The use of plants as a source of drugs has for a long time been recognized and appreciated, thus has resulted in the discovery of plants with the tendency of strong potency to cure illnesses 1. Nonetheless, WHO survey report show that about 80% of persons living in developing countries depend on traditional medicines; most of which are obtained from plants 2. Nevertheless, in Africa specifically, interests in plant exploration as source of medicine have increased geometrically, over the recent years when compared with the past or dark ages. This interest stems from the fact that microorganisms are developing resistance to most drugs, as such most of the cheap and broad-spectrum antimicrobial drugs have become less, or non-effective against a good number of fastidious and emerging pathogens of medical importance. Nevertheless, the ineffectiveness of these drugs could probably stem from the frequent use of drugs by self-medication, consumption of under dose or overdose, as well as the acquisition of resistant genes by these microorganisms probably, through their frequent contact and interaction with the contaminated environment, even as the increasing upsurge of climate change variation index, cannot be left out as one of the seemingly promoter of high prevalence cases of antibiotic resistance issues across the globe. Sadly, this has become a public health issue, and so the need to explore alternatives approach for the treatment of infections and diseases cannot be over emphasized at this point. Studies on plants have continued to grow from strength to strength, as most of the drugs obtained from plants are secondary metabolites which are not necessarily needed by plants but however needed by humans as potent therapeutic substances 3.

In recent times, some plants and fungi have been found to also have antioxidant activity, not just antimicrobial activity alone. These antioxidants and antimicrobials are useful in food industries as natural additives, thus replacing the synthetic (chemically synthesized) antioxidants and antimicrobials 4. An example is that from the mushroom Pleurotuspulmonarius and Pleurotusostreatuswhich demonstrated promising antimicrobial activity against some pathogenic microorganisms 5. Nevertheless, these discoveries have thus, created a huge milestone of achievement in the invention of new effective drugs, due to their relatively low cost and less side effects in practical terms of application 6.

In Western Africa, medicinal plants have been used severally in the treatment of bacterial and fungal infections 7. In Nigeria, especially in the rural areas, most families rely on the different parts of bitter leaf, scent leaf and sour sop not only as spices or in cooking but also in the treatment of different illnesses such as gastroenteritis and fever. Spices and herbs have been useful in treating pathological infections 8. Wounds and chronic skin ulcers have been treated using herbs prepared locally and other substances that occur naturally in the environment for many years now 9; even in the failure of antibiotics, these plants and herbs have proved to be effective 10. Plants such as Vernonia amygdalina(bitter leaf) has been studied and found to be able to inhibit the growth of Staphylococcus aureus, Escherichia coli, Pseudomonas aeruginosa, Klebsiella pneumoniae and Candida albicans 11 respectively.

The Allanblackiagenus is of the Guttiferae family and Clusiodeae subfamily. It is found in Congo, Nigeria, Ghana, Cameroon, Tanzania, Angola and Sierra Leone 12. The seeds from the trees are used in preparing food, soap and cooking oil. Its oil has a higher melting point and is able to congeal even when the cooked food is consumed. Although it is native to the wild, in recent times, it has been domesticated due to the high demand of its oil which serves as a means of income for farmers in Africa. This is because the renowned Unilever Company has found out that the oil from this plant is useful in the production of ice creams, spreads and vegetable-based dairy products. The oil is highly nutritive and needed by cosmetic industries as source of raw materials 1213.

Furthermore, both the seeds and fruits are edible; its bitter seedcake is used as animal feed, while vegetable oil is produced from its seeds. During the First World War, the seeds were majorly used as a substitute for butter and in chocolate production. The bark is pounded and used as toothache pain reliever and in the treatment of diarrhoea in Ghana. Its generic name was named after Allan Black who was a 19^th century Kew botanist while the specific name floribunda explains the abundant flowers this species has 14.

However, in the extraction of active substances from plants, the choice of solvent has been found to determine the efficacy of the extract. Ethanol is most often used for extraction and in some cases methanol; nevertheless, both are usually more effective when compared with the use of water (distilled water) as an extraction solvent. The method of extraction also differs as methods such as maceration, Soxhlet, Supercritical Fluid Extraction (SFE), Ultrasound Assisted Extraction (UAE) and Microwave Assisted Extraction (MAE) may be used in the extraction of bioactive substances from plants. This study was thus aimed at determining the effectiveness of extracts of different parts of Allanblackia floribunda on some pathogenic microorganisms. It is therefore strongly believed that this investigation would provide a robust data on the parts of the plant which are endowed with the large amount of deposition of the therapeutic substances, as well as elucidate the best and effective solvent medium for the extraction of the antimicrobial component of the plant parts. It is finally our firm expectation that the information generated from the study, would certainly promote the use of medicinal plant extract for treatment of infections among the weak and vulnerable subjects in the developing communities, especially in the era of multi-drug resistance circumstances and high cost of broad spectrum antibiotics with high index of efficacy, even as these has remains a massive challenge towards solving health problems, especially in remote villages of developing nations

Ethanol, distilled water and methylated spirit were used as solvents in obtaining the leaf, root and stembark extracts of Allanblackia floribunda. The antimicrobial activity of the extracts was thereafter tested against four pathogenic isolates. Table 1 shows the activity of the various extracts on the test isolates. From the table, all three parts of the ethanol extract showed activity against S. aureus and Bacillus sp. while none of the distilled water extracts showed activity against the isolates. Ethanol extract of the bark showed no activity against Pseudomonas sp. and Escherichia coli but the other parts showed activity against them. (Figure 1) Methylated spirit extracts however showed varied activity against the isolates. Table 2 shows that at a concentration of 10^-1, ethanol extract of the three parts inhibited the growth of the isolates while at a concentration of 10^-3 none of the extracts were effective against the isolates. Table 3 shows that the methylated spirit extracts were only active at a concentration of 10^-1 while lower concentrations were ineffective. Table 4 shows the minimum bactericidal concentration of the extracts.

