Abstract
Diospyros malabarica (Desr.) Kostel synonym Diospyros peregrina Gurke (Family: Ebenaceae) is a medium sized evergreen tree commonly known as Kendu in Assamese. The plant has ethnomedicinal significance and used by various ethnic communities of North-East India to treat various disorders like dysentery, diabetes, diarrhea malaria, ulcer and wounds. However, detailed scientific information is not available to identify the plant material, in order to ascertain its quality and purity. Therefore, the present work was carried out to perform morpho-anatomical and physicochemical analysis of D. malabarica stem bark. The bark is externally dark brown to black in color and rough having characteristics odor and astringent taste. The microscopy of bark reveals the presence of polygonal thick walled cork, 3-4 layered phellogen, 7-8 layered phelloderm, stone cells, phloem fibers and medullary rays. Stem bark powder showed thick walled cork cells, thick walled elongated phloem fibers, lignified stone cells and rhomboidal crystals of calcium oxalate. Further, physicochemical analysis of the bark power showed loss on drying, total ash, water soluble ash, and acid insoluble ash as 6.2, 5.6, 1.1, 2.45, and 5.7% w/w respectively. The alcohol and water soluble extractives values of the stem bark were 10.6 and 16.8% w/w respectively. The result of preliminary phytochemical screening indicates presence of triterpenoids, saponins, tannins, flavonoids and sterols. The findings of this study will facilitate pharmacognostic standardization of the plant material and aid in the preparation of an herbal monograph for the species.
Author Contributions
Academic Editor: Shaomin Bian, Jilin University
Checked for plagiarism: Yes
Review by: Single-blind
Copyright © 2018 Prakash Chandra Gupta,et al.
Competing interests
The authors have declared that no competing interests exist.
Citation:
Introduction
Diospyros malabarica (Desr.) Kostel synonym Diospyros peregrina Gurke, commonly known as Kendu in Assamese, is a small middle sized evergreen tree belongs to family Ebenaceae (Figure 1). The plant is distributed throughout the tropics and has various ethno-medicinal significances. It is used for the treatment of dysentery, fever, malaria, diabetes, ulcer and wounds 1, 2, 3. The fruit and stem bark possess astringent property and are traditionally used for the treatment of dysentery, diarrhea and intermittent fever & the macerated matured unripe fruit is successfully used in costal West Bengal of India for treatment of diabetes 4, 5. The fruits are also used to dye fishing nets for its durability and attract fishes 6. The alcoholic extract of stem bark has been reported to possess hypoglycemic, diuretic, antidiarrheal, antiplasmodial and antitumor activities. 7, 8, 9. The active constituents of this plant are mostly triterpenes, alkanes, flavonoids, and tannins. Various bioactive compounds have been isolated from this plant including dihydroflavonol glycoside, anthrocyanin, taraxerone, sitosterol, gallic acid, peregrinol, hexacosane, hexacosanol, b-sitosterol and betulinic acid 10, 11. However, available literature reveals that no pharmacognostic study had been carried out on the plant; therefore the present investigation was undertaken. The object of the present study is to evaluate various pharmacognostical parameters such as macroscopic, microscopic, physicochemical, fluorescence and phytochemical studies of the stem bark of D. malabarica.
Materials and Methods
Plant Material
The fresh stem bark of D. malabarica was collected from the homestead garden of Ashrang village, Dimahasao district, Assam, India in the month of July 2017. The specimen was identified by Taxonomist, TERI-Northeastern Regional Centre, Guwahati and later specimen was confirmed in BSI, Shillong. The voucher specimen was deposited in herbarium section of TERI-Guwahati for future reference. Fresh material was used for anatomical studies whereas shade dried material was powdered in a grinder for physico-chemical and phytochemical studies.
Pharmacognostic Study
Fresh stem bark was taken for morphological and histological studies. Coarse powder (60 #) was used to study microscopical characters, physicochemical parameters, and phytochemical investigation. For the microscopical studies, transverse sections of stem bark were prepared and stained as per standard procedure 12, 13, 14. The powder microscopy was performed according to the method used by Khandelwal 14.
Physicochemical and Phytochemical Analysis
Physicochemical values such as the percentage of foreign organic matter, moisture content, ash values, extractive values, foaming index, swelling index and pH were determined according to the well established official method and procedure 14, 15, 16. Preliminary phytochemical screening was carried out using the standard procedure described by Khandelwal 14.
Florescence Analysis
Powdered stem bark material was treated with various chemical reagents and exposed to visible, ultraviolet light to study its fluorescence behavior 17.
Results
Macroscopic Characteristics
The bark is externally dark brown to black in color and rough, internally light brown and smooth having characteristics odor and astringent taste. Pieces of the bark are curved or occur in the form of flat pieces about 1 to 2 cm thick and 10 to 12 cm long.
