LOG Pharma Primary Packaging to Launch New Barrier Eco Line at Pharmapack Europe 2025
LOG barrier eco line for innovative and generic drug companies
New product line cuts costs and
optimizes oxygen scavenging for eco-friendly barrier bottle.
LOG Pharma Primary Packaging, a
leading global provider of innovative packaging solutions for the
pharmaceutical industry, will showcase its groundbreaking barrier
eco line for innovative and generic drug companies, at Pharmapack Europe 2025, which will
take place on January 22–23, 2025
in Paris, France.
The new eco line packaging solution significantly reduces production costs of
eco-friendly barrier bottles and offers optimal moisture and oxygen protection
for pharmaceuticals. Leveraging LOG’s proven expertise in innovative
pharma-grade polymers and cutting-edge technologies, the barrier eco bottles
enhance its range of world-class barrier packaging solutions.
LOG has used innovative pharma-grade HEALTH +
resins, powered by Dow, a leading global materials science
company. Combined with superior gas barrier properties, this development has
allowed LOG to reduce bottle weight by up to 30% without compromising on WVTR
(Water Vapor Transmission Rate).
At Stand A97 in Hall 7.2, LOG will showcase the
barrier eco line alongside its other barrier packaging solutions for moisture
sensitive, oral, and oxygen-sensitive formulations.
“The new Eco Line product family demonstrates
our commitment to delivering sustainable, eco-friendly barrier bottles at
competitive prices," said LOG’s chief executive officer Shaul Bassi.
“Our R&D team has developed a series of barrier bottles that provide
exceptional protection against oxygen and moisture while being environmentally
friendly and reducing costs significantly.”
During the
Pharmapack Europe event, Ora Gilboa, VP R&D at LOG, will hold a
presentation entitled “Barrier Bottles & Sustainability: Can we Have Them
Both?” which will focus on explaining how the LOG team overcame the challenges
of developing eco-friendly bottle while maintaining its barrier properties.