The incidences of antimicrobial and especially antibacterial resistance outcome globally, have been on the increase even with the production of improved antimicrobial agents with broad spectrum insights and capacities. This has led to constant presence and high prevalence of infectious diseases, especially in the remote villages with visible lack of functional health care facilities, to manage the sick and possibly the increasing trends of epidemic outbreaks. Sequel to this, there is continuous search for novel drugs with better antimicrobial activities especially among plants that should be effective and at the same time environmental friendly. The potency of drugs from natural sources such as plants stems from the presence of bioactive substances in the plants. However, there is therefore a gradual shift from the use of synthetic drugs to formulated drugs from natural sources as therapeutic agents. This study thus tested the efficacy of parts of Allanblackia floribunda on four pathogenic bacteria.

The leaves of plants such as bitter leaf, scent leaf, Bryophyllumpinnatum and Aspiliaafricana have been studied and found to be active against microorganisms such as S. aureus, Pseudomonas aureus, Escherichia coli and Bacillus sp. 1116. Some strains of S. aureus have been exhibiting resistance to antibiotics such as methicillin which has been the drug of choice in the treatment of Staphylococcal infections. Although studies on the antimicrobial effect of Allanblackia floribunda on bacterial isolates are scarce, nonetheless, extracts of ginger, mushroom, garlic and other plants have been tested on some bacteria of medical importance 17.

However, in a study carried out by Udi-Ibiam, hot and cold water extracts of mushroom, ginger and garlic tested against S. pyogenes, P. aeruginosa, E. coli, S. aureus and Salmonella typhi demonstrated antimicrobial activity against all the test isolates except E. coli. In this present study, the distilled water extract of all the three parts of the leaves were inactive against the test isolates. This is in consonance with a previous study 16 where hot water extracts of Bryophyllumpinnatumand Aspiliaafricanashowed no activity against Staphylococcus aureus, Escherichia coli and Pseudomonas aeruginosa from wound samples. Cold water extract of the fresh leaves of Moringa have however demonstrated activity against S. shinga, P. aeruginosa, S. sonnei, Pseudomonas spp. and S. aureus, B. cereus, Streptococcus hemolytica, B. subtilis, S. lutea and B. megaterium while the ethanol extract of its fresh leaves exhibited a high antibacterial activity compared with the former 18.

The ethanol extract from the leaves and roots demonstrated strong antimicrobial activity against all four test isolates. The ethanol extract of the plant bark showed zero activity against P. aeruginosa and E. coli. In a related study, the ethanol extracts of Bryophyllumpinnatumand Aspiliaafricana were active against Staphylococcus aureus, Escherichia coli and Pseudomonas aeruginosa 16. Also, in a similar study by Azuonwu et al.19, methanolic extract of the bark of Moringaoleifera showed activity against Escherichia coli. However, in another study by Babota et al., both the methanolic and ethanolic extracts of Helichrysumarenarium and Antennariadioica demonstrated antimicrobial activity against S. aureus, Escherichia coli and Bacillus cereus 20.

Methylated spirit extracts of the plant root demonstrated activity against all isolates except E. coli; the methylated spirit extract of the bark also demonstrated activity against S. aureus and Bacillus sp. while the leaf extract from methylated spirit only demonstrated activity against Bacillus sp. These further prove the fact that for every sample to be extracted and tested for its antimicrobial activity, the solvent for extraction could probably play a huge roll towards determining the efficacy and overall potency of the extract.

More often, S. aureus isolated from hospitals are resistant to several antibiotics 11. The ability of S. aureus to cause septicemia, pneumonia and even bone and joint infections makes it a microorganism of clinical importance. Also, over time, P. aeruginosa has been known as an opportunistic pathogen as it has been seen as a major cause of pneumonia, nosocomial infections, urinary tract infections (UTIs) and subsequently drug resistance outcome 21. E. coli on the other hand has been largely implicated in UTIs as well as gastrointestinal infections. Bacillus sp. has been a major cause of bacteremia, endocarditis, pneumonia and further still one of its species has been implicated in food poisoning outbreaks in our communities. These infections caused by these microorganisms thus, make it necessary that alternative drugs that exhibit high therapeutic index activity against them be developed, even with much devoted interest focused towards the non-environmental distortive capabilities from the end products or residues of such drugs. The ability of these extracts to act against these microorganisms selectively is thus, very critical; this novel strategy and effective drug discovery outcome, should be sustained and encouraged globally as an alternative approach towards tackling the increasing trend of muti-drug resistance issues in our communities/health facilities across the globe.

The root, bark and leaves of Allanblackia floribunda demonstrated antibacterial activity against Staphylococcusaureus, Escherichiacoli, Bacillus sp and Pseudomonas sp. The results obtained from this study to a reasonable extent, supports claims that this plant parts can be used in the treatment of animal and human diseases. The effectiveness of the plant in vivo was not determined; therefore further studies on this can be carried out to determine its effectiveness in vivo as well as the safe dosage in practical terms. This will help determine the effective dosage with no side effects. The more efficient and robust extraction methods other than maceration are very expensive to acquire, hence this has enhanced their reduced use to improve health of the subjects through the production of these medicinal plants in large quantities. However, it will be plausible if this equipment will be made available for further research to determine the best method for the extraction of bioactive substances from natural sources without denaturing them and not polluting the ecosystem in the same vain.