Indian Institute of Technology (IIT) Mandi researchers have unveiled an innovative solution to a long-standing problem with medical implants – the risk of infections. A team led by Dr. Amit Jaiswal, Associate Professor, School of Biosciences and Bioengineering, IIT Mandi, has introduced an ingenious solution for implant-associated infections by utilizing innovative sugar-coated nanosheets as implant coatings, a statement from the Institute said.
Medical implants have long been a vital part of medical and reconstructive procedures, serving as effective treatments for a wide range of conditions. However, the formation of biofilms on these implants over time can lead to recurring infections and inflammation, ultimately causing tissue damage.
To address these persistent implant-associated infections, the research team has devised a biocompatible, non-leaching, and contact-based antibacterial coating for implants, utilizing quaternary pullulan functionalized MoS2 (MCP) glycosheets. These cationic MCP glycosheets have been seamlessly applied to the surfaces of polydopamine-modified stainless steel and polyvinyl fluoride substrates through a straightforward electrostatic interaction process.
The developed MCP coating exhibited outstanding antibacterial efficacy, effectively eradicating more than 99.5% of Escherichia coli and Staphylococcus aureus bacteria.
A achievement of this research is that this antibacterial performance remains stable for over 30 days without any leaching from the implant surfaces. Furthermore, MCP-coated implants have proven to be entirely safe, inducing neither acute nor sub-chronic toxicity in mammalian cells during both in-vitro and in-vivo testing.
Speaking about the developed antibacterial coating, Dr. Amit Jaiswal, Associate Professor, School of Biosciences and Bioengineering, IIT Mandi, said, “The developed coating is a unique combination of quaternized pullulan and MoS2 nanosheets provides a potent defense against infections, while the easy and stable coating process ensures no leakage from the implant surfaces. Crucially, this solution has been proven to be entirely safe for human cells in vitro and in vivo in mice model, making it a promising advancement in the field of medical implants.”
The results of this groundbreaking research have been published in the prestigious Journal of Materials Chemistry B in a paper co-authored by Dr. Amit Jaiswal from IIT Mandi along with Dr. V. Badireenath Konkimalla from National Institute of Science Education and Research, Bhubaneshwar, along with research scholars, Dr. Shounak Roy, Dr. Prakash Haloi, Mr. Siva Lokesh, and Veterinarian Mr. Saurabh Chawla.