Aerobic decolourization of two reactive azo dyes under varying carbon and nitrogen source by Bacillus cereus

Bacillus cereus isolated from dye industrial waste, that is, effluent and soil samples was screened for its ability to decolourize two reactive azo dye – cibacron black PSG and cibacron red P4B under aerobic conditions at pH 7 and incubated at 35°C over a five day period. Different carbon and nitrogensources were used for the decolourization study. B. cereus was able to decolourize cibacron red P4B by (81%) using the combination of ammonium nitrate and sucrose, while it decolourizes cibacron black PSG by (75%) using yeast extract and lactose

Effect of Radiofrequency Radiation from Telecommunication Base Stations on Microbial Diversity and Antibiotic Resistance

We aimed to investigate the effects of radiofrequency radiation from telecommunication on bacteria diversity and antibiotic sensitivity of surrounding bacteria micro-flora. In all cases of bacteria isolated, results indicated that radiation majorly influences and selected bacteria of specific morphology (rod-like, gram positive and spore formers) belonging to the genera Bacillus, Clostridium, Corynebacterium and Sporosarcina. Spore formation have been associated with prevention of DNA damage, this suggest that radiation may imposes stress detrimental to various non-spore forming, gram negative bacteria of nonrod morphology. The antibiotic resistance pattern indicated resistance above 50% in three of the ten common antibiotics tested with the highest of 96% recorded against zinnacef, followed by amoxicillin (70%) and ampiclox (56%). The highest resistance recorded was attributed to Bacillus spp while lowest resistance was recorded in Corynebacterium. The two largest groups of isolates; Bacillus and Clostridium have been reported as human pathogens and found to be multidrug resistant. © JASE

Histological and biochemical markers of the liver of male Wistar rats on oral administration of nevirapine suspension

Background: Mechanism of action of nevirapine in the prophylaxis treatment and treatment of HIV-1 may involve elevations in levels of alanine aminotransferase, aspartate aminotransferase, alkaline phosphatase and other biomarkers of liver function. This study presents the hepatotoxic effect of nevirapine suspension using animal model.Methods: A total number of 15 male Wister rats were fed normal chow and antiretroviral drug (Nevirapine) for a period of six weeks. The liver organ of the rats were obtained and subjected to histological procedures and biochemical analysis using enzyme assay obtained from Randox Laboratories Limited, Antrim United Kingdom (BT294QY).Results: The wistar rats showed no significant mean body weight difference when compared with the control group. However there was significant difference in the mean values of AST (77.77±3.03) and ALT (89.37±3.19) of the treated rats. Nevirapine treated rats showed significant difference in AST, ALT, and ALP in the single (77.77± 3.03, 31.80±1.73, 43.81 ±1.54) and double (89.37±3.19, 33.38±2.01, 34.64 ±1.02) doses when compared with the controls (75.14 ±2.00, 29.16±0.17, 45.44 ±1.85) respectively. Mild vascular congestion, infiltration of sinusoids by inflammatory cells, and haemorrhage were induced by nevirapine as compared with the control group showing normal vessels without congestion, normal sinusoids appearing normal without infiltration.Conclusion: The liver histology of the rats fed with Nevirapine suspension showed diffused hepatocellular necrosis. Routine check of the drug effect is important as it provides effective life management of HIV infected individuals.Keywords: Nevirapine, Wister rat, Hepatotoxicity, Liver, Alanine aminotransferase (ALT), Aspartate aminotransferase (AST), Alkaline phosphatase (ALP

Incidence of cephalosporin resistance among clinical isolates of Pseudomonas aeruginosa in Ibadan, South-Western Nigeria

Background: The emergence of beta-lactam resistance in Pseudomonas aeruginosa is a major global challenge, particularly, the rise in the resistance to 3rd and 4th generation cephalosporins.Aim: This study was carried out to determine the resistance pattern of Pseudomonas aeruginosa to different generations of cephalosporins.Methods: A total number of one hundred clinical isolates of Pseudomonas aeruginosa were collected from June to November 2014 at University Teaching Hospital Ibadan, Oyo State. These were tested for their sensitivity to antibiotics by means of disc diffusion method using prepared antibiotics disc containing different μ of antibiotics; Cefotaxine (30μ), Cefaclor (30μ), Cefamandole (30μ), Cefixime (5μ), Cefepime (30μ), Cefpodoxime (30μ) and Ceftazidime (30μ).Results: Pseudomonas aeruginosa showed absolute resistance to all antibiotics used except Ceftazidime, and Cefepime which are third and fourth generation of cephalosporin respectively. Ceftazidime had minimal resistant of 21% and higher susceptibility rate of 76%, Cefepime had the highest susceptibility rate of 90% and minimal resistance of 6%. Cefotaxime and Cefpodoxime had minimal intermediate of 1%, Ceftazidime of 3% and Cefepime of 4%.Conclusion: The result from this study provided more evidence that among third generation of cephalosporins used, some are more active than the other while fourth generation is still the most effective of all other generations. Knowledge on the distribution of cephalosporin-resistant organisms is of ultimate importance as a guide in empirical therapy, taking note of preventive strategies as well as control measures against the spread of resistant microorganisms.Keywords: Cephalosporins, resistance, susceptibility, Pseudomonas aeruginosa, antibiotics, organis