Antibacterial Activity Of Three Types Of Medicated Soaps On Staphylococcus Aureus From Wound Infections
Examining the antibacterial efficacy of three distinct medicated soap variants against Staphylococcus aureus, a common pathogen in wound infections, is crucial for informed medical interventions. This investigation delves into the comparative effectiveness of these soaps in inhibiting S. aureus growth, shedding light on potential therapeutic strategies. By subjecting the bacteria to each soap type, researchers can discern their respective bactericidal or bacteriostatic properties, aiding healthcare professionals in selecting the most suitable treatment regimen for wound management. The results hold significance for enhancing infection control measures and optimizing patient care protocols, particularly in clinical settings where S. aureus prevalence underscores the urgency of effective antibacterial interventions.
The antibacterial activity of three type of medicate soap on staphylococcus aureus isolated from wound infections was conducted. Fifty individual with would infection within the age range of 9-73 years were sampled. Swabsticks were used to collect specimens from wound infection. each swabstick was streaked separately over plates of nutrient and macconkey agar and later incubated at 370c. out of the fifty (50) individuals sampled 25(50%) were mostly infected with staphylococcus aureus followed by pseudomonas acruginqu (22%) staphylococcus epidermis (10%) least by Exchericha coli b(12%) The organisms occur within the age range 9-13 years with 8 (16%) followed by 14-18 years 4(8%) next by the age range of 19-23 years 3(6%) followed by 24-28 years with 2(4%) followed 24-28 years with 2(4%) and the heart in the age range are 29-33,34-38,39-43,44-48,49-53,54-58 64-68 with 1(2%) each while there was no isolation in the age range 59-63. The study also revealed that all the staphylococcus aureus isolated were sensitive to the three medicated soap. The means of inhibition was highest in Aleppo medicated soap with 12.92 mm followed by temperate medicated soap with 11.2mm and least in carat medicated soap with 10.56 mm. Also the staphylococcus aureus isolated were also sensitive to the commercial autibutics used as couplers the means zones of inhibition was highest in ampiclox with 12.8 mm followed by gentamyain with 12.04 mm and the heart in penicillin with 10.4 mm. there was a close relationship in the zenes of inhibition between the three medicated soap and the commercial antibiotics used as coconutrels. The result showned that medicated soaps were effective against staphylococcus aureus involved in would infection in humans and are comparable to commercial antibiotics. There fore medicated soap can be used in cleaning the skin particularly in the affected part of the skin during the time one has hurt or cut on the skin.
Title page
Certification
Dedication
Acknowledgement
Abstract
Table of contents
List of table
CHAPTER ONE
1.0 Introduction
1.1 Aims and objectives
1.2 Statement of the problem
1.3 Hypothesis
1.4 Justification of the study
1.5 Limitation Of The Study
CHAPTER TWO
2.0 Literature review
2.1 Antibacterial activity of soap
2.2 Medical relevance of antimicrobial soap
2.3 Normal skin microbiota and soap
CHAPTER THREE
3.0 Material and methods
3.1 Materials
3.2 sterilization
3.2.2 Collection of soap sample
3.2.3 Preparation of culture media
3.2.4 Collection of bacterial organisms from would infection
3.2.5 Microbial count, grams stain and microscopic examination
3.2.6 Biochemical test for identification of isolates
CHAPTER FOUR
Result
CHAPTER FIVE
Discussion
CHAPTER SIX
Conclusion and recommendation
References
Appendix
INTRODUCTION
According to pelage et al (1986) antibacterial activity is the ability to either destroy bacteria or inhibit their growth. This is significant with respects to the human body in preventing sepsis and skin infections. Also Derland (1981) states that medicated soap have the germicidal substance like chloroxyhlenol potassium mercuric iodide, trichlorocarbanlide etc. incorporated into them, in order to enhance their antibacterial activity. These germicide substance are normally added in a specified amount and percentage of the substance used are always stated on the soapcase or inside the lesflet which certains the information on how to use the soap for various purposes.
Anon (1964) states that soap may be defined as a chemical compound resulting from the interaction of fathy acids oil and caustic soda (alkali) possesing the characteristic soap like properties of detergents, surface tension lowering wetting and emulsifying power and gel formation. All fatty oils and fats. Are mixtures of glycoside compounds (erters) of trihydric alcohol, glycosides and some fatty acids such as plasmatic acid the chemistry of soap manufacturing may be expressed the following equation which is know as saponification (Anon (1964).
HzCocoG5H31)3 + Na 0H Naoco15H31 (zH31 + c3H5(oH)3
Palliation caustic sodium palurtate glycerion
Soda
Amon (1964) further explain that a bactericidal soap cernirts existentially of the following 0.1 to 3% weight based on the total weight of the soap.
0 to 10% by weight based on the total weight of the soap in a compound of formular
R –Co-N1-CH2C00H
CH3
Here R represents an alkyl or alkenye group of 8 to carbon atoms.
