Page 38

Volume 3

Journal of Pharmacology and Medicinal Chemistry

Nanomedicine 2019

Biotechnology 2019

May 20-21, 2019

May 20-21, 2019 London, UK

4

th

World Biotechnology CONGRESS

Nanomedicine and Nanotechnology

4

th

International Conference on

&

Graft polymerization of styryl bisphosphonate monomer onto polypropylene films for

inhibition of biofilm formation

Hanna P Steinmetz

Bar-Ilan University, Israel

T

here has been increased concern during the past few decades over the role bacterial biofilms play in causing a variety of

health problems, especially since they exhibit a high degree of resistance to antibiotics and are able to survive in hostile

environments. Biofilms consist of bacterial aggregates enveloped by a self-produced matrix attached to the surface. Ca2+ ions

promote the formation of biofilms, and enhance their stability, viscosity, and strength. Bisphosphonates exhibit a high affinity for

Ca2+ ions and may inhibit the formation of biofilms by acting as sequestering agents for Ca2+ ions. Although the antibacterial

activity of bisphosphonates is well known, research into their anti-biofilm behavior is still in its early stages. In this study, we

describe the synthesis of a new thin coating composed of poly (styryl bisphosphonate) grafted onto oxidized polypropylene

films for anti-biofilm applications. This grafting process was performed by graft polymerization of styryl bisphosphonate vinylic

monomer onto O2 plasma-treated polypropylene films. The surface modification of the polypropylene films was confirmed

using surface measurements, including X-ray photoelectron spectroscopy, atomic force microscopy, and water contact angle

goniometry. Significant inhibition of biofilm formation was achieved for both Gram-negative and Gram-positive bacteria.

Biography

Hanna P Steinmetz is PhD Candidate from The Institute of Nanotechnology and Advanced Materials, Department of Chemistry, Bar-

Ilan University. Her research focuses on the design of bisphosphonate coating and polymeric bisphosphonate nanoparticles grafted

onto polymeric films for biomedical applications. This work is carried out under the supervision of Prof. Shlomo Margel.

hannasht8@gmail.com

J Pharmacol Med Cheml, Volume 3