Piezotronic and piezo‐phototronic effects on sonodynamic disease therapy
With the development of engineered nanomaterials and nanomedicines, utilization of nanomaterials to generate excessive reactive oxygen species under exogenous ultrasound (US) irradiation for realizing disease therapy, namely sonodynamic therapy (SDT), has attracted widespread attention. Compared wit...
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Veröffentlicht in: | BMEmat (Print) 2023-03, Vol.1 (1), p.n/a |
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Sprache: | eng |
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Zusammenfassung: | With the development of engineered nanomaterials and nanomedicines, utilization of nanomaterials to generate excessive reactive oxygen species under exogenous ultrasound (US) irradiation for realizing disease therapy, namely sonodynamic therapy (SDT), has attracted widespread attention. Compared with traditional photodynamic therapy, US shows deeper tissue penetration to reach deep‐seated location. However, the development of high‐efficiency sonosensitizers remains one of the gravest challenges in current related research and future clinical application. Latterly, benefiting from the piezotronic and piezo‐phototronic effects, novel sonosensitizers based on piezoelectric semiconductor (PS) nanomaterials have exhibited inspiring application prospects in SDT. In this review, we outline the structures and physicochemical properties of PS nanomaterials that has potential applications in SDT, and introduce the presumed mechanisms of PS nanomaterials in SDT. Then, the latest research progress of PS nanomaterials as sonosensitizers in cancer therapy and antibacterial applications are summarized. Finally, the existing challenges and future development trends in this field are prospected.
Benefiting from the piezotronic and piezo‐phototronic effect, sonosensitizers based on piezoelectric semiconductor (PS) nanomaterials have shown promising application prospects in sonodynamic therapy. In this review, the latest research progress of PS nanomaterials as sonosensitizers in cancer therapy and antibacterial applications are summarized. |
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ISSN: | 2751-7446 2751-7438 2751-7446 |
DOI: | 10.1002/bmm2.12006 |