According to Johnson (1978) antibacterial soap may include 2,4,4,trichloro 2,2 hydroxydiphenyl in an amount 0.05 to 5% by weight and at least one phosphorus oxyacid. Phosphorus oxyacid salt phosphoric ester is represented by
(R1(oCH,CH2)
R2
Where R1 in (8-20 alkyl, R2 is hydrogen or methyl and is (1-10). R1 is the same group as R2 or H alkali metal and n is H or alkali metal. Such a soap has a wide range of antibacterial activities and marked resistance of discoloration upon exposure to sunlight (Kaw,1981) another invention relates to an autimicrobial composition consisting of ammoniated zinc sulphate optionally formulated into sufficient formulation and toilet bars. Medicated soap incorporate in their composition germicidal agent which include hexachlorophene mercuric which trichoran, trichlorocarbaucide .
Sykes (1958) described sterilization as the complete destruction of all living matters. In medical sense, it is often used in a restricted sense to refer to the destruction of pathogenic organisms only.
According to William (1979) wound is defined as disruption of cellular and anatomic continuity while its healing is the restoration of continuity. That biological procen can only be accomplished by regeneration, cell proliferation and collage production which can be alleviated washing the would surface especially with medicated soap which due to its concert of pherolic compound help in keeping off organisms like staphylococcus aureus escherichia coli and Pseudomonas aeruginosa always from the would to a certain stage. Wound can also result when the operative barrier of the skin is breached by traumatic invasion or whether it is caused by trauma or internationally by surgery. The open area is susceptible to microbial invasion and once a would has become infected pus form in the injured area resulting to wound abbess.
Baker et al decried antisepsis as the most convenient way of preventing infection usually by inhibiting the growth of bacteria. And most disinfectant when suitably diluted have the artixeptic action. Different method are employed for the destruction of bacteria or for getting rid of them and those method can be conveniently divided into chemical physical and mechanical methods.
Baker et al (1985) explained that chemical agent function as a sterilizing agent by the following lethal mechanisms
1. Disruption of the cell membranes
2. Interfering with orgymatic systems of the organisms emzyme poison)
3. Co-aqulation of protein
4. Oxidation
1.1 AIMS AND OBJECTIVES OF THE STUDY
1. To isolate staphylococcus aureus from would infection
2. To determine the artibacterial activity of three medicated soap on staphylococcus aureus isolated from wound infection.
1.2 STATEMENT OF PROBLEM
Since Dorland (1981) stated that medicated soaps have germicidal substances like chloroxylenol pothaium, mercuric widide trichlorocarberihide etc incorporated into them in order to greatly their antibacterial activity. It is therefore necessary to investigate the artibaterial activity of three medicated soap (Asepos carat and temperate) on staphylococcus aureus isolated from wound inflection.
1.3 HYPOTHESES
Medicated soap have antibacterial activity
Medicated soaps have no artibaterial activity.
1.4 JUSTIFICATION OF THE STUDY
The result of the project work will indicate the antibacterial activity of medicated soap. And if favourable, then medicated soap can be used for washing the surface of manor wound before the application of further medication
1.5 LIMITATION OF THE STUDY
The study is limited to three types of medicated soaps which are:
a. Asepso medicated soap
b. Carat medicated soap
c. Tempovate medicated soap
Staphylococcus Aureus From Wound Infections
Staphylococcus aureus is a common bacterium that can cause various types of infections in humans, including wound infections. It is part of the normal flora on the skin and mucous membranes of many individuals but can become pathogenic under certain conditions. Here’s some information about Staphylococcus aureus and its role in wound infections:
Staphylococcus aureus: Staphylococcus aureus is a Gram-positive bacterium that can be found on the skin and in the nasal passages of healthy individuals. It is considered an opportunistic pathogen, meaning it can cause infections when it gains access to the body’s tissues or bloodstream due to breaks in the skin or other factors that compromise the immune system.
Wound Infections: Staphylococcus aureus is a common cause of wound infections. When a person sustains a wound, whether it’s a cut, abrasion, or surgical incision, bacteria on the skin’s surface can enter the wound and cause an infection. Staphylococcus aureus is one of the bacteria that can cause these infections, especially if it is introduced into the wound.
Symptoms: Wound infections caused by Staphylococcus aureus can lead to various symptoms, including localized redness, swelling, pain, and the presence of pus or other discharge at the wound site. In more severe cases, the infection can spread and cause systemic symptoms like fever and chills.
Treatment: Treatment for Staphylococcus aureus wound infections typically involves antibiotics. The choice of antibiotics depends on the severity of the infection and whether the bacterium is susceptible to specific antibiotics. Methicillin-resistant Staphylococcus aureus (MRSA) is a strain of Staphylococcus aureus that is resistant to many common antibiotics, making treatment more challenging.
Prevention: Preventing Staphylococcus aureus wound infections involves good wound care practices, such as cleaning and covering wounds, using sterile techniques during medical procedures, and practicing proper hand hygiene to reduce the risk of introducing bacteria into wounds. In healthcare settings, infection control measures are crucial to prevent the spread of Staphylococcus aureus and MRSA.
Complications: If left untreated or if the infection becomes severe, Staphylococcus aureus wound infections can lead to complications such as cellulitis (skin infection), abscess formation, or the development of more serious infections that can spread to other parts of the body.
It’s important to note that Staphylococcus aureus can be a challenging pathogen to manage, especially when it has developed antibiotic resistance. If you suspect a wound infection, it’s essential to seek medical attention promptly to receive appropriate diagnosis and treatment. In healthcare settings, infection control practices are critical to prevent the transmission of Staphylococcus aureus between patients and healthcare workers.