A. D. Trofimov scite author profile

Porous inorganic nanostructured materials are widely used nowadays as drug delivery carriers due to their adventurous features: suitable architecture, large surface area and stability in the biological fluids. Among the different types of inorganic porous materials, silica, calcium carbonate, and calcium phosphate have received significant attention in the last decade. The use of porous inorganic materials as drug carriers for cancer therapy, gene delivery etc. has the potential to improve the life expectancy of the patients affected by the disease. The main goal of this review is to provide general information on the current state of the art of synthesis of the inorganic porous particles based on silica, calcium carbonate and calcium phosphate. Special focus is dedicated to the loading capacity, controllable release of drugs under internal biological stimuli (e.g., pH, redox, enzymes) and external noninvasive stimuli (e.g., light, magnetic field, and ultrasound). Moreover, the diverse compounds to deliver with silica, calcium carbonate and calcium phosphate particles, ranging from the commercial drugs to genetic materials are also discussed.

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Optoacoustic study of laser-induced near-critical states of thin aluminum films

Карабутов

Kaptilniy

Ivochkin

et al. 2013

Moscow Univ. Phys.

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Metal grating terahertz polarizers on substrate

Trofimov

Chebotarev

Khodzitsky

2017

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Numerical simulation of the parameters of terahertz polarizers on a silicon substrate

et al. 2017

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Change in the spectrum of optical radiation transmitted through a plasma with an increase in the ionization degree

2011

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A. D. Trofimov

Porous Inorganic Carriers Based on Silica, Calcium Carbonate and Calcium Phosphate for Controlled/Modulated Drug Delivery: Fresh Outlook and Future Perspectives

Optoacoustic study of laser-induced near-critical states of thin aluminum films

Metal grating terahertz polarizers on substrate

Numerical simulation of the parameters of terahertz polarizers on a silicon substrate

Change in the spectrum of optical radiation transmitted through a plasma with an increase in the ionization degree

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