Drug Release from Nanoparticles (Polymeric Nanocapsules and Liposomes) Mimed through a Multifractal Tunnelling-Type Effect.
Elena Simona BăcăițăDelia Mihaela RataAnca Niculina CadinoiuVlad GhizdovățMaricel AgopAlina-Costina LucaPublished in: Polymers (2023)
The present study analyzes (theoretically and experimentally) a drug release process from nanoparticles (polymeric nanocapsules and liposomes). This process is functionalized on the surface with an aptamer. These types of drug release processes can also be included in cream-type formulations. The obtained cream ensures the active targeting of tumor epithelial cells, in the case of skin cancer, because it can be easily administered to the skin by spreading, thus avoiding side effects caused by the toxicity of the drug to healthy cells, increasing both patient compliance and the effectiveness of the treatment. The process of obtaining these formulations is a simple one, easy to use and highly reproductible. The theoretical model, based on the multifractal tunnel effect within the Scale Relativity Theory, considers the system as a complex one. In this model, complexity is replaced with system multifractality, quantified in physical quantities as multifractal dimensions and multifractal functions. The main advantage of this approach consists in the fact that it allows us to obtain information on system behavior at a microscopic level and to evaluate microscopic characteristics of the system, such as intrinsic transparences of the drug molecules, multifractal constants as indicators of the system's complexity, the frequency of interactions within the system and the energy ratio between potential barrier energy and the energy of drug molecules.
Keyphrases
- drug release
- drug delivery
- skin cancer
- cancer therapy
- induced apoptosis
- randomized controlled trial
- mental health
- adverse drug
- systematic review
- oxidative stress
- physical activity
- gold nanoparticles
- case report
- drug induced
- quantum dots
- mass spectrometry
- sensitive detection
- signaling pathway
- high resolution
- social media
- human health