The role of plants in the treatment of diseases caused by micro-organisms based in the natural product.
Table Of Contents
Chapter ONE
INTRODUCTION
- 1.1Introduction
- 1.2Background of Study
- 1.3Problem Statement
- 1.4Objective of Study
- 1.5Limitation of Study
- 1.6Scope of Study
- 1.7Significance of Study
- 1.8Structure of the Research
- 1.9Definition of Terms
Chapter TWO
LITERATURE REVIEW
- 2.1Overview of Plants and Their Medicinal Properties
- 2.2Historical Perspective on Plant-Based Medicine
- 2.3Types of Bioactive Compounds in Plants
- 2.4Role of Plants in Traditional Medicine
- 2.5Modern Research on Plant-Derived Pharmaceuticals
- 2.6Plant Extracts and Their Antimicrobial Properties
- 2.7Plant-Based Remedies for Specific Diseases
- 2.8Clinical Studies on Plant-Based Treatments
- 2.9Challenges and Opportunities in Plant-Based Therapies
- 2.10Future Trends in Plant-Based Medicine
Chapter THREE
RESEARCH METHODOLOGY
- 3.1Research Design and Methodology
- 3.2Selection of Plant Species for Study
- 3.3Extraction and Isolation Techniques
- 3.4Bioassays for Antimicrobial Activity
- 3.5Data Collection and Analysis Methods
- 3.6Ethical Considerations in Plant-Based Research
- 3.7Sampling Procedures
- 3.8Statistical Tools for Data Interpretation
Chapter FOUR
DATA PRESENTATION AND ANALYSIS
- 4.1Overview of Research Findings
- 4.2Antimicrobial Efficacy of Plant Extracts
- 4.3Comparison with Synthetic Drugs
- 4.4Influence of Extraction Methods on Bioactivity
- 4.5Synergistic Effects of Plant Combinations
- 4.6Bioavailability and Pharmacokinetics
- 4.7Safety and Toxicity Profiles
- 4.8Mechanistic Insights into Plant-Microbe Interactions
Chapter FIVE
SUMMARY, CONCLUSION AND RECOMMENDATIONS
- 5.1Summary of Research Findings
- 5.2Conclusions Drawn from the Study
- 5.3Implications for Healthcare and Drug Development
- 5.4Recommendations for Future Research
- 5.5Contribution to Scientific Knowledge
Project Abstract
The utilization of plants for medicinal purposes has been a practice as old as human history itself. With the rise of antibiotic resistance and the limitations of synthetic drugs, there is a growing interest in exploring natural products, particularly plants, for their potential to treat diseases caused by microorganisms. This research project aims to investigate the role of plants in the treatment of such diseases, focusing on the natural products derived from plants that have shown antimicrobial properties. The project will involve a comprehensive review of existing literature on the subject to identify plants and their bioactive compounds that have demonstrated antimicrobial activity against a range of microorganisms, including bacteria, viruses, fungi, and parasites. Various databases will be utilized to gather relevant studies, and the data will be systematically analyzed to determine the efficacy of plant-derived compounds in combating microbial infections. Furthermore, the project will include experimental studies where plant extracts or isolated compounds will be tested in vitro and potentially in vivo to evaluate their antimicrobial effects. The research will aim to elucidate the mechanisms of action of these plant-derived compounds, their potential synergistic effects, and their safety profiles. By understanding the mode of action of these natural products, it may be possible to develop new and effective treatments for microbial infections. In addition to the antimicrobial properties of plant-derived compounds, the project will also explore other potential benefits such as anti-inflammatory, antioxidant, and immunomodulatory effects. These additional properties could enhance the overall therapeutic potential of plant-based treatments for microbial diseases. Overall, this research project seeks to contribute to the growing body of knowledge on the role of plants in combating diseases caused by microorganisms. By exploring the diverse array of bioactive compounds found in plants, this research aims to identify novel treatments that could potentially address the challenges posed by antimicrobial resistance and the limitations of current therapeutic options. The findings of this project could have significant implications for the development of new antimicrobial agents based on natural products, paving the way for future research and innovation in the field of plant-based medicine.
Project Overview
INTRODUCTION
1.1 BACKGROUND OF STUDY
1.1.1 Phyllantus
This is a genus of the family Euphorbiaceae. It was first identified in Central and Southern India in 18th century. It is called carry me seed, stone-breaker, wind breaker, gulf leaf flower or gala of wind, (Bharatiya 1992).
There are over 300 genera with over 5,000 species in the Euphorbiaceae world wide. The Phyllantus is one of the genus that falls under this enormous family. Phyllantus has about 750-800 species, found in tropical and subtropical regions. Green medicine is safe and more dependable than the costly synthetic drugs, many of which have adverse side effects (Joseph and Raj, 2010). The use of medicinal plants by man for the treatment of diseases has been in practice for a very long time. Screening of compounds obtained from plants for their pharmacological activity has resulted in the isolation of innumerable therapeutic agents.
Over 50% of all modern chemical drugs are of natural plant product origin and is essential in drug development programs of the pharmaceutical industry (Burton et. al 1983).
