Your search keyword '"G. Drazer"' showing total 2 results

1. A drop penetration method to measure powder blend wettability.

Author

Wang Y, Liu Z, Muzzio F, Drazer G, and Callegari G

Subjects

Acetaminophen administration & dosage, Dimethylpolysiloxanes chemistry, Excipients chemistry, Hydrophobic and Hydrophilic Interactions, Lubricants chemistry, Powders, Surface Properties, Tablets, Water chemistry, Wettability, Acetaminophen chemistry, Chemistry, Pharmaceutical methods, Lactose chemistry, Stearic Acids chemistry

Abstract

Water wettability of pharmaceutical blends affects important quality attributes of final products. We investigate the wetting properties of a pharmaceutical blend lubricated with Magnesium Stearate (MgSt) as a function of the mechanical shear strain applied to the blend. We measure the penetration dynamics of sessile drops deposited on slightly compressed powder beds. We consider a blend composed of 9% Acetaminophen 90% Lactose and 1% MgSt by weight. Comparing the penetration time of water and a reference liquid Polydimethylsiloxane (silicon oil) we obtain an effective cosine of the contact angle with water, based on a recently developed drop penetration method. We repeat the experiments for blends exposed to increasing levels of shear strain and demonstrate a significant decrease in water wettability (decrease in the cosine of the contact angle). The results are consistent with the development of a hydrophobic film coating the powder particles as a result of the increased shear strain. Finally, we show that, as expected dissolution times increase with the level of shear strain. Therefore, the proposed drop penetration method could be used to directly assess the state of lubrication of a pharmaceutical blend and act as a quality control on powder blend attributes before the blend is tableted., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

2. Toward predicting tensile strength of pharmaceutical tablets by ultrasound measurement in continuous manufacturing.

Author

Razavi SM, Callegari G, Drazer G, and Cuitiño AM

Subjects

Elastic Modulus, Hardness, Mechanical Phenomena, Reproducibility of Results, Shear Strength, Drug Compounding methods, Tablets, Tensile Strength, Ultrasonics

Abstract

An ultrasound measurement system was employed as a non-destructive method to evaluate its reliability in predicting the tensile strength of tablets and investigate the benefits of incorporating it in a continuous line, manufacturing solid dosage forms. Tablets containing lactose, acetaminophen, and magnesium stearate were manufactured continuously and in batches. The effect of two processing parameters, compaction force and level of shear strain were examined. Young's modulus and tensile strength of tablets were obtained by ultrasound and diametrical mechanical testing, respectively. It was found that as the blend was exposed to increasing levels of shear strain, the speed of sound in the tablets decreased and the tablets became both softer and mechanically weaker. Moreover, the results indicate that two separate tablet material properties (e.g., relative density and Young's modulus) are necessary in order to predict tensile strength. A strategy for hardness prediction is proposed that uses the existing models for Young's modulus and tensile strength of porous materials. Ultrasound testing was found to be very sensitive in differentiating tablets with similar formulation but produced under different processing conditions (e.g., different level of shear strain), thus, providing a fast, and non-destructive method for hardness prediction that could be incorporated to a continuous manufacturing process., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016