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Drug Delivery Systems Based on Polymeric Micelles and Ultrasound: A Review
(Bentham Science Publishers, 2016)
Anti-neoplastic drugs used for cancer treatment often produce damage to healthy cells, leading to severe side effects in patients undergoing chemotherapy. The encapsulation of these agents in nanoparticles reduces the ...
Optimizing the use of ultrasound to deliver chemotherapeutic agents to cancer cells from polymeric micelles
(Elsevier, 2011)
In this study, we present an artificial neural network (ANN) model that attempts to predict the dynamic release of doxorubicin (Dox) from P105 micelles under different ultrasonic power densities at 20 kHz. The goal is to ...
Degradation kinetics of stabilized Pluronic micelles under the action of ultrasound
(Elsevier, 2009)
The majority of research in the area of acoustically-activated drug delivery from stabilized micelles has been focused on the rapid release of chemotherapy drugs from the core of such nano-carriers. Previous publications ...
Investigating the acoustic release of doxorubicin from targeted micelles
(Elsevier, 2013)
The main problem associated with the administration of anti-cancer medication is that the drug is delivered throughout the body causing undesirable side effects. Therefore, it is important to synthesize drug carriers capable ...
Ultrasound-responsive Nanocarriers in Cancer Treatment: a review
(American Chemical Society, 2021)
The safe and effective delivery of anticancer agents to diseased tissues is one of the significant challenges in cancer therapy. Conventional anticancer agents are generally cytotoxins with poor pharmacokinetics and ...