1.1.2 Phyllantus amarus (P. amarus)
P. amarus is an erect annual herb of not more than one and half feet tall and has small leaves and yellow flowers. It is a broad medicinal plant that has received world-wide recognition (Srividiya and Perival, 1995).
In herbal medicine, P. amarus has reportedly been used to treat jaundice, diabetes, otitis, diarrhea, swelling, skin ulcer, gastrointestinal disturbances and blocks DNA polymerase in the case of hepatitis B virus during reproduction, (Oluwafemi, and Debiri, 2008).
In Nigeria, it is called “Oyomokeisoamankedem†in Efik, “Iyin Olobe†in Yoruba and “Ebebenizo†in Bini (Etta, 2008). In traditional medicine, it is used for its hepatoprotective, anti-diabetic, antihypertensive, analgesic, anti-inflammatory and anti- microbial properties (Adeneye et al; 2006). The plant is also used in the treatment of stomach disorders, skin diseases and cold (Kokwaro, 1976; Iwu, 1993). It has anti-diarrhoea effect (Odetola and Akojenu, 2000). Its anti-viral activity against hepatitis B virus has been established (Thyagarajan et al; 1988, Wang et al; 1995), anti- carcinogenic (Joy and Kuttan, 1998), anti mutagenic activities (Joy and Kuttan, 1998), antiplasmodial (Soh et al. 2009).
Plants contain numerous constituents, some tend to possess some level of toxicity. Cases of this toxicity in plants have been reported (Santox et al; 1995, Shaw et al; 1997, Kaplowitz, 1997). P. amarus has been classified among plants with a low potential for toxicity, with an LD50 averaging 2000mg/kg 1day (Krithika and Verma, 2009).
1.1.3 Phyllantus niruri (P. niruri)
P. niruri is commonly called stone breaker, also known as “Chanca piedraâ€. It belongs to the family Euphorbiaceae. P. niruri is similar to P. amarus. It is a wide spread tropical plant commonly found in coastal areas that grows 40-70cm tall (Chukwuma, 2012).
In Nigeria, it is called enyikwonwa and ngwu in Ibo, Oyokeso amanke edem in Efik, geeron- tsemtsaayee in Hausa, ehin olobe and yin-olobe in Yoruba (Chukwuma, 2012).
Although P. niruri is considered a problematic weed to formers it is a valuable medicinal plant. (Oudhia and Tripathi, 2002), and holds a reputed position in both Ayurvedic and Unani system of medicine. Recently, it has attracted the attention of researchers, because of its hepatoprotective (ability to prevent damage to the liver) properties. No effective specific therapy is available for viral Hepatitis but P. niruri has shown clinical efficiency in viral Heptatis B (Paranjape, 2001).
P. niruri is an annual plant, its stem is angular with numerous distichous, ellipticoblong leaves. Flowers are yellow and very numerous; monoecious with 1-3 staminate flowers and solitary pistillate flower borne axillary. Fruits capsule, very small, globose, smooth, seeds 3-gonous, longitudinally ribbed on the back. Seed to seed cycle occurs in two or four weeks (Caius 1986), (Agharkar 1991). Its root, leaves, fruits, milky juice and whole plants are used as medicine. According to Ayurvedic system of medicine it is considered acrid, cooling, aleixipharmic and useful in thirst, bronchitis, leprosy, anemia, urinary disharge, anuria, boiliousness, asthma, for hiccups, and as a diuretic. According to Unani system of medicine, it is stomachic and good for sores and useful in Chromic dysentery. Fruits useful for tubercular ulcers, wounds, sores, scabies and ring worm (Agharkar 1991, Krishanamurty 1993). The fresh root is believed to be an excellent remedy for jaundice.
In many parts of India, it is commonly used for the treatment of snake bite. The active compounds phyllanthin and hypophyllanthim, nirtetralin and phyltetralin have been isolated from leaves, (Rastogi and Mehrotra, 1991). The plant is used as a fish poison. In many parts of India especially in deserts, the roots mixed with Commiphora mukul are given to camels to cure indigestion. The decoction of leaves and stem are used for dying cotton black, (Singh et al; 1996).
P. niruri is one of the medicinal plants used to treat malaria in India and Nigeria. P. niruri has been used traditionally to treat various illnesses including renal stones, gastrointestinal disturbance, cough, hepatitis, gonoorhea, fever and malaria. It has also been reported to posses hypoglycemic activity (Hukuri, et al; 1988), angiotension converting enzyme inhibition (Ueno, et al; 1988), lipid lowering activity (Khanna, et al; 2002), anti HIV activity (Qian cutron, et al; 1996) and anti cancer activity (Giridharan, et al; 2002).
1.2 Aim and objectives
This study is aimed at showing which of the plants above is more effective in the treatment of diseases caused by micro-organisms based in the natural products present in them.
The specific objectives include;
a. Determination of antibacterial effect of P. amarus and P. niruri.
b. Determination of anti fungal effect of P. amarus and P. niruri.