Eichie scite author profile

Eichie

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24Citation Statements Received

18Citation Statements Given

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Effect of particle size of granules on some mechanical properties of paracetamol tablets

Eichie¹,

Kudehinbu²

2009

Afr. J. Biotechnol.

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Solid dosage forms are invariably multiparticulate systems of heterogenous particle size distribution. The purpose of this study was to investigate the effect of particle size distribution of paracetamol granules on some tablet mechanical properties of paracetamol tablets. Granules were formed by wet massing paracetamol powder (200 g) with 20% (w/w) of maize starch mucilage as binder. Resulting granules were classified into different size fractions (212-1700 µm) by sieve analysis and samples of granules from the various size fractions were compressed into tablets of weight 500 ± 4.3 mg, diameter 12.3 ± 2.3 mm and thickness 3.6 ± 1.2 mm, using a single punch tablet machine at a compression pressure load of 7 arbitrary units on the load scale. The tablets were equilibrated for 24 h before evaluation. Tablet mechanical parameters evaluated were packing fraction (P f), tensile strength (T), particle density, porosity and friability. The results showed that T values and friability index decreased slightly from 1.48 MNm-2 to 1.35 MNm-2 and 1.77 to 0.93%, respectively, following an increase in the granule sizes from 212 to 1700 µm. These differences were, however, not statistically significant. The packing fraction (P f) of the tablets increased from 0.853 to 0.960 significantly following an increase in granule size from 212 to 1700 µm. The indication is that there is a higher degree of consolidation of the compacts formed from larger granules as a result of plastic deformation and fragmentation than those from smaller granules. The study showed that varying the granule size distribution in a powdered bed affects some tablet mechanical characteristics. The implication of this is that the granule sizes should be controlled during tableting and/or filling into capsule in order to avoid weight and content variation while ensuring that only tablets with desirable mechanical characteristics are formed.

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Evaluation of the binder effects of the gum mucilages of Cissus populnea and Acassia senegal on the mechanical properties of paracetamol tablets

Eichie¹,

F²,

Amalime³

et al. 2007

Afr. J. Biotechnol.

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A comparative study has been carried out to investigate the binder effects of the gums of Cissus populnea and Accasia senegal on the mechanical properties of paracetamol tablets. Tablet mechanical properties evaluated include the packing fraction (P f), the tensile strength (T) and the brittle fracture tendency (BFI). Varying concentrations of the gum mucilage ranging from 1-15% (w/v) was prepared and their relative viscosities determined. Each concentration was used to wet massed paracetamol powder to form granules. Tablets of paracetamol (500 ± 6.5 mg) were compressed at a constant compression load (7 arbitruary units on the scale). The tablets were equilibrated for 24 h before evaluation. At all binder concentrations A. senegal gum produced harder and more consolidated tablets than C. populnea as reflected by the higher T and P f values respectively. For instance, the T and P f values of the tablets at binder concentration of 10% (w/v) were 0.69 MNm-2 and 0.47 (A. senegal) and 0.57 MNm-2 and 0.23 (C. populnea), respectively. On the contrary, an increase in binder concentration generally resulted in a decrease in BFI values and this decrease was more marked with C. populnea. The study showed that A. senegal mucilage displayed better tableting characteristics and higher tendency for ameliorating capping tendency. Both mucilages have the potentials for substitution as binder for the more expensive starches in tablet formulation.

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Eichie

Effect of particle size of granules on some mechanical properties of paracetamol tablets

Evaluation of the binder effects of the gum mucilages of Cissus populnea and Acassia senegal on the mechanical properties of paracetamol tablets

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