Bernd W. Müller scite author profile

Targeting to specific sites of the body via colloidal carriers is sought in order to reduce drug side effects. The adsorption of plasma proteins on intravenously injected particles is regarded as the key factor in explaining their organ distribution: total bound protein, or, more likely, the presence of specific proteins and their conformation, are expected to influence macrophage uptake. Polystyrene beads, 60 nm in diameter, were used as model carriers; their surface was differentially modified by adsorption of increasingly hydrophilic block copolymers, poloxamers 184, 188 and 407. After incubation in plasma, the patterns of protein adsorption onto coated beads were analyzed by highresolution two-dimensional polyacrylamide gel electrophoresis (2-D PAGE). The behavior of some representative proteins was monitored, including albumin, fibrinogen, IgG, factor B and the apolipoproteins, A-I, A-IV, C-111, E and J. The more hydrophobic the particles, the larger the total amount of bound protein. However, this correlation was not valid for all of the analyzed protein species, which proves that it is insufficient to look only at physicochemical data to predict organ distribution. On the contrary, it is essential to use 2-D PAGE to establish the correlation between adsorbed proteins and carrier behavior in vivo.

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Micron‐Size Drug Particles: Common and Novel Micronization Techniques

Rasenack

Müller

2004

Pharmaceutical Development and Technology

301

159

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Drug powders containing micron-size drug particles are used in several pharmaceutical dosage forms. Many drugs, especially newly developed substances, are poorly water soluble, which limits their oral bioavailability. The dissolution rate can be enhanced by using micronized drugs. Small drug particles are also required in administration forms, which require the drug in micron-size size due to geometric reasons in the organ to be targeted (e.g., drugs for pulmonary use). The common technique for the preparation of micron-size drugs is the mechanical comminution (e.g., by crushing, grinding, and milling) of previously formed larger particles. In spite of the widespread use of this technique, the milling process does not represent the ideal way for the production of small particles because drug substance properties and surface properties are altered in a mainly uncontrolled manner. Thus, techniques that prepare the drug directly in the required particle size are of interest. Because physicochemical drug powder properties are decisive for the manufacturing of a dosage form and for therapeutic success, the characterization of the particle surface and powder properties plays an important role. This article summarizes common and novel techniques for the production of a drug in small particle size. The properties of the resulting products that are obtained by different techniques are characterized and compared.

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Crystal habit and tableting behavior

Rasenack

Müller

2002

International Journal of Pharmaceutics

156

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Micronizing of steroids for pulmonary delivery by supercritical carbon dioxide

Steckel

Thies

Müller

1997

International Journal of Pharmaceutics

102

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Bernd W. Müller

Microcrystals for dissolution rate enhancement of poorly water-soluble drugs

Colloidal carriers for intravenous drug targeting: Plasma protein adsorption patterns on surface‐modified latex particles evaluated by two‐dimensional polyacrylamide gel electrophoresis

Micron‐Size Drug Particles: Common and Novel Micronization Techniques

Crystal habit and tableting behavior

Micronizing of steroids for pulmonary delivery by supercritical carbon dioxide

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