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PHARMA SCIENCE MONITOR AN INTERNATIONAL JOURNAL OF PHARMACEUTICAL SCIENCES PHARMACOGNOSTIC STUDIES OF MORINGA OLEIFERA LEAFLET P. R. Rachh 1,2*, A. Dharamsi 3 1 Atmiya Institute of Pharmacy, Rajkot, Gujarat, India 2 Department of Pharmaceutical Science, Bhagwant University, Ajmer, India 3 Swift school of Pharmacy, Patiala, Punjab, India ABSTRACT Moringa pterygosperma or Moringa oleifera Lam (family: Moringaceae) is a small- or middle-sized tree, which is cultivated throughout India. Various parts of the M. oleifera tree have been studied for several pharmacological actions like anti-cancer, hypercholesterolaemic, anti-microbial, anti-oxidant, hypotensive, anti-diabetic etc. Although the parts are utilized medicinally, pharmacognostical study of the plant parts leaflet is not reported. Hence, leaflet of the plant were evaluated for its macroscopical, microscopical and phytochemical parameters. The result revealed that plant is authentic as per the pharmacopoeial standards. Keywords: Moringa oleifera, Phytochemical, Microscopical, Macroscopical. INTRODUCTION Moringa oleifera Lam. (drumstick tree, horse-radish tree, synonym: Moringa pterygosperma Gaertn.), a member of the family Moringaceae, is a small-medium sized tree, 10 15m high, widely cultivated in East and Southeast Asia, Polynesia and the West Indies. Different parts of the Moringa oleifera tree are reported to possess various pharmacological actions. The potential therapeutic values against cancer, diabetes, rheumatoid arthritis and other diseases have earned this plant the name of wonder tree in Thailand 1. Leaves are also known to have anti-oxidant properties and are known to cures hallucinations, dry tumors, hiccups and asthma. The root and bark are useful in treatment of heart complaints, eye diseases, inflammation, dyspepsia, and enlargement of spleen. The flowers are known to cure inflammations and muscle diseases. Seed oil is known to be useful in treatment of leprous ulcers 2. Almost all the parts of this plants have been used for various ailments in the indigenous medicine of South Asia, including the treatment of inflammation and infectious diseases along with cardiovascular, gastrointestinal, hematological and hepatorenal disorders 3. As far as our literature survey could ascertain, there is no study reported on pharmacognostic study on leaflet of the www.pharmasm.com IC Value 4.01 124

plant Moringa. Considering the importance of this plant, an attempt was made in the present study to carry out Macroscopical, microscopical and phytochemical parameters evaluation of M. oleifera leaflet. MATERIALS AND METHODS Collection and authentication of plant material Fresh leaflets of Moringa oleifera Lam. were collected in the month of October, 2010, from area surrounding Rajkot (Gujarat, India). The herbarium was prepared and sent to Botanical Survery of India, Jodhpur for authetication. Macroscopy The leaflet was identified by comparing the morphological characters with description given in different standard texts like Wealth of India 4, Indian Medicinal Plants 5, The Ayurvedic Pharmacopoeia of India 6,7. The powder was subjected to macroscopic studies which comprised of organoleptic characters of the drugs viz., Size, shape, color, odour, taste, and extra features 8. Microscopy Microscopic identification of medicinal plant materials is indispensable for the identification of broken or powdered materials; the specimen may have to be treated with chemical reagents. Free hand transverse section (TS) of leaflet Moringa oleifera Lam. was taken. The TS of leaflet was cleared with chloral hydrate. The TS was treated with phloroglucinol and a drop of concentrated hydrochloric acid to stain the lignified elements. The TS was then mounted on a glass slide with glycerine and was covered with cover-glass. The cover-glass was pressed lightly and excess fluid was removed from the margin of the cover-glass with a strip of filter-paper. The slide was then observed under compound microscope 8,9. Surface preparation of Moringa oleifera leaflet Few small pieces (2 mm square) of the leaflet were placed in solution of chloral hydrate in the test tube. It was boiled in a water bath until sufficiently transparent. It was then mounted in a mixture of equal parts of glycerin and chloral hydrate solution and examined microscopically 9. Powder study of the Moringa oleifera leaflet powder www.pharmasm.com IC Value 4.01 125

The powdered slide was treated with phloroglucinol along with a drop of concentrated hydrochloric acid and iodine to stain the lignified elements and starch grains respectively. To check the presence of calcium oxalate crystals the powder was mounted with glycerin 9. Phytochemical parameters Preliminary phytochemical screening Preliminary phytochemical screening of the Moringa leaflet powder was carried out for the detection of the various plant constituents like primary and secondary metabolites 9. Evaluation of Physical parameters Leaflet powder was evaluated for various physical parameters like foreign matter 8, ph 10, loss on drying at 105 C 8, total ash, acid-insoluble ash 8, water soluble ash 8, sulphated ash 10, water soluble extractive 8, 10 and alcohol soluble extractive 10. RESULTS AND DISCUSSION Authentication of plant material The collected leaflets were authenticated by Dr. R. P. Pandey, Scientist In-charge, Botanical Survery of India, Jodhpur (Rajasthan, India). Macroscopy The leaflets were subjected to macroscopic studies which comprised of organoleptic characters as follows: www.pharmasm.com IC Value 4.01 126