Microscopical Characteristics
The transverse section of D. malabarica bark shows the presence of cork, phellogen, phelloderm, cortex and secondary phloem (Figure 2). Cork consists of several layers of radially arranged rows of polygonal thick walled parenchymatous cells filled with dark brown contents. Phellogen is 3-4 layered of rectangular, thin walled cells. Phelloderm consists of 7-8 layers having rectangular thick walled parenchymatous cells, arranged radially without any content. Cortex is composed of several layers of tangentially elongated thin walled cells with few cells containing brown matter. Beneath the secondary cortex, a large group of stone cells, arranged in a tangential manner forming continuous band are present. Some of the cortical cells are filled with microsphenoidal crystals of calcium oxalate. Secondary phloem is composed of phloem parenchyma, phloem fibers and medullary rays which are not uniformly arranged. Phloem fibers are intermingled with phloem parenchyma and in between medullary rays. Medullary rays appear to run in different directions, 1-2 celled wide and extend up to cortex.
Figure 2. Transverse section of the Diospyros malabarica stem bark (cr: Cork; Pg: Phellogen; Pd: Phelloderm; Cor: Cortex; SC: stone cells; SEC: Secretory gland; PF: Phloem fibres; MR: Medullary rays)
Powder Microscopic Characters:
The stem bark powder is brownish in color showing fragments of cork cells (Figure 3A), elongated phloem fibers (Figure 3B), stone cells (Figure 3C), parenchyma with simple pits, a few containing crystals (Figure 3D), medullary rays crossing fibers (Figure 3E), and rhomboidal crystals of calcium oxalate (Figure 3F).
Figure 3. Powder characteristics of Diospyros malabarica stem bark
Preliminary Phytochemical Screening:
The Preliminary phytochemical screening reveals the presence of triterpenoids, flavonoids, saponins, tannins and sterols.
Physicochemical Parameter:
Physicochemical parameters of stem bark viz. percentage of moisture content, ash value and extractive values are presented in Figure 4. The foreign organic matters was absent in the dried plant material. Swelling index of powdered bark material was found to be 0.6 ml. Foaming index of dried bark plant material was found to be less than 100 because the height of foam in each test tube was less than 1.0 cm. pH of 1% solution of dried bark of plant was found to be 7.79. The fluorescence characteristics of crude powdered drugs with different reagent were observed under UV radiation of long and short wavelength and day light. The color changes for the crude powder were distinctive and data is presented in Table 1.
Figure 4. Results of physicochemical parameters of Diospyros malabarica stem bark
Treatment | Day light | Under U.V. light | |
Short wavelength ( 254nm) | Long wavelength (365nm) | ||
Powder as such | Reddish brown | Light brown | Brown |
Powder + 1N NaOH (aq.) | Dark brown | Forest green | Black |
Powder + 1N NaOH (alc.) | Brown | Brown | Dark brown |
Powder + 1N HCl | Brown | Olive | Chocolate |
Powder + HNO3 (1:1) | Reddish brown | Greenish brown | Chocolate |
Powder + H2SO4 (1:1) | Brown | Green | Dark brown |
Discussion
Owing to the wide use of this plant by local people in various disease conditions, standardization becomes an important measure for ensuring quality, purity, and authenticity of the crude drugs. First step in this regard is the authentification of plant species. For this purpose, morpho-anatomical studies are the simplest and cheapest methods to start with for establishing the correct identity of the source materials 18, 19. In this context, the study was undertaken to set the standardization parameters for establishing the quality of the stem bark of D. malabarica. Physicochemical studies of stem bark acts as a reliable tool for detecting adulteration. Thus moisture content, foreign matter, ash value, extractive value, foaming index, swelling index, pH and fluorescence study determined here signifies standard parameters to ensure the quality and purity of the crude drug 20, 21. The total ash indicates the presence of inorganic matter present in a plant material. Extractive values are useful to evaluate the chemical constituents present in the crude drug and also help in estimation of specific constituents soluble in particular solvents 22. Swelling and foaming index also provide useful information that help in quality control of drugs. The fluorescent analysis under day light and UV light by treatment with different chemical reagents showed different color. This analysis suggests that, extract of D. malabarica stem bark probably contain active agent(s) and this provides the basis for their folkloric use as a cure for many human ailments.
Conclusion
Ethnomedically, the D. malabarica plant is widely used by villagers in various disease conditions without standardization. Standardization and quality control for herbal drugs are need of the hour and an integral part for establishing its correct identity. So the information obtained from present work will be useful in identifying this drug and differentiating it from other related species. In addition, analytical parameters are useful in determining the quality and purity of the commercial samples and detection of adulterations.
Acknowledgements
The authors acknowledge the financial support provided by the Department of Biotechnology, Government of India (Grant sanction number BT/PR16665/NER/95/236/2015).