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Yañez-Macías R, Muñoz-Bonilla A, De Jesús-Tellez MA, et al. Combinations of Antimicrobial Polymers with Nanomaterials and Bioactives to Improve Biocidal Therapies. Polymers (Basel). 2019;11(11)doi: 10.3390/polym11111789.
Yañez-Macías, R., Muñoz-Bonilla, A., De Jesús-Tellez, M. A., Maldonado-Textle, H., Guerrero-Sánchez, C., Schubert, U. S., & Guerrero-Santos, R. (2019). Combinations of Antimicrobial Polymers with Nanomaterials and Bioactives to Improve Biocidal Therapies. Polymers, 11(11), . https://doi.org/10.3390/polym11111789
Yañez-Macías, Roberto, et al. "Combinations of Antimicrobial Polymers with Nanomaterials and Bioactives to Improve Biocidal Therapies." Polymers vol. 11,11 (2019). doi: https://doi.org/10.3390/polym11111789
Yañez-Macías R, Muñoz-Bonilla A, De Jesús-Tellez MA, Maldonado-Textle H, Guerrero-Sánchez C, Schubert US, Guerrero-Santos R. Combinations of Antimicrobial Polymers with Nanomaterials and Bioactives to Improve Biocidal Therapies. Polymers (Basel). 2019 Nov 01;11(11). doi: 10.3390/polym11111789. PMID: 31683853; PMCID: PMC6918310.
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Polymers (Basel). 2019 Nov 01;11(11). doi: 10.3390/polym11111789.

Combinations of Antimicrobial Polymers with Nanomaterials and Bioactives to Improve Biocidal Therapies.

Polymers

Roberto Yañez-Macías, Alexandra Muñoz-Bonilla, Marco A De Jesús-Tellez, Hortensia Maldonado-Textle, Carlos Guerrero-Sánchez, Ulrich S Schubert, Ramiro Guerrero-Santos

Affiliations

  1. Centro de Investigación en Química Aplicada (CIQA), Boulevard Enrique Reyna No. 140, 25294 Saltillo, Mexico. [email protected].
  2. Instituto de Ciencia y Tecnología de Polímeros (ICTP-CSIC), C/Juan de la Cierva 3, 28006 Madrid, Spain. [email protected].
  3. Centro de Investigación y de Estudios Avanzados (CINVESTAV) Unidad Mérida, A.P. 73, Cordemex, 97310 Mérida, México. [email protected].
  4. Laboratory of Organic and Macromolecular Chemistry (IOMC), Friedrich Schiller University Jena, Humboldtstrasse 10, D-07743 Jena, Germany. [email protected].
  5. Centro de Investigación en Química Aplicada (CIQA), Boulevard Enrique Reyna No. 140, 25294 Saltillo, Mexico. [email protected].
  6. Laboratory of Organic and Macromolecular Chemistry (IOMC), Friedrich Schiller University Jena, Humboldtstrasse 10, D-07743 Jena, Germany. [email protected].
  7. Jena Center for Soft Matter (JCSM), Friedrich Schiller University Jena, Philosophenweg 7, D-07743 Jena, Germany. [email protected].
  8. Laboratory of Organic and Macromolecular Chemistry (IOMC), Friedrich Schiller University Jena, Humboldtstrasse 10, D-07743 Jena, Germany. [email protected].
  9. Jena Center for Soft Matter (JCSM), Friedrich Schiller University Jena, Philosophenweg 7, D-07743 Jena, Germany. [email protected].
  10. Centro de Investigación en Química Aplicada (CIQA), Boulevard Enrique Reyna No. 140, 25294 Saltillo, Mexico. [email protected].

PMID: 31683853 PMCID: PMC6918310 DOI: 10.3390/polym11111789

Abstract

The rise of antibiotic-resistant microorganisms has become a critical issue in recent years and has promoted substantial research efforts directed to the development of more effective antimicrobial therapies utilizing different bactericidal mechanisms to neutralize infectious diseases. Modern approaches employ at least two mixed bioactive agents to enhance bactericidal effects. However, the combinations of drugs may not always show a synergistic effect, and further, could also produce adverse effects or stimulate negative outcomes. Therefore, investigations providing insights into the effective utilization of combinations of biocidal agents are of great interest. Sometimes, combination therapy is needed to avoid resistance development in difficult-to-treat infections or biofilm-associated infections treated with common biocides. Thus, this contribution reviews the literature reports discussing the usage of antimicrobial polymers along with nanomaterials or other inhibitors for the development of more potent biocidal therapies.

Keywords: antibacterials; biocide polymers; cationic copolymers

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