search
for
 About Bioline  All Journals  Testimonials  Membership  News


African Journal of Traditional, Complementary and Alternative Medicines
African Ethnomedicines Network
ISSN: 0189-6016
Vol. 5, Num. 3, 2008, pp. 226-229

African Journal of Traditional, Complimentary and Alternative Medicines, Vol. 5, No. 3, 2008, pg. 226-229

Antimicrobial Effects Of Three Tropical Plant Extracts On Staphylococcus aureus, Escherichia coli And Candida albicans

R. N. Okigbo* and E. C. Mmeka

Department of Botany, Nnamdi Azikiwe University, Awka, Anambra State, Nigeria. *Email: okigborn17@yahoo.com

Code Number: tc08033

Abstract

Antimicrobial activities of the leaf extracts of Cymbopogon citatrus (lemongrass) and Vernonia amygdalina(bitter leaf ) and the seed extracts of Garcinia kola (bitter kola) were carried out. G. kola had effect only on Staphyococcus aureus and Escherıchıa coli with no inhibition on Candida albicans. Ethanol, cold water and hot water extracts of Vernonia amygdalina and Cymbopogon citratus showed inhibition on the three organism but G. kola ethanol, cold water and hot water extracts only inhibited S. aureus and E. coli with no inhibition on Candida albicans. The organism’s susceptibility varied with more inhibition to S. aureus and least to Candida albicans.  

Key words:  Antimicrobials, , plant extracts, Garcina, Vernonia, Cymbopogon,

Introduction

In Africa phytomedicine has been in existence for hundreds of years ago ever before the colonial administration and is still in use today with about 80% of the population depending on herbal medicine for its primary health care delivery (Elujoba et al, 2005; Okigbo and Mmeka, 2006, Anon 2007a). Infectious disease accounts for one half of all deaths in the tropical countries irrespective of efforts made in controlling the incidence of epidemic (Iwu,1993; Okigbo and Ajalie, 2005).

Three plants were selected for this work based on ethnobotanical evidence of the plant in the community. Garcinia kola, bitter kola (Guttiferae) – A plant of west and central Africa origin (Iwu, 1993). G. kola is used as a masticatory (stimulate the saliva) substance and a good preventive agent against dysentery while the fruit pulp is used for the treatment of jaundice or high fever, the bark is used in medicinal preparations to help heal various ailments (Adebisi, 2007; Anon, 2007b). C. citratus, lemon grass (Poaceae/Graminae) is a native to India but found growing naturally in tropical grass land (Anon, 2007d).  It used in Ayurvedic medicine to help bring down fevers and threat infectious diseases (Anon, 2007c). Traditionally, it is believed to cleanse the body so used as an antioxidant. Vernonia amygdalina, bitter leaf (Compositae) is a plant whose origin is in Nigeria (Anon, 2000). They are used in traditional medicine as a tonic and remedy against constipation, fever, high blood pressure and many infectious diseases ( Iwalokun et al., 2006). The leaves are used instead of hops in beer production in Nigeria (Anon, 2000).  The aim of this research is to determine the antimicrobial and antifungal properties of their extracts.

Materials and Methods

The medicinal plants used V. amygdalina (BOT/NAU/1314), C. citratus (BOT/NAU/2015) and G. kola (BOT/NAU/1518) seeds were collected in December, 2006 from Alor and Ojoto in Anambra State, Nigeria. The plants were identified by Prof. C.U. Okeke of Botany Department, Nnamdi Azikiwe University, Awka. 

Aqueous Extraction (Cold Water):  The method of Al-Magboul  et al. (1997) as modıfıed by Okıgbo and Omodamıro (2006) was used. It was filtered with sterile filter paper (labline filter paper) inserted in a funnel and the filtrate evaporated in a water bath at 100oC to dryness. The standard extracts obtained were stored in a refrigerator at 4oC until required for use. G.  kola was filtered using muslin cloth.

Aqueous Extraction (Hot Water): 12g of the weighed plant material was soaked in 100ml of hot water boiled for thirty minutes into a conical flask for 24hrs. It was filtered using filter paper and evaporated.   

