TY  - GEN
AB  - The development of biofilms on dental restorations may lead to the formation of secondary caries. The purpose of this study was to determine the efficacy of bioactive small molecules (G43 & G43TEG) to disrupt/inhibit biofilm formation of bacterial species contributing to caries causing biofilm dysbiosis.
AD  - Oregon Health and Science University
AD  - Oregon Health and Science University
AD  - Oregon Health and Science University
AD  - Oregon Health and Science University
AD  - Oregon Health and Science University
AU  - Kendall, Alexander
AU  - Fugolin, Ana PP
AU  - Lewis, SH
AU  - Merritt, JL
AU  - Kreth, J
DA  - 2020
DO  - 10.6083/td96k299d
DO  - DOI
ID  - 8216
KW  - Dental Caries
KW  - Biofilms
KW  - bioactive small molecules
KW  - bioactive polymers
KW  - antifouling
KW  - s. mutans
KW  - oral microbiome
KW  - biofilm dysbiosis
KW  - dental restoration
L1  - https://digitalcollections.ohsu.edu/record/8216/files/Alexander-Kendall.pdf
L2  - https://digitalcollections.ohsu.edu/record/8216/files/Alexander-Kendall.pdf
L4  - https://digitalcollections.ohsu.edu/record/8216/files/Alexander-Kendall.pdf
LA  - eng
LK  - https://digitalcollections.ohsu.edu/record/8216/files/Alexander-Kendall.pdf
N2  - The development of biofilms on dental restorations may lead to the formation of secondary caries. The purpose of this study was to determine the efficacy of bioactive small molecules (G43 & G43TEG) to disrupt/inhibit biofilm formation of bacterial species contributing to caries causing biofilm dysbiosis.
PB  - Oregon Health and Science University
PY  - 2020
T1  - Bioactive polymers for s. mutans biofilm inhibition
TI  - Bioactive polymers for s. mutans biofilm inhibition
UR  - https://digitalcollections.ohsu.edu/record/8216/files/Alexander-Kendall.pdf
Y1  - 2020
ER  -