A retrospective study of fungal corneal ulcer from the western part of Uttar Pradesh

Background: Infectious keratitis is a major cause of avoidable blindness worldwide. Fungus is an important aetiological agent of infectious keratitis following corneal trauma with vegetative matter. This infection should be promptly treated to limit the morbidity and dangerous sequelae. The purpose of this study was to detect causative agents from corneal scrapings and to identify the predisposing factors of mycotic keratitis.Methods: Corneal scrapings were taken in full aseptic precautions in total 112 suspected patients for fungal etiology and were subjected to direct examination by 10% KOH mount, gram stain and culture.Results: A total 112 cases of suspected corneal ulcers were subjected to KOH mount to detect fungal elements in corneal scraping and culture to isolate aetiological agents. In our study 29 (25.8%) samples were found positive in KOH mount and fungus was isolated from the all KOH positive samples. Males were more commonly affected and were mostly in the age group of 30-50 years. Fusarium species was the most common fungus isolated followed by Aspergillus species.Conclusion: Mycotic keratitis is a serious problem usually following corneal trauma, it requires rapid detection and identification of fugal agents for treatment to prevent disastrous consequences.

Development and Evaluation of Bacteriophage Cocktail to Eradicate Biofilms Formed by an Extensively Drug-Resistant (XDR) <i>Pseudomonas aeruginosa</i>

Extensive and multiple drug resistance in P. aeruginosa combined with the formation of biofilms is responsible for its high persistence in nosocomial infections. A sequential method to devise a suitable phage cocktail with a broad host range and high lytic efficiency against a biofilm forming XDR P. aeruginosa strain is presented here. Out of a total thirteen phages isolated against P. aeruginosa, five were selected on the basis of their high lytic spectra assessed using spot assay and productivity by efficiency of plating assay. Phages, after selection, were tested individually and in combinations of two-, three-, four-, and five-phage cocktails using liquid infection model. Out of total 22 combinations tested, the cocktail comprising four phages viz. φPA170, φPA172, φPA177, and φPA180 significantly inhibited the bacterial growth in liquid infection model (p 10 times than the individual dose in the inhibition of XDR P. aeruginosa host. Field emission-scanning electron microscopy was used to visualize phage cocktail mediated eradication of 4-day-old multi-layers of XDR P. aeruginosa biofilms from urinary catheters and glass cover slips, and was confirmed by absence of any viable cells. Differential bacterial inhibition was observed with different phage combinations where multiple phages were found to enhance the cocktail’s lytic range, but the addition of too many phages reduced the overall inhibition. This study elaborates an effective and sequential method for the preparation of a phage cocktail and evaluates its antimicrobial potential against biofilm forming XDR strains of P. aeruginosa

MOESM1 of Identification of potential protein biomarkers for early detection of pregnancy in cow urine using 2D DIGE and label free quantitation

Additional file 1: Figure S1. Supplimentary Table: Total identified proteins revelaed by Max quant Software