Predicting recurrence and progression in non-muscle-invasive bladder cancer using European organization of research and treatment of cancer risk tables.

Introduction:We determined the recurrence and progression at 1 year in Patients with non-muscle-invasive urothelial carcinoma who underwent transurethral resection of bladder tumor (TURBT) and compared those with the calculated risk according to the European Organization of Research and Treatment of Cancer (EORTC). Materials and Methods: Follow-up data of 92 Patients with non-muscle-invasive bladder cancer who underwent TURBT were reviewed, and their 1st year recurrence and progression were recorded. The risk of recurrence and progression were calculated for 1 year according to the EORTC scoring system, using tumors\u27 stage, grade, size, and multiplicity, and the presence of carcinoma in situ and previous recurrence episodes. The outcomes were compared with the EORTC\u27s predictive scores. Results: The Patients were 75 men and 17 women with an age range of 31 to 91 years. Sixteen Patients (17.4%) had a recurrent disease, 41 (44.6%) had a tumor larger than 3 cm in diameter, 35 (38.0%) had multiple lesions, 2 (2.2%) had carcinoma in situ, 73 (79.3%) had stage T1 lesions, and 8 (8.7%) had a high-grade disease. Recurrence was found in 34 Patients (37.0%). The recurrence rates were 20.0%, 28.2%, 40.5%, and 83.3% in groups with the predicted EORTC risks of 15%, 24%, 38%, and 61%, respectively. There were 2 Patients (2.2%) with progression of the diseases. Conclusions: A significant concordance was noted between the EORTC\u27s calculated risk and the recurrence rate of stage Ta T1 bladder cancer at 1 year. Progression was less than that predicted, probably due to our small sample size

Food safety and biological control; genomic insights and antimicrobial potential of Bacillus velezensis FB2 against agricultural fungal pathogens

Development of natural, broad-spectrum, and eco-friendly bio-fungicides is of high interest in the agriculture and food industries. In this context, Bacillus genus has shown great potential for producing a wide range of antimicrobial metabolites against various pathogens. A Bacillus velezensis strain FB2 was isolated from an agricultural field of National Institute for Biotechnology and Genetic Engineering (NIBGE) Faisalabad, Pakistan, exhibiting good antifungal properties. The complete genome of this strain was sequenced, and its antifungal potential was assayed by dual culture method. Moreover, structural characterization of its antifungal metabolites, produced in vitro, were studied. Genome analysis and mining revealed the secondary metabolite gene clusters, encoding non-ribosomal peptides (NRPs) production (e.g., surfactin, iturin and fengycin) and polyketide (PK) synthesis (e.g., difficidin, bacillaene and macrolactin). Furthermore, the Bacillus velezensis FB2 strain was observed to possess in vitro antifungal activity; 41.64, 40.38 and 26% growth inhibition against major fungal pathogens i.e. Alternaria alternata, Fusarium oxysporum and Fusarium solani respectively. Its lipopeptide extract obtained by acid precipitation method was also found effective against the above-mentioned fungal pathogens. The ESI-MS/MS analysis indicated various homologs of surfactin and iturin-A, responsible for their antifungal activities. Overall, this study provides a better understanding of Bacillus velezensis FB2, as a promising candidate for biocontrol purposes, acting in a safe and sustainable way, to control plant pathogens.</p

Food safety and biological control; genomic insights and antimicrobial potential of Bacillus velezensis FB2 against agricultural fungal pathogens

Development of natural, broad-spectrum, and eco-friendly bio-fungicides is of high interest in the agriculture and food industries. In this context, Bacillus genus has shown great potential for producing a wide range of antimicrobial metabolites against various pathogens. A Bacillus velezensis strain FB2 was isolated from an agricultural field of National Institute for Biotechnology and Genetic Engineering (NIBGE) Faisalabad, Pakistan, exhibiting good antifungal properties. The complete genome of this strain was sequenced, and its antifungal potential was assayed by dual culture method. Moreover, structural characterization of its antifungal metabolites, produced in vitro, were studied. Genome analysis and mining revealed the secondary metabolite gene clusters, encoding non-ribosomal peptides (NRPs) production (e.g., surfactin, iturin and fengycin) and polyketide (PK) synthesis (e.g., difficidin, bacillaene and macrolactin). Furthermore, the Bacillus velezensis FB2 strain was observed to possess in vitro antifungal activity; 41.64, 40.38 and 26% growth inhibition against major fungal pathogens i.e. Alternaria alternata, Fusarium oxysporum and Fusarium solani respectively. Its lipopeptide extract obtained by acid precipitation method was also found effective against the above-mentioned fungal pathogens. The ESI-MS/MS analysis indicated various homologs of surfactin and iturin-A, responsible for their antifungal activities. Overall, this study provides a better understanding of Bacillus velezensis FB2, as a promising candidate for biocontrol purposes, acting in a safe and sustainable way, to control plant pathogens.</p