Effect of pH, Ionic Strength and Agitation Rate on Dissolution Behaviour of 3D-Printed Tablets, Tablets Prepared from Ground Hot-Melt Extruded Filaments and Physical Mixtures

Nashed, Nour; Chan, Stephanie; Lam, Matthew; Ghafourian, Taravat; Nokhodchi, Ali

doi:10.3390/biomedicines11020375

Cited by 5 publications

(6 citation statements)

References 31 publications

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“…The dissolution and release of a drug are pivotal factors influencing its absorption and bioavailability, thereby playing a crucial role in drug efficacy and toxicity ( Raman et al, 2023 ; Nashed et al, 2023 ). In our investigation of albendazole, we focused on evaluating the dissolution rate of albendazole solid dispersion and its physical mixture in simulated gastric fluid.…”

Section: Resultsmentioning

confidence: 99%

Enabling a novel solvent method on Albendazole solid dispersion to improve the in vivo bioavailability

Han,

Zou

2024

European Journal of Pharmaceutical Sciences

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Section: Resultsmentioning

confidence: 99%

Enabling a novel solvent method on Albendazole solid dispersion to improve the in vivo bioavailability

Han,

Zou

2024

European Journal of Pharmaceutical Sciences

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“…These factors play a role in charge distribution, solubility, aggregation, and hydrophobicity, which are key to skin permeability and antimicrobial efficacy. Some AMPs exhibit optimal activity within specific pH or ionic strength ranges …”

Section: Different Transdermal Delivery Methodsmentioning

confidence: 99%

“…Some AMPs exhibit optimal activity within specific pH or ionic strength ranges. 97 Despite its significant potential, the transdermal delivery of AMPs using iontophoresis faces challenges. Potential skin irritation or damage caused by electric currents or electrodes requires careful attention and proper control.…”

Section: Iontophoresismentioning

confidence: 99%

Advances in Transdermal Delivery of Antimicrobial Peptides for Wound Management: Biomaterial-Based Approaches and Future Perspectives

Firdous,

Sagor,

Arafat

2023

ACS Appl. Bio Mater.

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Antimicrobial peptides (AMPs), distinguished by their cationic and amphiphilic nature, represent a critical frontier in the battle against antimicrobial resistance due to their potent antimicrobial activity and a broad spectrum of action. However, the clinical translation of AMPs faces hurdles, including their susceptibility to degradation, limited bioavailability, and the need for targeted delivery. Transdermal delivery has immense potential for optimizing AMP administration for wound management. Leveraging the skin's accessibility and barrier properties, transdermal delivery offers a noninvasive approach that can circumvent systemic side effects and ensure sustained release. Biomaterialbased delivery systems, encompassing nanofibers, hydrogels, nanoparticles, and liposomes, have emerged as key players in enhancing the efficacy of transdermal AMP delivery. These biomaterial carriers not only shield AMPs from enzymatic degradation but also provide controlled release mechanisms, thereby elevating stability and bioavailability. The synergistic interaction between the transdermal approach and biomaterial-facilitated formulations presents a promising strategy to overcome the multifaceted challenges associated with AMP delivery. Integrating advanced technologies and personalized medicine, this convergence allows the reimagining of wound care. This review amalgamates insights to propose a pathway where AMPs, transdermal delivery, and biomaterial innovation harmonize for effective wound management.

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“…NaCl and KCl are some salts that are used in dissolution media to mimic biological fluids under fed and fasted conditions. Nashed et al conducted experiments with various KCl concentrations and found that solubility was improved by alkaline ions like potassium, which led to an increase in the release rate (10). Also, increasing the ionic strength beyond a certain point eventually resulted in decreased dissolution efficiency by indicating the salting out of the polymer by the organic ions in the media, prolonging the drug release (10).…”

Section: Ionic Strengthmentioning

confidence: 99%

Selection and Parameters Affecting Dissolution Media

Jangla,

Raut

2024

Dissolut. Technol.

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Dissolution of oral solid dosage forms refers to the process by which active pharmaceutical ingredient(s) are released from the dosage form into a liquid vehicle, called the dissolution medium. Dissolution is an essential test for the development and quality control of almost all dosage forms. The availability of the drug to release from the dosage form into the dissolution medium can be often linked to the availability of the drug for absorption and eventually for therapeutic action. Therefore, it is crucial to investigate the choice of dissolution media, especially in the case of poorly soluble drugs (BCS class 2 and 4). This article reviews the various parameters of dissolution media that influence drug release for research and development of pharmaceutical formulations, including temperature, pH, ionic strength, surfactant, enzymes, dissolved gas, hydrodynamics, viscosity, and the type of dissolution apparatus. Understanding the impact of these parameters will help in making a straightforward, realistic, and objective decision regarding the most effective dissolution medium.

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Effect of pH, Ionic Strength and Agitation Rate on Dissolution Behaviour of 3D-Printed Tablets, Tablets Prepared from Ground Hot-Melt Extruded Filaments and Physical Mixtures

Cited by 5 publications

References 31 publications

Enabling a novel solvent method on Albendazole solid dispersion to improve the in vivo bioavailability

Enabling a novel solvent method on Albendazole solid dispersion to improve the in vivo bioavailability

Advances in Transdermal Delivery of Antimicrobial Peptides for Wound Management: Biomaterial-Based Approaches and Future Perspectives

Selection and Parameters Affecting Dissolution Media

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