Mohamed Brahmi scite author profile

To understand the abilities of Ca-alginate microcapsules and their specific applications in different fields, it is necessary to determine the physicochemical and structural properties of those formulated microcapsules. In this work, we aimed to study the effect of alginate concentration in the improvement of the encapsulation efficiency (EE) and on the release of phenolic and flavonoid substances. The relationship between the structure of the encapsulated bioactive substance and Ca-alginate network and their effect on the EE and release kinetics have been investigated. The incorporation, structure, morphology, and phase properties of all elaborated materials were characterized by UV-spectroscopy, Fourier transform infrared (ATR-FTIR), scanning electron microscope (SEM), and X-ray diffraction (DRX). The results indicate that increasing the polymer concentration increases the EE and decreases the loading capacity (LC), whereas the effect of alginate polymer concentration on the release was not observed. The release study of bioactive substances showed that the release kinetics is relatively dependent on the structure and the physicochemical characteristics of the bioactive substance, which became clear when the encapsulated compounds were released from the core of calcium alginate microcapsules. Thus, it could be concluded that the pores size of the Ca-alginate network is smaller than the volume of the crocin molecule (2794.926 Å3) and higher than the volume of the gallic acid molecule (527.659 Å3). For the same microcapsules system, the release mechanism is affected by the structure and physicochemical properties of the encapsulated molecules.

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Recent Advances in Nanoparticle Development for Drug Delivery: A Comprehensive Review of Polycaprolactone-Based Multi-Arm Architectures

Yousfi

Brahmi

Dalli

et al. 2023

Polymers

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Controlled drug delivery is a crucial area of study for improving the targeted availability of drugs; several polymer systems have been applied for the formulation of drug delivery vehicles, including linear amphiphilic block copolymers, but with some limitations manifested in their ability to form only nanoaggregates such as polymersomes or vesicles within a narrow range of hydrophobic/hydrophilic balance, which can be problematic. For this, multi-arm architecture has emerged as an efficient alternative that overcame these challenges, with many interesting advantages such as reducing critical micellar concentrations, producing smaller particles, allowing for various functional compositions, and ensuring prolonged and continuous drug release. This review focuses on examining the key variables that influence the customization of multi-arm architecture assemblies based on polycaprolactone and their impact on drug loading and delivery. Specifically, this study focuses on the investigation of the structure–property relationships in these formulations, including the thermal properties presented by this architecture. Furthermore, this work will emphasize the importance of the type of architecture, chain topology, self-assembly parameters, and comparison between multi-arm structures and linear counterparts in relation to their impact on their performance as nanocarriers. By understanding these relationships, more effective multi-arm polymers can be designed with appropriate characteristics for their intended applications.

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Development and characterization of alginate@montmorillonite hybrid microcapsules for encapsulation and controlled release of quercetin: Effect of clay type

Brahmi

Berraaouan

Amrani

et al. 2023

Materials Today: Proceedings

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Adsorption of sodium alginate onto sodium montmorillonite

Brahmi

Elbachiri

Tahani

2021

Materials Today: Proceedings

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Insights into the Interaction of Dacarbazine and Human Serum Albumin from Electrochemical Probing

Bakırhan

Brahmi

Tahani

2023

J. Electrochem. Soc.

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The interaction between dacarbazine (DAC) and human serum albumin (HSA) was investigated under physiological conditions using electrochemical techniques, including cyclic voltammetry (CV), differential pulse voltammetry (DPV), and electrochemical impedance spectroscopy (EIS). The CV results demonstrated that the oxidation of DAC on a pyrolytic graphite electrode (PGE) surface was irreversible and controlled by an adsorption-diffusion process. The addition of HSA was found to decrease the peak potential of DAC without altering the electrochemical parameters, which is likely due to the formation of an electro-inactive complex between the drug and protein, as supported by DPV and EIS measurements. Using DPV, the binding constant and stoichiometry of the complex were calculated to be 2.16×104 mol-1 L and 1:1, respectively. The temperature effect revealed that DAC binds to HSA through hydrophobic forces. In addition, the PGE electrode was successfully used to determine DAC in from biological samples.

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Mohamed Brahmi

Influence of Sodium Alginate Concentration on Microcapsules Properties Foreseeing the Protection and Controlled Release of Bioactive Substances

Recent Advances in Nanoparticle Development for Drug Delivery: A Comprehensive Review of Polycaprolactone-Based Multi-Arm Architectures

Development and characterization of alginate@montmorillonite hybrid microcapsules for encapsulation and controlled release of quercetin: Effect of clay type

Adsorption of sodium alginate onto sodium montmorillonite

Insights into the Interaction of Dacarbazine and Human Serum Albumin from Electrochemical Probing

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