Organic Solvent Extraction Using Ethanol: 12g of the plant was soaked in 100ml of 99.9/100% ethanol for 24hrs at room temperature with occasional stirring. The content was filtered and evaporated to dryness in a water bath at 78oC. The extract was collected and stored in the refrigerator at 4oC until required for use.

Table 1: Antimicrobial activities of the three plant extracts on Staphylococcus aureus, Escherichia coli and Candida albicans

Vernonia amygdalina

Garcinia kola

Cymbopogon citratus

Pathogen

Ethanol

Cold aqu.

Hot Aqu

Ethanol

Cold

Hot aqu

Ethanol

Cold aqu.

Hot Aqu

S. aureus

+

+

+

+

+

+

+

+

+

Escherichia coli

+

+

+

+

+

+

+

+

+

Candida albicans

+

+

+

-

-

-

+

+

+

+ = inhibition ; -=no inhibition

Table 2: Mean zone of inhibition (mm) of plant extracts of Vernonia amygdalina, Garcinia kola and Cymbopogon citratus

 Diameter zone of inhibition (mm)

 

Vernonia amygdalina

Garcinia kola

Cymbopogon citratus

Pathogen

Ethanol

Cold H20

Hot Aqu

Ethanol

Cold Aqu

Hot Aqu

Ethanol

Cold Auu

Hot Aqu

S aureus

15±2

11±0.58

9±1

26±1

10±0

7±0

16±1.752

10±0.58

8±0

Escherichia coli

10 ±0

8±0.58

7±1

20±0.67

10±1.48

8±0

12±0

11±1.15

8±0

Candida albicans

7±0

7±1

6±0

-

-

-

9±01.73

10±00.58

7±0.63

These values are means of three measurements at different point of the zones on the cultured plates (Mean ± S.D.). Sterile water used as negative control did not show any effect on the test organism.

Table 3: Antibiotics disc sensitivity zone of inhibition (mm)

Antibiotics

Staphylococcus

aureus

E. coli

Candida albians

Clotrimazole

-

-

++(35mm)

Amoxyclillin

++

+ (14mm)

-

Cephaloxin

-

+ (16mm)

-

Clexacillin

-

++

-

Erythromycin

++

++

-

Agumentin

++

++

-

Nitrofurantin

-

++

-

Ofloxacin

++

++

-

Ciproxin

++

++

-

Cefuroxime

++

-

-

Gentamicin

++

-

-

Naladixic acid

++

-

-

++ =>30mm (highly sensitive); + = < 20mm (sensitive); - = no inhibition

Tests for Potency of Bacteria and Yeast Pathogen

The clinical Isolates of the microorganisms were obtained from the Medical Microbiology Laboratory of Nnamdi Azikiwe University Teaching Hospital, Nnewi, (NAUTH). E. coli and Staphylococcus aureus were sub-cultured in Nutrient Agar and Candida albicans was sub-cultured in sabourand Dextrose Agar (SDA). An already made gram positive and gram negative (Asodisks Atlas Diagnostics, Enugu, Nigeria) antibiotic sensitivity disc was bought from the market (Table 3).

Plant Extracts Disc Preparation

The plant extract disc was prepared from labline filter paper by punching with a cork borer of 6mm diameter. The disc was autoclaved at 121oC for 15mins. O.2gm of each plant extract was diluted with 10ml of water to give a concentration of 20mglml and this was added to discs. For the ethanol extracts, 0.2gm was first dissolved in 1ml of 99.9/100% ethanol due to its inability to dissolve in water initially and oily nature. Then, further dilution in 10ml of water to give 20mg/ml. The plant extract disc was dried in an oven and stored in refrigerator until required for use.

Culturing and Sensitivity Testing

The test organism (S. aureus and E. coli) were cultured on Nutrient Agar plates prepared by dissolving 28g of Nutrient Agar in one liter of water. C. albicans was cultured on Sabourand Dextrose Agar prepared by dissolving  64g in one liter of water. The media was autoclaved at 121oC for 15mins. 9ml of this media was poured in plates and left to gel. The plant extract discs were placed in the triplicate cultured plates (disc-diffusion method) using a sterile forceps. The discs were placed far from each other to avoid overlap of zone of inhibition. The culture was incubated in an incubator for 24hrs at 37oC. After 24hrs, the zone of inhibition of plant extracts was observed and measured. Sterile water disc was used as negative control and antibiotic disc used as positive control.

