Mirjam Kobler scite author profile

Mirjam Kobler

5Publications

66Citation Statements Received

81Citation Statements Given

How they've been cited

117

How they cite others

126

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In-Depth Comparison of Dry Particle Coating Processes Used in DPI Particle Engineering

Bungert

Kobler²,

Scherließ

2021

Pharmaceutics

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High-shear mixer coatings as well as mechanofusion processes are used in the particle-engineering of dry powder inhalation carrier systems. The aim of coating the carrier particle is usually to decrease carrier–drug adhesion. This study comprises the in-depth comparison of two established dry particle coating options. Both processes were conducted with and without a model additive (magnesium stearate). In doing so, changes in the behaviour of the processed particles can be traced back to either the process or the additive. It can be stated that the coarse model carrier showed no significant changes when processed without additives. By coating the particles with magnesium stearate, the surface energy decreased significantly. This leads to a significant enhancement of the aerodynamic performance of the respective carrier-based blends. Comparing the engineered carriers with each other, the high-shear mixer coating shows significant benefits, namely, lower drug–carrier adhesion and the higher efficiency of the coating process.

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Powder flow analysis: A simple method to indicate the ideal amount of lactose fines in dry powder inhaler formulations

Hertel

Schwarz²,

Kobler³

et al. 2018

International Journal of Pharmaceutics

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Evaluation of the Physico-mechanical Properties and Electrostatic Charging Behavior of Different Capsule Types for Inhalation Under Distinct Environmental Conditions

et al. 2020

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Capsule-based dry powder inhaler (DPI) products can be influenced by a multitude of interacting factors, including electrostatic charging. Tribo-charging is a process of charge transfer impacted by various factors, i.e., material surface characteristics, mechanical properties, processing parameters and environmental conditions. Consequently, this work aimed to assess how the charging behavior of capsules intended for inhalation might be influenced by environmental conditions. Capsules having different chemical compositions (gelatin and hydroxypropyl methylcellulose (HPMC)) and distinct inherent characteristics from manufacturing (thermally and cold-gelled) were exposed to various environmental conditions (11%, 22% and 51% RH). Their resulting properties were characterized and tribo-charging behavior was measured against stainless steel and PVC. It was observed that all capsule materials tended to charge to a higher extent when in contact with PVC. The tribo-charging of the thermally gelled HPMC capsules (Vcaps ® Plus) was more similar to the gelatin capsules (Quali-G™-I) than to their HPMC cold-gelled counterparts (Quali-V ®-I). The sorption of water by the capsules at different relative humidities notably impacted their properties and tribo-charging behavior. Different interactions between the tested materials and water molecules were identified and are proposed to be the driver of distinct charging behaviors. Finally, we showed that depending on the capsule types, distinct environmental conditions are necessary to mitigate charging and assure optimal behavior of the capsules.

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The influence of high shear mixing on ternary dry powder inhaler formulations

Hertel

Schwarz²,

Kobler³

et al. 2017

International Journal of Pharmaceutics

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Surface energy considerations in ternary powder blends for inhalation

Bungert

Kobler²,

Scherließ

2021

International Journal of Pharmaceutics

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Mirjam Kobler

In-Depth Comparison of Dry Particle Coating Processes Used in DPI Particle Engineering

Powder flow analysis: A simple method to indicate the ideal amount of lactose fines in dry powder inhaler formulations

Evaluation of the Physico-mechanical Properties and Electrostatic Charging Behavior of Different Capsule Types for Inhalation Under Distinct Environmental Conditions

The influence of high shear mixing on ternary dry powder inhaler formulations

Surface energy considerations in ternary powder blends for inhalation

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