile indeed provides the preliminary validation for the pharmacological properties mentioned in the ethno medicine. Different research protocols can be framed based on the preliminary literary studies which can widen the pharmacological perspective of Guizotia abyssinica Cass

Conflict of Interest

Nil

Acknowledgement

Authors are obliged to President, Dr. D. Veerendra Heggade, SDM Educational Society and Shri G S Patil Chairman Rajiv Gandhi Education Society for constant support. Authors are indebted to Dr. Mamatha Principal SDM Udupi for Guidance and support.

Supporting File
References
  1. Kamboj A. Analytical Evaluation of Herbal Drugs [Internet]. Drug Discovery Research in Pharmacognosy. InTech; 2012. Available from: http://dx.doi. org/10.5772/26109
  2. Sumeet D, Seema K. Folk-lore uses of Guizotia abyssinica (L.F) Cass among tribal and rural people of Madhya Pradesh. Int J Pharm Teach Pract 2012;3(4):434-437.
  3. Kirtikar KR, Basu BD. Indian medicinal plants. Volume II. Dehradun: International Book distributors; 2006. p. 1369.
  4. Anonymous. Wealth of India, A dictionary of Indian raw materials & industrial products. Volume – IV. New Delhi: Council of Scientific & Industrial Research; 2009. p. 270-275.
  5. Khare CP. Indian medicinal plants: an illustrated dictionary. Springer; 2007. p. 297.
  6. Nadakarni KM. Indian material Medica. Volume I. Revised by A.K. Nadakarni. Dehradun: International book distributor; 2006. p. 395.
  7. Getinet A, Sharma SM. Niger Guizotia abyssinica (L.F) Cass promoting the conservation & use of underutilized and neglected crop. Rome: The International Plant Genetic Resources Institution; 1996. p. 7.
  8. Herman S. Paxton’s botanical dictionary. London: Bradbury Evans & co; 1868. p. 267.
  9. Getinet A, Sharma SM. Niger Guizotia abyssinica (L.F) Cass promoting the conservation & use of underutilized and neglected crop. Rome: The International Plant Genetic Resources Institution; 1996. p. 8.
  10. Bapalal V. Some controversial drugs in Indian medicine. Varanasi: Chaukhambha Orientalia; p. 161.
  11. Getinet A, Sharma SM. Niger Guizotia abyssinica (L.F) Cass promoting the conservation & use of underutilized and neglected crop. Rome: The International Plant Genetic Resources Institution; 1996. p. 9.
  12. Dwivedi S, Dwivedi A, Kohli S. Morphological and microscopical observations of the medicinal seeds of Guizotia Abyssinica (L.F.) Cass (Asteraceae). PhTechMed 2013;2(2):221-23.
  13. Theodore C. Flora of presidency of Bombay. Volume – II. London: Taylor & Francis; 1903. p. 66.
  14. Nagaraj G. Quality and utility of oilseeds. Hyderabad: Directorate of oil seeds research (Indian Council of Agricultural Research);1995.p.
  15. Getinet A, Sharma SM. Niger Guizotia abyssinica (L.F) Cass promoting the conservation & use of underutilized and neglected crop. Rome: The International Plant Genetic Resources Institution; 1996. p. 18.
  16. Rohini J, Kiran G, Neeraj S. Oilseeds for better health. J Nutr Res 2015;3(1):50-53.
  17. Francis CM, Campbell MC. New high quality oil seed crops for temperate & tropical Australia – A report for RIRDC Market prospects for highly polyunsaturated oils are continuing to expand rapidly. Campbell: Rural industries research & development corporation; 2003. p. 1-26.
  18. Status paper on oil seed. New Delhi: Oil seeds division Department of Agriculture and co-operation; 2014. p. 93,173.
  19. Shashikala B, Suma M. Nutritional factor and antioxidant potential of Guizotia abyssinica cass. Popularly used edible seed oil. World J Pharm Res 2019;8(12):1194-98.
  20. Syume M, Chandravanshi BS. Nutrient composition of niger seed (Guizotia abyssinica (l. F.) Cass.) cultivated in different parts of Ethiopia bull. Chem Soc Ethiop 2015;29(3):341-355.
  21. Ramadan MF, Mörsel JT. Determination of the lipid classes and fatty acid profile of Niger (Guizotia abyssinica Cass.) seed oil phytochemical analysis. Phytochem Anal 2010;14:366–370.
  22. Ramadan MF. Functional properties, nutritional value, and industrial applications of niger oilseeds (Guizotia abyssinica Cass.). Crit Rev Food Sci Nutr 2012;52:1-8. 
  23. Kuo WL, Chih C, Chang PH, Cheng LY. Flavonoids from Guizotia abyssinica. J Chin Med 2007;18(3):121-128.
  24. Shashikala B, Suma MV, Suchitra P. Quality control constraints of Guozotia abyssynica Cass. Source of medicinally used edible oil seeds. J Phytopharm 2018;7(5):431-436.
  25. Balakrishnan BR, Thenmozhi S, Dwiwedi S. Comparative physicochemical analysis of seed of Guizotia abyssinica (L.f) Cass influenced by varying concentration of phytohormones. Phytopharmacueticals 2010;9: 21-23.
  26. Dwivedi S, Kohli S. Extraction and preliminary phytochemical screening of Guizotia abyssinica (L.F.) Cass.(Asteraceae). Pharma Chem 2013;12:39-42.
  27. Dwivedi S, Kohli S, Dwivedi S. Investigation of in vitro anthelmintic activity of aqueous and ethanolic extracts of leaves and seeds of Guizotia abyssinica (L.F.) Cass Asian J Med Pharm Res 2013;3(1):11- 13.
  28. Dwivedi S, Dwivedi A, Kohli S, Dwivedi SN. Investigation of Anti-inflammatory Activity of Guizotia abyssinica (L.f.) Cass leaves and seed Int J Pharm Life Sci 2014;5(5):3502-3506.
  29. Amin N, Parmar K, Patel V, Kottayi M. Evaluation of medicinal constituents and properties of Linum usitatissimum, Prosopis juliflora and Guizotia abyssinica. J Pharmacogn Phytochem 2019;8(4):2238- 2244.
  30. Swati H, Jain S, Shukla K. In vitro and in vivo anti-diabetic activities of ethanolic leaf extracts of Guizotia abyssinica. GSC Adv Res Rev 2020;4(3):1–6.
  31. Sharma S, Pathak SC, Kumar B. Antioxidant activity of Guizotia abyssinica (L. f.) Cass (Niger or Ramtil). J Biotechnol Biochem 2020;6(6):61-74.
HealthMinds Logo
RGUHS Logo

© 2024 HealthMinds Consulting Pvt. Ltd. This copyright specifically applies to the website design, unless otherwise stated.

We use and utilize cookies and other similar technologies necessary to understand, optimize, and improve visitor's experience in our site. By continuing to use our site you agree to our Cookies, Privacy and Terms of Use Policies.