Statistical Analysis

Test for significance in the zone of inhibition was done using a 3-factor Nested classification in Randomized Complete Block Design and with analysis of variance (ANOVA) to know the effectiveness of each plant extract and the susceptibility of the test organism.

Result and Discussion

The plant extracts have antimicrobial properties (Table 1). V. amygdalina ethanol and aqueous extracts had inhibition on S. arureus (gram +ve) and E. coli (gram –ve) and against C. albicans. This is similar to Al-Magboul et al’s (1997) research but contrary to Ashebir and Ashenafi (2007) observation of the plants’ ability to inhibit E. coli. G. kola has a good antimicrobial properties (Ezeifeka et al., 2004; Madubunyi et al.,1995; Iwu, 1993). The ethanol extract of G. Kola had a good bactericidal properties on S. aureus (26mm zone of inhibition) and on E. coli (20mm zone of inhibition) with no inhibition on C. albicans (Table 2).  This is due to low concentration of plant extract used. The aqueous extract inhibited S. aureus and E. coli only in line with their reports. The ethanol and aqueous extracts of C. citratus inhibited S. aureus, E. coli and C. albicans. Anon (2007c) reported that C. citratus  possessed bactericidal and fungicidal properties but this disagreed with Kramer (2002) report of the plant’s inability to inhibit C. albicans, Pseudomonas aeruginosa (gram negative) and Bacillus cereus (gram positive) bacteria. The difference in antimicrobial properties of a plant extract is attributable to the age of the plant used, freshness of plant materials, physical factors (temperature, light water), contamination by field microbes, adulteration and substitution of plants, incorrect preparation and dosage ( Calixto, 2000; Okigbo and Omodamiro, 2006; Okigbo and Igwe, 2007).

The plant extracts were more susceptible to S. aureus (gram +ve) followed by E. coli (gram –ve) and then C. albicans (Table 2). Plant extracts show stronger retardation effect on the gram positive test strains than on the gram-negative ones (Desta, 1993; Okigbo et al., 2005; Ashebir and Ashenafi, 2007). It can also be seen in standard antibiotics used in which Amoxycillin and Cephaloxin had more effect on S. aureus than on E. coli (Table 3).This study highlighted the inhibitory properties of the three plants on the test organisms, the minimum inhibitory concentration of each extract of the plant and the best solvent for extraction. Furthermore the study revealed that C.citratus, V. amygdalina and G. kola plants used possessed the ability to inhibit the three pathogens.                                                                

