Title of article
Characteristics of codried products of microcrystalline cellulose with saccharides and low-substituted hydroxypropylcellulose
Author/Authors
Ho، نويسنده , , Hsiu-O and Hsieh، نويسنده , , Chien-Ming and Sheu، نويسنده , , Ming-Thau، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2002
Pages
11
From page
45
To page
55
Abstract
Codried products of microcrystalline cellulose (MCC) with saccharides (glucose, mannitol and sorbitol) and low-substituted hydroxypropylcellulose (L-HPC) of various grades (LH11, -20, -21, -22 and -31) were prepared. Their characteristics were evaluated and compared with the corresponding physical mixtures (PM) and dried product of MCC slurry (MCC-S). Improvement in flowability and Carrʹs index was demonstrated for codried products. Tablets prepared from most of the codried products showed a lower yield pressure and a shorter disintegration time, but a lower tensile strength. The E0 value of MCC-S was the highest among all MCC products tested. Further, all codried products demonstrated a lower E0 value than that of the corresponding physical mixtures. The extent of modification on the stiffness of MCC by L-HPC was larger than that by saccharides. Kic0 values for physical mixtures were larger than those of the corresponding codried products and MCC-S. On the other hand, Kic0 values for codried products of MCC with saccharides were in a comparable range of 0.63–1.10 MPa m1/2, whereas that for codried products of MCC with L-HPC increased with increasing particle size (LH11>LH21>LH31). R0 was larger for physical mixtures than for the corresponding codried products. Most physical mixtures had a larger value of R0 than MCC-S except that for PMS, whereas values for most of codried products were smaller than that of MCC-S except for CD11 and CD21. The values of σT0 for the codried products were lower than those for the physical mixtures, and both were lower than that for MCC-S. In terms of physical mixtures, the extent of decrease by mixing MCC with L-HPC was lower than that when mixing MCC with saccharides. However, the extent of decrease by codrying MCC with saccharides was greater than that with L-HPC. In conclusion, rounder, smoother particles with fewer free-moving fibers on the surface are the determining factor influencing the mechanical performance of the resulting codried products.
Keywords
microcrystalline cellulose , Codried products , Particle morphology , Saccharides , Low-substituted hydroxypropylcellulose , Mechanical Property
Journal title
Powder Technology
Serial Year
2002
Journal title
Powder Technology
Record number
1693364
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