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Literature DB >> 24011516

Antifungal therapy with an emphasis on biofilms.

Christopher G Pierce¹, Anand Srinivasan, Priya Uppuluri, Anand K Ramasubramanian, José L López-Ribot.

Abstract

Fungal infections are on the rise as advances in modern medicine prolong the lives of severely ill patients. Fungi are eukaryotic organisms and there are a limited number of targets for antifungal drug development; as a result the antifungal arsenal is exceedingly limited. Azoles, polyenes and echinocandins constitute the mainstay of antifungal therapy for patients with life-threatening mycoses. One of the main factors complicating antifungal therapy is the formation of fungal biofilms, microbial communities displaying resistance to most antifungal agents. A better understanding of fungal biofilms provides for new opportunities for the development of urgently needed novel antifungal agents and strategies.

Entities: Chemical Disease Species

Mesh：

Substances：
Antifungal Agents

Year: 2013 PMID： 24011516 PMCID： PMC3795934 DOI： 10.1016/j.coph.2013.08.008

Source DB: PubMed Journal: Curr Opin Pharmacol ISSN： 1471-4892 Impact factor: 5.547

64 in total

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Journal: Clin Infect Dis Date: 2001-09-20 Impact factor: 9.079

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Journal: Trends Microbiol Date: 2003-06 Impact factor: 17.079

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Journal: Nat Rev Drug Discov Date: 2010-08-20 Impact factor: 84.694

4. Effect of exogenous administration of Candida albicans autoregulatory alcohols in a murine model of hematogenously disseminated candidiasis.

Authors: Margarida Martins; Anna L Lazzell; Jose L Lopez-Ribot; Mariana Henriques; Rosário Oliveira
Journal: J Basic Microbiol Date: 2011-11-03 Impact factor: 2.281

5. Addition of DNase improves the in vitro activity of antifungal drugs against Candida albicans biofilms.

Authors: Margarida Martins; Mariana Henriques; José L Lopez-Ribot; Rosário Oliveira
Journal: Mycoses Date: 2011-06-12 Impact factor: 4.377

6. Biofilm formation by the fungal pathogen Candida albicans: development, architecture, and drug resistance.

Authors: J Chandra; D M Kuhn; P K Mukherjee; L L Hoyer; T McCormick; M A Ghannoum
Journal: J Bacteriol Date: 2001-09 Impact factor: 3.490

7. Adhesion of Histoplasma capsulatum to pneumocytes and biofilm formation on an abiotic surface.

Authors: N S Pitangui; J C O Sardi; J F Silva; T Benaducci; R A Moraes da Silva; G Rodríguez-Arellanes; M L Taylor; M J S Mendes-Giannini; A M Fusco-Almeida
Journal: Biofouling Date: 2012 Impact factor: 3.209

Review 8. Genetics and genomics of Candida albicans biofilm formation.

Authors: Clarissa J Nobile; Aaron P Mitchell
Journal: Cell Microbiol Date: 2006-07-11 Impact factor: 3.715

9. Candida albicans biofilm formation in a new in vivo rat model.

Authors: Markéta Řičicová; Soňa Kucharíková; Hélène Tournu; Jelle Hendrix; Helena Bujdáková; Johan Van Eldere; Katrien Lagrou; Patrick Van Dijck
Journal: Microbiology Date: 2009-12-03 Impact factor: 2.777

Review 10. The characteristics of Aspergillus fumigatus mycetoma development: is this a biofilm?

Authors: Eilidh Mowat; Craig Williams; Brian Jones; Susan McChlery; Gordon Ramage
Journal: Med Mycol Date: 2008-07-24 Impact factor: 4.076

49 in total

Review 1. Nano-biofilm Arrays as a Novel Universal Platform for Microscale Microbial Culture and High-Throughput Downstream Applications.

Authors: Anand Srinivasan; Anand K Ramasubramanian; José L Lopez-Ribot
Journal: Curr Med Chem Date: 2019 Impact factor: 4.530

2. From Biology to Drug Development: New Approaches to Combat the Threat of Fungal Biofilms.

Authors: Christopher G Pierce; Anand Srinivasan; Anand K Ramasubramanian; José L López-Ribot
Journal: Microbiol Spectr Date: 2015-06

3. Efficacy and tolerability of micafungin monotherapy for candidemia and deep-seated candidiasis in adults with cancer.

Authors: Dimitrios Farmakiotis; Jeffrey J Tarrand; Dimitrios P Kontoyiannis
Journal: Antimicrob Agents Chemother Date: 2014-03-17 Impact factor: 5.191

4. Inhibition of Yeast-to-Hypha Transition and Virulence of Candida albicans by 2-Alkylaminoquinoline Derivatives.

Authors: Lili Meng; He Zhao; Shuo Zhao; Xiuyun Sun; Min Zhang; Yinyue Deng
Journal: Antimicrob Agents Chemother Date: 2019-03-27 Impact factor: 5.191

5. Repurposing auranofin as an antifungal: In vitro activity against a variety of medically important fungi.

Authors: Nathan P Wiederhold; Thomas F Patterson; Anand Srinivasan; Ashok K Chaturvedi; Annette W Fothergill; Floyd L Wormley; Anand K Ramasubramanian; José L Lopez-Ribot
Journal: Virulence Date: 2016-06-07 Impact factor: 5.882

6. Small-Molecule Morphogenesis Modulators Enhance the Ability of 14-Helical β-Peptides To Prevent Candida albicans Biofilm Formation.

Authors: Angélica de L Rodríguez López; Myung-Ryul Lee; Nathan B Wang; Kaitlin K Dunn; Hiram Sanchez; Namrata Raman; David R Andes; David M Lynn; Sean P Palecek
Journal: Antimicrob Agents Chemother Date: 2019-08-23 Impact factor: 5.191

7. The in vitro and in vivo efficacy of fluconazole in combination with farnesol against Candida albicans isolates using a murine vulvovaginitis model.

Authors: Aliz Bozó; Marianna Domán; László Majoros; Gábor Kardos; István Varga; Renátó Kovács
Journal: J Microbiol Date: 2016-10-29 Impact factor: 3.422