A pH-sensitive silica nanoparticles for colon-specific delivery and controlled release of catechin: Optimization of loading efficiency and in vitro release kinetics

A pH-sensitive silica nanoparticles for colon-specific delivery and controlled release of catechin: Optimization of loading efficiency and in vitro release kinetics

Catechin is a naturally occurring flavonoid of the flavan-3-ol subclass with numerous biological functions; however, these benefits are diminished due to several factors, including low water solubility and degradation in the stomach's harsh environment. So, this study aimed to develop an intell...

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Veröffentlicht in:European journal of pharmaceutical sciences 2024-01, Vol.192, p.106652-106652, Article 106652
Hauptverfasser: Kassem, Abdulsalam M., Almukainzi, May, Faris, Tarek M., Ibrahim, Ahmed H., Anwar, Walid, Elbahwy, Ibrahim A., El-Gamal, Farid R., Zidan, Mohamed F., Akl, Mohamed A., Abd-ElGawad, Ahmed M., Elshamy, Abdelsamed I., Elmowafy, Mohammed
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Sprache:eng
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Catechin
Colon - metabolism
Colon targeting
Delayed-Action Preparations - metabolism
Drug Carriers - chemistry
Drug Delivery Systems
Eudragit®-S100
Hydrogen-Ion Concentration
Mesoporous silica nanoparticles
Nanoparticles - chemistry
pH-responsive drug delivery system
Porosity
Silicon Dioxide - chemistry
Spectroscopy, Fourier Transform Infrared
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container_end_page 106652
container_issue
container_start_page 106652
container_title European journal of pharmaceutical sciences
container_volume 192
creator Kassem, Abdulsalam M.
Almukainzi, May
Faris, Tarek M.
Ibrahim, Ahmed H.
Anwar, Walid
Elbahwy, Ibrahim A.
El-Gamal, Farid R.
Zidan, Mohamed F.
Akl, Mohamed A.
Abd-ElGawad, Ahmed M.
Elshamy, Abdelsamed I.
Elmowafy, Mohammed
description Catechin is a naturally occurring flavonoid of the flavan-3-ol subclass with numerous biological functions; however, these benefits are diminished due to several factors, including low water solubility and degradation in the stomach's harsh environment. So, this study aimed to develop an intelligent catechin colon-targeting delivery system with a high loading capacity. This was done by coating surface-decorated mesoporous silica nanoparticles with a pH-responsive enteric polymer called Eudragit®-S100. The pristine wormlike mesoporous silica nanoparticles (< 100 nm) with high surface area and large total pore volume were effectively synthesized and modified with the NH2 group using the post-grafting strategy. Various parameters, including solvent polarity, catechin-carrier mass ratio, and adsorption time, were studied to improve the loading of catechin into the aminated silica nanoparticles. Next, the negatively charged Eudragit®-S100 was electrostatically coated onto the positively charged aminated nanocarriers to shield the loaded catechin from the acidic environment of the stomach (pH 1.9) and to facilitate site-specific delivery in the acidic environment of the colon (pH 7.4). The prepared nanomaterials were evaluated using several methods, including The Brauner-Emmett-Teller, surface area analyzer, zeta sizer, Field Emission Scanning Electron Microscope, Powder X-Ray Diffraction, Fourier Transform Infrared Spectroscopy, Energy-Dispersive X-ray Spectroscopy, and Differential Scanning Calorimetry. In vitro dissolution studies revealed that Eudragit®-S100-coated aminated nanomaterials prevented the burst release of the loaded catechin in the acidic environment, with approximately 90% of the catechin only being released at colonic pH (pH > 7) with a supercase II transport mechanism. As a result, silica nanoparticles coated with Eudragit®-S100 would provide an innovative and promising approach in targeted nanomedicine for the oral delivery of catechin and related medicines for treating diseases related to the colon, such as colorectal cancer and irritable bowel syndrome. [Display omitted]
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however, these benefits are diminished due to several factors, including low water solubility and degradation in the stomach's harsh environment. 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subjects Catechin
Colon - metabolism
Colon targeting
Delayed-Action Preparations - metabolism
Drug Carriers - chemistry
Drug Delivery Systems
Eudragit®-S100
Hydrogen-Ion Concentration
Mesoporous silica nanoparticles
Nanoparticles - chemistry
pH-responsive drug delivery system
Porosity
Silicon Dioxide - chemistry
Spectroscopy, Fourier Transform Infrared
title A pH-sensitive silica nanoparticles for colon-specific delivery and controlled release of catechin: Optimization of loading efficiency and in vitro release kinetics
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