Figure 1 a Figure 1 a and b shows leaflets of Moringa oleifera Size: 1.2-2.5 cm long and 0.5-1.5 cm wide Shape: Lateral elliptic and terminal ovate or obovate Colour: Greenish grey to pale green Odour: Not distinct Taste: Not distinct, bitter Extra Features: Leaves are usually tri pinnate compound, available in the form of leafletlets (12-20) and some broken pieces of rachis, slender, thickened and articulated at the base. Apex: Obtuse Margin: Entire Base: Rounded or narrowed Texture: Smooth Venation: Reticulate Figure 1 b Figure 1 a and b leaflets of Moringa oleifera Microscopy Transverse section (TS) of Moringa oleifera leaflet Leaflet shows dorsiventral structure; epidermis and unicellular hairs present on both the surfaces; palisade single layered; spongy parenchyma 2-3 layers; central region occupied by a crescent-shaped, collateral vascular bundle surrounded by 2-4 layers of collenchymatous cells; rosette crystals of calcium oxalate present in mesophyll and collenchymatous cells; anomocytic stomata are present on both surface but more on lower surface (Figure 2). Surface preparation of Moringa oleifera leaflet Surface preparation shows the presence of anomocytic stomata and unicellular thick walled trichome (Figure 3). www.pharmasm.com IC Value 4.01 127

Unicellular hair/trichome Upper epidermis Palisade layer Spongy parenchyma Lower epidermis Vascular bundle Figure 2 Transverse section of Moringa oleifera Leaflet Trichome Anomocytic stomata Figure 3 Surface preparation of Moringa oleifera leaflet Powder study of the Moringa oleifera leaflet powder www.pharmasm.com IC Value 4.01 128

Greyish-green coloured powder shows groups of spongy parenchyma, anomocytic stomata, calcium oxalate crystals (Figure 4.1); spiral vessels (Figure 4.2); Multicellular uniserriate trichome (Figure 4.3); unicellular hairs with blunt tip (Figure 4.4); rosette crystals of calcium oxalate (Figure 4.5); cell containing pigment (Figure 4.6) and starch (Figure 4.7). Calcium oxalate crystal Anomocytic stomata Spongy parenchyma Figure 4.1 Spongy parenchyma with anomocytic stomata and calcium oxalate crystal (40X) Figure 4.2 Spiral vessel (40X) www.pharmasm.com IC Value 4.01 129

Figure 4.3 Multicellular uniserriate trichome (40X) Figure 4.4 Unicellular hairs with blunt tip (40X) Rosette crystals of calcium oxalate Figure 4.5 Parenchyma containing rosette crystal of calcium oxalate www.pharmasm.com IC Value 4.01 130

Figure 4.6 Cell containing pigment Figure 4.7 Starch Phytochemical parameters Preliminary phytochemical screening Preliminary phytochemical screening of the Moringa leaflet powder showed the presence of various plant constituents like amino acids, carbohydrates, cellulose, lignin, proteins, starch and steroids. Physical parameters Leaflet powder was evaluated for various physical parameters and the results are described in Table 1. www.pharmasm.com IC Value 4.01 131

Sr. no. Physical parameter Values obtained 1 Foreign matter (gm/100 gm) 0.90 2 ph 5.50 3 Loss on drying at 105 C (mg/gm) 5.50 4 Total ash (%) 10.90 5 Acid-insoluble ash (%) 3.79 6 Water soluble ash (%) 2.75 7 Sulphated ash (%) 16.23 8 Water soluble extractive (%) 30.90 9 Alcohol soluble extractive (%) 8.90 The result revealed that plant is authentic as per the pharmacopoeial standards. Thus, macroscopical and microscopical studies will be useful in identifying the plant drug in crude form. The above microscopical powder study, phytochemical parametes will prove the authenticity of the drugs in powder form. Preliminary phytochemical screening will provide the general idea regarding the presence of primary and secondary metabolites. Thus, the pharmacognostical standards put forth can add valuable information about the said plant for its authentication, identification and ultimately may add to its medicinal importance. REFERENCES 1. Pilaipark C, Panya K, Yupin S, Srichan P, Noppawan PM, Laddawal P, Piyanee R, Supath S, Klai-upsorn SP: The in vitro and ex vivo antioxidant properties, hypolipidaemic and antiatherosclerotic activities of water extract of Moringa oleifera Lam. leaves. Journal of Ethnopharmacology 2008; 116: 439 446. 2. Elango R and Jadhav U: Phytochemical screening of Moringa oleifera using High performance thin layer chromatography. Plant Archives 2010; 10 (2): 749-751. 3. Verma AR, Vijayakumar M, Mathela CS and Rao CV: In vitro and in vivo antioxidant properties of different fractions of Moringa oleifera leaves. Food Chem. Toxicol. 2009; 47 (9): 2196 2201. www.pharmasm.com IC Value 4.01 132

4. Anonymous: The Wealth of India, A dictionary of Indian Raw Materials & Industrial Research. NISCAIR Press, Volume-VI, L-M 1956, Reprinted 2005. 5. Kirtikar KR and Basu BD: Indian Medicinal Plants with Illustration. Oriental Enterprise, Second Edition 2004. 6. Anonymous: The Ayurvedic Pharmacopoeia of India. The Controller of Publication Civil lines, Volume-II 1999. 7. Anonymous: The Ayurvedic Pharmacopoeia of India. The Controller of Publication Civil lines, Volume-IV 2004. 8. Anonymous: Quality Control Methods for Medicinal Plant Materials. WHO1998. 9. Khandelwal KR: Practical Pharmacognosy. Nirali Prakashan, twelfth Edition 2004. 10. Anonymous: The Ayurvedic Pharmacopoeia of India. Government of India Ministry of Health and Family Welfare, Department of AYUSH, Volume-VI 2008. For Correspondence: Punit Rachh Email: punitrrachh@gmail.com www.pharmasm.com IC Value 4.01 133

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