Nanocarriers for Medical Ozone Delivery: A New Therapeutic Strategy
Manuela Malatesta, Flavia Carton

TL;DR
This paper reviews nanocarriers for delivering medical ozone, which can help treat various conditions by reducing ozone's instability and enhancing its therapeutic effects.
Contribution
The paper introduces and reviews novel nanocarriers for medical ozone delivery, highlighting their potential in antiseptic, anticancer, and regenerative therapies.
Findings
Nanocarriers like liposomes and polymeric nanoparticles effectively deliver ozone and show therapeutic benefits.
Medical ozone delivered via nanocarriers exhibits antiseptic, anticancer, and pro-regenerative effects in preclinical studies.
Research on ozone nanocarriers is emerging and shows promising potential for improved therapeutic applications.
Abstract
Ozone (O3) occurs in nature as a chemical compound made of three oxygen atoms. It is an unstable, highly oxidative gas that rapidly decomposes into oxygen. The therapeutic use of O3 dates back to the beginning of the 20th century and is currently based on the application of low doses, inducing a moderate oxidative stress that stimulates the antioxidant cellular defenses without causing cell damage. Low O3 doses also induce anti-inflammatory and regenerative effects, and their anticancer potential is under investigation. In addition, the oxidative properties of O3 make it an excellent antibacterial, antimycotic, and antiviral agent. Thanks to these properties, O3 is currently widely used in several medical fields. However, its chemical instability represents an application limit, and ozonated oil is the only stabilized form of medical O3. In recent years, novel O3 formulations have been…
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Taxonomy
TopicsMedical and Biological Ozone Research · Laser-Ablation Synthesis of Nanoparticles · Hydrogen's biological and therapeutic effects
