RESUMO
The present study reports the synthesis of silver nanoparticle using Morus nigra leaf extract were used as reducing agent for reduction of silver nitrate solution. The synthesis of silver nanoparticles was analyzed by UV-Visible spectroscopy, Scanning Electron Microscopy. The SEM analysis has shown that size of silver nanoparticles synthesized from leaves extract of M.nigra was 200 nm and seems to be spherical in morphology. Morphology of chemically synthesized silver nanoparticles is nearly spherical and of size ranges from 300-500 nm. The average particle size analyzed from SEM analysis was observed to be 350 nm. This article has discussed the synthesis of silver nanoparticles generated from plant extract, characterization and antibacterial analysis. In this study the antibacterial activity was examined against six MTCC cultures collected from IMTECH Chandigarh, Including both gram positive and gram negative bacteria such as P.aeruginosa, S.aureus, B.subtilis, E.coli, P.flourescens and Streptococus mutans. Out of these strains the antimicrobial activity of the silver nanoparticles showed maximum zone of inbhition against P.flourescens (22 mm), P.aeruginosa (19 mm), S.aureus (18 mm) and least effective against E.coli (15mm). In contrast chemically synthesized silver nanoparticles were found most effective against S.aureus (13 mm) and B.subtilis (12mm) and almost ineffective against Streptococcus mutans (6 mm) and P.flourescens (4 mm). In the concluding remarks, the silver nanoparticles synthesized using M.nigra leaves extract would be a better antimicrobial effective against various bacterial species.
RESUMO
Background: 14C-urea breath test (14C-UBT) is employed as a ‘gold standard’ technique for the detection of active gastric Helicobacter pylori infection and is recommended as the best option for “test-and-treat” strategy in primary health care centers. Aim: To compare the performance of capsulated and non-capsulated 14C-UBT protocols for the detection of H. pylori infection in patients. Methods: Fifty eight H. pylori infected patients underwent routine upper GI endoscopy and biopsies were processed for rapid urease test (RUT) and histopathology examination. Capsulated 14C-UBT was done in a novel way by using 74 kBq of 14C-urea along with 6.0 MBq of 99mTc-diethylene triamine penta-acetic acid (99mTc-DTPA) to simultaneously monitor the movement and the fate of ingested capsule after delineating the stomach contour by using 20.0 MBq of 99mTechnetium pertechnetate (99mTcO4-) under dual head gamma camera. Noncapsulated 14C-UBT was performed within 2 days of the previous test and the results of these protocols were compared. Results: In 3 out of 58 H. pylori positive cases (5.17%), 14C-UBT results were found to be negative by using the capsulated method. Interestingly, on monitoring the real time images of the capsule in these cases it was found that misdiagnosis of H. pylori infection occurred mainly due to either rapid transit of the 14C-urea containing capsule from the upper gastric tract or its incomplete resolution in the stomach during the phase of breath collection. Conclusion: Use of non-capsulated 14C-UBT protocol appears to be a superior option than the conventional capsule based technique for the detection of H. pylori infection.