Free Newsletter
Register for our Free Newsletters
Newsletter
Zones
Advanced Composites
LeftNav
Aerospace
LeftNav
Amorphous Metal Structures
LeftNav
Analysis and Simulation
LeftNav
Asbestos and Substitutes
LeftNav
Associations, Research Organisations and Universities
LeftNav
Automation Equipment
LeftNav
Automotive
LeftNav
Biomaterials
LeftNav
Building Materials
LeftNav
Bulk Handling and Storage
LeftNav
CFCs and Substitutes
LeftNav
Company
LeftNav
Components
LeftNav
Consultancy
LeftNav
View All
Other Carouselweb publications
Carousel Web
Defense File
New Materials
Pro Health Zone
Pro Manufacturing Zone
Pro Security Zone
Web Lec
Pro Engineering Zone
 
 
 
News

Albumin-glycerol blended bioplastic shows promise for antibacterial packaging

University Of Georgia (UGA) : 20 April, 2015  (Technical Article)
Bioplastics made from protein sources such as albumin and whey have shown significant antibacterial properties, findings that could eventually lead to their use in plastics used in medical applications such as wound healing dressings, sutures, catheter tubes and drug delivery, according to a recent study by the University of Georgia College of Family and Consumer Sciences. The bioplastic materials could also be used for food packaging.
Researchers tested three non-traditional bioplastic materials — albumin, whey and soy proteins — as alternatives to conventional petroleum-based plastics that pose risks of contamination.
 
In particular, albumin, a protein found in egg whites, demonstrated tremendous antibacterial properties when blended with a traditional plasticizer such as glycerol.
 
"It was found that it had complete inhibition, as in no bacteria would grow on the plastic once applied," said Alex Jones, a doctoral student in the department of textiles, merchandising and interiors. "The bacteria wouldn't be able to live on it."
 
The study appears in the online version of the Journal of Applied Polymer Science.
 
One of the researchers' aims is to find ways to reduce the amount of petroleum used in traditional plastic production; another is to find a fully biodegradable bioplastic.
 
"The albumin-glycerol blended bioplastic met both standards," Jones said. "If you put it in a landfill, this being pure protein, it will break down. If you put it in soil for a month — at most two months — these plastics will disappear."
 
The next step in the research involves a deeper analysis of the albumin-based bioplastic's potential for use in the biomedical and food packaging fields.
 
As noted in the study, 4.5 hospital admissions out of every 100 in the US in 2002 resulted in a hospital-acquired infection. In addition to the risk of contamination in hospitals, food contamination as a result of traditional plastics is a notable risk.
 
Researchers are encouraged by the antimicrobial properties of albumin-based bioplastics that could potentially reduce these risks through drug elution—loading the bioplastic with either drugs or food preservatives that can kill bacteria or prevent it from spreading.
 
Study co-authors are Suraj Sharma in the department of textiles, merchandising and interiors and Abhyuday Mandal in the department of statistics, who aided in the statistical analysis and discussion.
 
Protein-based bioplastics and their antibacterial potential
 
Note: albumen or albumin?
 
These two nouns are not synonyms. The noun “albumen” refers to the white of an egg. The noun “albumin” refers to the water-soluble protein found in the whites of eggs, in milk, in boold,
 
Use “albumen” to refer to the white of an egg. A way to remember this is the common “e” in “albumen” and “egg”. Use “albumin” to refer to the protein that occurs in egg whites, blood, milk, etc. A way to remember this is the common “i” in “albumin” and “protein”.
Bookmark and Share
 
Home I Editor's Blog I News by Zone I News by Date I News by Category I Special Reports I Directory I Events I Advertise I Submit Your News I About Us I Guides
 
   © 2012 NewMaterials.com
Netgains Logo