Biodegradability of Novel Polylactide and Polycaprolactone Materials with Bacteriostatic Properties Due to Embedded Birch Tar in Different Environments

Biodegradability of Novel Polylactide and Polycaprolactone Materials with Bacteriostatic Properties Due to Embedded Birch Tar in Different Environments

The microbial biodegradation of new PLA and PCL materials containing birch tar (1-10% / ) was investigated. Product of dry distillation of birch bark ( Roth) was added to polymeric materials to obtain films with antimicrobial properties. The subject of the study was the course of enzymatic degradati...

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Bibliographic Details
Published in:International journal of molecular sciences Vol. 22; no. 19; p. 10228
Main Authors: Richert, Agnieszka, Kalwasińska, Agnieszka, Brzezinska, Maria Swiontek, Dąbrowska, Grażyna B
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 23-09-2021
MDPI
Subjects:
alpha-Glucosidases - metabolism
Aminopeptidases - metabolism
Anti-Infective Agents - chemistry
Anti-Infective Agents - pharmacology
Bacteria - drug effects
Bacteria - enzymology
Bark
beta-Glucosidase - metabolism
Betula - chemistry
Betula - microbiology
Biochemical oxygen demand
Biodegradability
biodegradable films
Biodegradable materials
Biodegradable Plastics - chemistry
Biodegradable Plastics - pharmacology
Biodegradation
biofilm
Biofilms
Biological effects
Biological Oxygen Demand Analysis
birch tar
Distillation
Enzymatic activity
Enzyme Assays
Enzymes
Esterases - metabolism
Glucosidase
Lipase - metabolism
Microorganisms
Morphology
Organic chemicals
Oxygen demand
Plant Bark - chemistry
Plant Bark - microbiology
Polycaprolactone
Polyesters - chemistry
Polyesters - metabolism
Polylactic acid
polylactide
Polymers
Scanning electron microscopy
Tar
Tars - chemistry
Tars - pharmacology
biodegradable films
birch tar
polylactide
polycaprolactone
biofilm
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Summary:The microbial biodegradation of new PLA and PCL materials containing birch tar (1-10% / ) was investigated. Product of dry distillation of birch bark ( Roth) was added to polymeric materials to obtain films with antimicrobial properties. The subject of the study was the course of enzymatic degradation of a biodegradable polymer with antibacterial properties. The results show that the type of the material, tar concentration, and the environment influenced the hydrolytic activity of potential biofilm degraders. In the presence of PCL films, the enzyme activities were higher (except for α-D-glucosidase) compared to PLA films. The highest concentration of birch tar (10% / ) decreased the activity of hydrolases produced by microorganisms to the most significant extent; however, SEM analysis showed the presence of a biofilm even on plastics with the highest tar content. Based on the results of the biological oxygen demand (BOD), the new materials can be classified as biodegradable but, the biodegradation process was less efficient when compared to plastics without the addition of birch tar.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms221910228