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Active Packaging Debuts at IFSCC 2018

Contact Author Rachel Grabenhofer
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Milica Stevic, Ph.D., London College of Fashion

  • Stevic_PackDesign1
    3D printed antimicrobial packaging design
    3D printed antimicrobial packaging design
  • Stevic_PackDesign2
    3D printed antimicrobial packaging design
    3D printed antimicrobial packaging design
  • Stevic_PackDesign3
    3D printed antimicrobial packaging design
    3D printed antimicrobial packaging design
  • Stevic_PackPoster
    3D printed antimicrobial package poster by Milica Stevic, et al.
    3D printed antimicrobial package poster by Milica Stevic, et al.

Active packaging was explored for its antimicrobial and preservative-boosting benefits in a poster presented by Milica Stevic, of the London College of Fashion, during IFSCC 2018 in Munich. Her results show promise for reducing the levels of preservatives in products.

Active Packaging

"The main purpose of packaging is to contain, protect, preserve, inform and sell a product," explained Stevic. "Active packaging refers to packaging that serves functions beyond these. In this case, we were interested in the antimicrobial activity."

She added that active packaging is not entirely new but the move to reduce preservative levels in products is relatively recent and, in part, served as an impetus for this project. That, plus the surge in consumer interest for natural products.

Nature-derived and Effective

Using 3D printing, Stevic created a poly lactic acid (PLA)-based package, which was then used to contain gel and serum formulas to assess its ability to protect them against microbial growth.

PLA is a compostable, biodegradable and renewable packaging material derived from natural sources, such as corn. It is also well-known for its antimicrobial properties. The effects of the 3D printed PLA package were compared against those of a basic glass container.

Put to the Test

Four cosmetic formulations were then prepared with and without traditional preservatives:

  • Gel preserved with phenoxyethanol;
  • Gel without a preservative;
  • Serum preserved with sodium levulinate, sodium anisate and ethanol; and
  • Serum without preservative.

"At this point, we only tested two preservatives systems," Stevic noted, "but this served as a starting point."

The four product samples were then inoculated (contaminated) with Pseudomonas aeruginosa and Staphylococcus aureus, and microbial analysis was performed after three, five and seven days. 

Preservative-boosting Effects

Results showed the preserved samples in PLA packaging reduced the number of microbes after three days; after five and seven days, no bacteria was present. The preserved samples in the glass container increased in bacteria count at five days, but this decreased at seven days. Finally, unpreserved samples in both the PLA and glass packaging showed significant increases in bacteria numbers from three to seven days.

"This confirmed the PLA packaging boosted the effects of preservatives, but preservatives were still required for adequate protection." 

 

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