Sonodynamic antimicrobial chemotherapy: First steps towards a sound approach for microbe inactivation

Serpe, Loredana; Giuntini, Francesca

doi:10.1016/j.jphotobiol.2015.05.012

Cited by 86 publications

(58 citation statements)

References 55 publications

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“…To overcome the problems associated with antifungal resistance, studies have been performed to search for alternative therapies to treat infections. aPDT (Dovigo, Pavarina, Carmello et al 2011;Dovigo et al 2013;Pereira et al 2011;Costa et al 2012) and SDT (Ma et al 2009;Wang et al 2014;Zhuang et al 2014;Costley et al 2015;Serpe and Giuntini 2015) have been suggested as promising therapies for the inactivation of microorganisms. According to the data, it was observed that the application of aPDT, mediated by PDZ at 100 mg l −1 or RB 10 μM, eradicated planktonic cultures of C. albicans.…”

Section: Discussionmentioning

confidence: 99%

“…It has been demonstrated that certain PS can also be activated by ultrasound (US), and as a result, the PS may also be referred to as a sonosensitizer (SS). This approach is known as sonodynamic therapy (SDT) (Ma et al 2009;Serpe and Giuntini 2015). The advantage of SDT when compared to aPDT is that US propagates deeper into the tissue than light; therefore, SDT may be used to treat deeper lesions overcoming the limitations of light propagation and delivery presented by aPDT (Ma et al 2009;Costley et al 2015;Serpe and Giuntini 2015).…”

Section: Strain and Growth Conditionsmentioning

confidence: 99%

“…This approach is known as sonodynamic therapy (SDT) (Ma et al 2009;Serpe and Giuntini 2015). The advantage of SDT when compared to aPDT is that US propagates deeper into the tissue than light; therefore, SDT may be used to treat deeper lesions overcoming the limitations of light propagation and delivery presented by aPDT (Ma et al 2009;Costley et al 2015;Serpe and Giuntini 2015). It has been suggested that in SDT, singlet oxygen generation may result by the indirect photo-activation of the sensitizer drug via sonoluminescence (Umemura et al 1999).…”

Section: Strain and Growth Conditionsmentioning

confidence: 99%

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Antimicrobial sonodynamic and photodynamic therapies againstCandida albicans

et al. 2018

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Candida albicans biofilms exhibit unique characteristics and are highly resistant to antifungal agents. Antimicrobial photodynamic therapy (aPDT) is an alternative treatment limited to treating superficial infections due to the poor light penetration. In this manuscript, the antifungal properties of sonodynamic therapy (SDT) were assessed. SDT uses ultrasound instead of light, enabling the treatment of deeper infections. Planktonic cells and biofilms of C. albicans were treated with aPDT or SDT, in addition to combined aPDT/SDT, with cell survival determined using colony forming units. The total biomass and structural integrity of the biofilms were also investigated. The results demonstrated that while individual aPDT or SDT eradicated suspensions, they had little impact on biofilms. However, combined aPDT/SDT significantly reduced the viability and total biomass of biofilms. Microscopic images revealed that biofilms treated with aPDT/SDT were thinner and comprised mainly of dead cells. These results highlight the potential of combined aPDT/SDT for the inactivation of C. albicans biofilms.

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Section: Discussionmentioning

confidence: 99%

Section: Strain and Growth Conditionsmentioning

confidence: 99%

Section: Strain and Growth Conditionsmentioning

confidence: 99%

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Antimicrobial sonodynamic and photodynamic therapies againstCandida albicans

et al. 2018

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“…As with light activation, ultrasound can be selectively focused on a specific area, thus activating only PS molecules located in the affected area. Ultrasound can also easily penetrate into tissues, which opens prospects for its application in treatment of internal lesions and infections, without the need for invasive devices [33,34]. Ultrasonic irradiation of PSs initiates the formation of highly active cytotoxic species-ROS and free radicals-which lead to the death of pathogenic cells.…”

Section: Sonodynamic Excitation Of Photosensitizersmentioning

confidence: 99%

“…Sonodynamic therapy is also offered as treatment for atherosclerosis [44]. The applicability of sonodynamic antimicrobial chemotherapy (SACT) for the treatment of infectious diseases has been confirmed by various research groups [33,34]. We have previously demonstrated the effectiveness of RB activated by ultrasonication for eradication of Gram-positive S. aureus and Gram-negative E. coli [29, 45,46].…”

Section: Sonodynamic Excitation Of Photosensitizersmentioning

confidence: 99%

Aspects of Photodynamic Inactivation of Bacteria

Nakonechny¹,

Nisnevitch²

2020

Microorganisms

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Increasing resistance of bacteria to antibiotics is a serious worldwide problem, and to combat resistant bacteria, new antibacterial approaches are to be developed. One alternative to traditional antibiotic therapy is photodynamic antimicrobial chemotherapy (PACT). PACT is based on excitation of photosensitizers (PS) capable of transferring the absorbed light energy to dissolved molecular oxygen causing generation of reactive oxygen species, which irreversibly damage bacterial cell components. The overall efficiency of PACT has been proven for Grampositive and Gram-negative bacteria. The effectiveness of PACT can be increased by encapsulation of PS in liposomes providing more concentrated delivery of PS, enhanced cytotoxicity, improved pharmacokinetic properties, sustained release, and prolonged action of the PS. For continuous and reusable application, PS can be immobilized in polymers. Chemiluminescence, sonodynamic treatment, and radiofrequency irradiation allow to perform excitation of PS in the dark without external illumination, opening prospects for combating internal infections. Combination of PS with antibiotics can gain a synergistic effect, allowing in some cases to overcome the resistance of bacteria to antibiotics.

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Different Aspects of Using Ultrasound to Combat Microorganisms

Nakonechny

Nisnevitch

2021

Adv Funct Materials

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Growing resistance of microorganisms to antibiotics due to their widespread use has led to multiple bacterial infections posing a serious threat to health and human life. Low-frequency ultrasound is one of physical methods for inactivation of pathogenic microbial cells. Application of ultrasound is safe, demonstrates good tissue penetration without significant attenuation of energy, and does not induce microbial resistance. Bactericidal effect of ultrasound is based on acoustic cavitation-the growth and collapse of microbubbles in a liquid medium, resulting in shock waves, shear forces, and microjets which cause irreversible damage and inactivation of microorganisms. The present review combines and analyzes literature data on in vitro and in vivo studies and summarizes works demonstrating the ability of ultrasound, alone or in combination with other methods, to combat pathogenic microorganisms. The results of various studies presented in this review show that low-frequency ultrasound has a noticeable antimicrobial effect on planktonic cells of microorganisms and biofilms. Ultrasound synergistically enhances the effectiveness of other antibacterial agents and activates molecules called sonosensitizers, resulting in the formation of compounds toxic to microbial cells. Ultrasound can also promote local release of antimicrobial drugs from liposomes, as well as from medical implants.

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Sonodynamic antimicrobial chemotherapy: First steps towards a sound approach for microbe inactivation

Cited by 86 publications

References 55 publications

Antimicrobial sonodynamic and photodynamic therapies againstCandida albicans

Antimicrobial sonodynamic and photodynamic therapies againstCandida albicans

Aspects of Photodynamic Inactivation of Bacteria

Different Aspects of Using Ultrasound to Combat Microorganisms

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