References

  1. Adebisi, A.A. (2007).  Bitter cola: the African wonder nut. http://www. Cifor.Cgiar.org /publications/pdf-files/books/Restution-Africa-case/NTFP-Africa-case-part 2.pdf. (cited 16 May 2007)
  2. Al-Magboul, A.Z.I., Bashir, A.K., Khalid, S.A and Farouk, A. (1997). Antihepatotoxic and Antimicrobial Activities of Harunyana madagascariensis Leaf Extracts. Intern. J.  Pharmacognosy 33 (2): 129- 134.
  3. Anonymous (2000). Vernonia amygdalina.http://www.chemie.uni-bonn.de/oclak.br/ANALYTIC/ nigeria/vernonia/vern.inf.html. (Cited 18 January 2007)
  4. Anonymous (2007a). Some African kolas, in their botanical, chemical andtherapeutically Aspects. http://www.henriettesherbal.com/eclectic/ journals/ajp/884/03-afr-kola.hml. ( Cited15 May 2007)
  5. Anonymous (2007b) Newsletter. www.ahaherb.com/newsletter.html. (15 May 2007).
  6. Anonymous (2007c). Cymbopogon citratus. www.floridata.com/ref/C/Cymb-cit.cfm ( Cited 15 May 2007).
  7. Anonymous (2007d). Cymbopogon citratus. www.floridata.com/ref/C/Cymb-cit.cfm (Retrieved date 17th May 2007).
  8. Ashebir, M. and Ashenafi, M. (2007). Assessment of the antibacterial activity of some traditional Medicinal plants on some food-borne pathogens. http://www.cih.uib.no/journals/ EJHD/ ejhd-V13- n3/ejhd 13-3-page 5. htm ( cited 16 May 2007).
  9. Calixto, J.B. (2000). Efficacy, safety, quality control, marketing and regulatory guidelines for herbal medicines (Phytotherapeutic agents). Braz.J.Med. Biol. Res., 33 (2): 179-189.
  10. Desta, B. (1993). Ethiopian traditional herbal drugs Part II. Antimicrobial activity of 63 medicinal plants.J. Ethnopharmacol.; 39:129-139.
  11. Elujoba, A.A, O.M. Odeleye and C.M. Ogunyemi (2005). Traditional Medical Development for medical and dental primary Health care Delivery System in Africa. Afr. J. Trad, CAM 2(1): 46-61.
  12. Ezeifeka, G.O, Orji, M.U., Mbata, T.I. and Patrick, A.O. (2004). Antimicrobiual activities of Cajanus cajan, Garcinia kola and Xylopia aethiopica on pathogenic microorganisms. Biotechnology 3 (1): 41-43.
  13. Iwalokun, B.A., Efedede, B.U, Alabi – Sofunde, J.A. Oduala, T., Magbagbeola, O.A. and Akinwande, A.I. (2006). Hepato protective and antioxidant activities of Vernonia amygdalina on Acetaminophen – induced Hepatic Damage in mice.J.Medicinal Food 9(4): 524-539.
  14. Iwu, M.M. (1993). Handbook of African Medical plants. CRC press, Boca Raton, FL. 367pp.
  15. Kramer, A. (2002). Ethnobotany and Biological Activities of  Plants Utilized During Pregnancy and Child birth in the Peruvian Amazon. http://Labs.plantbio.cornell.edu/cubl/emanv4p31.html
  16. Madubunyi, I.I., Obi, S.K.C., Nwebube, N.I. and Chime A.B. (1995). Antihepatotoxic and antimicrobial activities of Harungana madagascariensis leaf extracts. International Journal of Pharmacognosy, 33 (2): 129-134.
  17. Okigbo, R.N. and Omodamiro, O.D. (2006). Antimicrobial Effects of Leaf Extracts of Piegon Pea (Cajanus cajan (L.) Millsp.) on Some Human Pathogens. J. Herbs, Spices Medicinal Plants, 12(1/2): 117-127.
  18. Okigbo, R.N. and Ajalie, A.N. (2005). Inhibition of some Human pathogens with Tropical Plant extracts. International J. Molecular Med. Advanced Sciences (Pakistan), 1 (1): 34-41.
  19. Okigbo, R.N., Mbajiuka, C.S. and Njoku, C.O. (2005). Antimicrobial Potentials of (Uda) Xylopia aethiopica and Ocimum gratissmum L. On some pathogens of Man. Intl. J. Molecuare Med. Advance Science (Pakistan), 1 (4): 392 – 397.
  20. Okigbo, R.N and Mmeka, E.C. (2006). An appraisal of Phytomedicine in Africa  KMITL Science Journal (Thailand) 6 (2): 83 - 93.
  21. Okigbo, R.N.andIgwe, D. I. (2007).  The antimicrobial effects of  Piper guineense ‘uziza’and Phyllantus amarus ‘ebe- benizo’onCandida albicans and Streptococcus faecalis. Acta Microbiologica et Immunologica Hungarica 54 (4): 353-366.

© Copyright 2008 - African. Journal. Traditional, Complementary and Alternative Medicines

Home Faq Resources Email Bioline
© Bioline International, 1989 - 2024, Site last up-dated on 01-Sep-2022.
Site created and maintained by the Reference Center on Environmental Information, CRIA, Brazil
System hosted by the Google Cloud Platform, GCP, Brazil