ABSTRACT
Mosquitoes are a menace for millions of people around the world, they are vectors for destructive microorganisms which cause diseases like Malaria, Dengue fever and Lymphatic filariasis, affecting people in developing countries and areas with tropical climates. Anopheles, a predominant genus transmits malaria, and the World Health Organization have shown that 350,000 lives especially children and pregnant women are lost annually by it. The aim of this study is to determine the effect of eosin solution exposed to sunlight on larvae of Anopheles mosquito. The use of control method was aid at eliminating the larva stages of the mosquito life cycle. A total of one hundred and twenty (120) Anopheles mosquito larvae were harvested using dipper with handle and net from drainages at Eagle Island and Rivers State University both in Port Harcourt. Five different concentrations of Eosin solutions were prepared in volumes of 1000 microlitre (µl), 800µl, 600µl, 400µl, 200µl after a stock solution of 1gram(g) in 100ml and a control, the physicochemical parameters of the solutions were determined using Extech model DO700 measuring instrument. Twenty (20) mosquito larvae, were carefully introduced into each of the concentrations, exposed to sunlight and observed for 24 hours (hrs) for a period of six (6) days for susceptibility. A hundred percent (100%) mortality was recorded in eosin volume of 1000µl and 800µl. The separate solutions of eosin showed significant effects of their concentrations on the Anopheles mosquito larvae of P-value 0.017 at P<0.05. The result obtained for the physicochemical parameters were; pH 5.24, temperature 30.4oC, conductivity 168µS/cm, salinity 0.08%, total dissolved solids 118 milligram per litre(mg/L) and dissolved oxygen was 6.5mg/L for the control. Changes occurred in the values of the dissolved oxygen before and after exposure to sunlight in all the dilutions. The results obtained showed that after 24 hrs, the mortality rate of the larvae increased, indicating that Anopheles mosquito larvae expose to concentrations of eosin solutions results in their mortality within 48 hrs. It may be concluded that this study has provided some evidence of larvicidal effect of eosin solution exposed to sunlight on larvae of Anopheles mosquito.
ABSTRACT
Background: Bitter leaf and palm oil combination in treating diarrhoea is common in Africa. The aim of this study is to determine the synergistic and antimicrobial potential of Vernonia amygdalina and Elaeis guineensis on bacteria isolates from diarrheic stool.Methodology: One hundred and fifty (150) diarrheic stool samples from the Diagnostic Laboratory in Rivers State University Teaching Hospital (RSUTH), Port Harcourt, were inoculated in Selenite F broth, MacConkey, Nutrient and Salmonella-Shigella agar plates using standard methods. Fresh and dry bitter leaf extracts were prepared by mashing, weighing and dissolving 100 grams(g) and 150 g concentrations of each in 100 milliliters(mls) of ethanol and sterile distilled water respectively. Undiluted mixture of bitter leaf and palm oil were prepared by mixing 2 mls of each in a sterile beaker. Zero-point one milliliter (0.1ml) of each undiluted extract, their mixture, ethanol and palm oil were separately dispensed into appropriately labeled wells using sterile pipette for sensitivity test on the isolated bacteria. The pH, temperatures and the phytochemical contents of the bitter extracts and palm oil were determined using pH meter, thermometer and spectrophotometric method.Results: Escherichia coli, Staphylococcus aureus and Salmonella sp. were isolated. The pH and temperature of bitter leaf extract and palm oil were 7.2 and 26?C and 6.7 and 26?C respectively while the pH and temperature for bitter leaf and the palm oil mixture was 6.9 and 26?C. The bitter leaf and palm oil extracts, their combination, ethanol and distilled water used on the isolates as antibiotics did not show any sensitivity. The phytochemicals identified in the bitter leaf were saponins, alkaloids and tannins while carotene was detected in the palm oil.Conclusion: It can be concluded that the bitter leaf extract, palm oil and their combination did not inhibit the growth of bacteria as a result of lack of bioactive components from the bitter leaf. The nature of the diluents used for the extraction may not have been the right one as it would have caused the low concentration, dilution and disfiguring of the molecules of the bioactive compounds that prevented the proper reaction between the bacteria and the extracts used.
ABSTRACT
Background: This study set out to investigate the aerobic and facultative anaerobic microbial profile of wound infections in the University of Port Harcourt Teaching Hospital. Methods: A total of 202 wound swabs samples were randomly collected from both in and out-patients presenting at the facility. One hundred and thirteen(55.9) of the samples were collected from males while 89(44.6) were from females. The age of the patients ranged from 32 days to 80 years. Samples were processed following standard operating protocols in the microbiology laboratory. Results: Of the 202 samples examined; 164(81.2) had microbial isolates while 38(18.8) yielded no growth. Among the 164 samples with positive microbial growth; 124(75.6) had single isolates while 40(24.4) had polymicrobial growth. Of the 113 males studied; 90(79.7) had microbial growth while 23(20.4) had no growth. Similarly; of the 89 females studied; 74(83.2) had microbial growth while 15(16.9) had no growth. Furthermore; the total microbial isolates from the study was 206. Gram-negative bacterial organisms accounted for 124(60.1) as against 82(39.9) from the Gram-positive's (p