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Literature DB >> 15760057

The surface roughness of lactose particles can be modulated by wet-smoothing using a high-shear mixer.

Franca Ferrari¹, Daniela Cocconi, Ruggero Bettini, Ferdinando Giordano, Patrizia Santi, Michael Tobyn, Robert Price, Paul Young, Carla Caramella, Paolo Colombo.

Abstract

The surface morphology of a-lactose monohydrate particles was modified by a new wet-smoothing process performed in a high-shear mixer using solvents. Successive steps of wetting and drying of lactose powders during rolling in the mixer's cylindrical bowl were performed. Smoothed particles were tested for size distribution, flow, and packing. The wet-smoothing process flattened the surface and rounded the edges of lactose particles. In comparison with original lactose, an improvement of powder packing and flow properties was evidenced. When the process was performed in the presence of a ternary agent such as magnesium stearate, the smoothing was improved. The evolution of rugosity during the smoothing process was assessed through a fractal descriptor of SEM picture. Atomic force microscopy and surface area measurements quantified the surface rugosity. A very significant reduction of the rugosity, more remarkable in the presence of magnesium stearate, was measured. This new process of powder wet-smoothing allows the preparation of lactose particles with different degrees of smoothed surface for the control of flow and packing properties and particle-particle interactions.

Entities: Chemical

Mesh：

Substances：
Lactose

Year: 2004 PMID： 15760057 PMCID： PMC2750485 DOI： 10.1208/pt050460

Source DB: PubMed Journal: AAPS PharmSciTech ISSN： 1530-9932 Impact factor: 3.246

13 in total

1. The effect of particle morphology on the physical stability of pharmaceutical powder mixtures: the effect of surface roughness of the carrier on the stability of ordered mixtures.

Authors: V Swaminathan; D O Kildsig
Journal: Drug Dev Ind Pharm Date: 2000-04 Impact factor: 3.225

2. Image analysis measurements of roughness by texture and fractal analysis correlate with contact profilometry.

Authors: D Chappard; I Degasne; G Huré; E Legrand; M Audran; M F Baslé
Journal: Biomaterials Date: 2003-04 Impact factor: 12.479

3. Preparation of dry powder inhalation by surface treatment of lactose carrier particles.

Authors: Kotaro Iida; Youhei Hayakawa; Hirokazu Okamoto; Kazumi Danjo; Hans Leuenberger
Journal: Chem Pharm Bull (Tokyo) Date: 2003-01 Impact factor: 1.645

4. Air classifier technology (ACT) in dry powder inhalation. Part 2. The effect of lactose carrier surface properties on the drug-to-carrier interaction in adhesive mixtures for inhalation.

Authors: A H de Boer; P Hagedoorn; D Gjaltema; J Goede; K D Kussendrager; H W Frijlink
Journal: Int J Pharm Date: 2003-07-24 Impact factor: 5.875

5. Characterization of particle sizes in bulk pharmaceutical solids using digital image information.

Authors: Niklas Laitinen; Osmo Antikainen; Jouko Yliruusi
Journal: AAPS PharmSciTech Date: 2003-10-13 Impact factor: 3.246

6. Lactose as a carrier in dry powder formulations: the influence of surface characteristics on drug delivery.

Authors: X M Zeng; G P Martin; C Marriott; J Pritchard
Journal: J Pharm Sci Date: 2001-09 Impact factor: 3.534

7. The influence of carrier morphology on drug delivery by dry powder inhalers.

Authors: X M Zeng; G P Martin; C Marriott; J Pritchard
Journal: Int J Pharm Date: 2000-04-25 Impact factor: 5.875

8. Quantification of the surface morphologies of lactose carriers and their effect on the in vitro deposition of salbutamol sulphate.

Authors: P W Heng; L W Chan; L T Lim
Journal: Chem Pharm Bull (Tokyo) Date: 2000-03 Impact factor: 1.645

The surface roughness of lactose particles can be modulated by wet-smoothing using a high-shear mixer.

1. The effect of particle morphology on the physical stability of pharmaceutical powder mixtures: the effect of surface roughness of the carrier on the stability of ordered mixtures.

2. Image analysis measurements of roughness by texture and fractal analysis correlate with contact profilometry.

3. Preparation of dry powder inhalation by surface treatment of lactose carrier particles.

4. Air classifier technology (ACT) in dry powder inhalation. Part 2. The effect of lactose carrier surface properties on the drug-to-carrier interaction in adhesive mixtures for inhalation.

5. Characterization of particle sizes in bulk pharmaceutical solids using digital image information.

6. Lactose as a carrier in dry powder formulations: the influence of surface characteristics on drug delivery.

7. The influence of carrier morphology on drug delivery by dry powder inhalers.

8. Quantification of the surface morphologies of lactose carriers and their effect on the in vitro deposition of salbutamol sulphate.

9. The influence of relative humidity on particulate interactions in carrier-based dry powder inhaler formulations.

10. Characterization of a surface modified dry powder inhalation carrier prepared by "particle smoothing".

1. Measuring surface roughness of pharmaceutical powders using vapor sorption methods.

2. Effective modification of particle surface properties using ultrasonic water mist.

3. Evaluation of granulated lactose as a carrier for DPI formulations 1: effect of granule size.

4. Improving Dry Powder Inhaler Performance by Surface Roughening of Lactose Carrier Particles.

5. Lactose composite carriers for respiratory delivery.

6. Effect of Lactose Pseudopolymorphic Transition on the Aerosolization Performance of Drug/Carrier Mixtures.