Microscale granulation in a fluid bed powder processor using electrostatic atomisation.

The aim of this study was to use the electrostatic atomisation in miniaturised fluid bed granulation process and define the effect of process parameters. The process parameters included in the study were granulation liquid flow rate, atomisation voltage and binder concentration in the granulation liquid. Altogether 22 batches were granulated in Multichamber Microscale Fluid bed powder Processor (MMFP).

Developing a tool for the preparation of GMP audit of pharmaceutical contract manufacturer.

Outsourcing is rapidly growing in the pharmaceutical industry. When the manufacturing activities are outsourced, control of the product's quality has to be maintained. One way to confirm contract manufacturer's GMP (Good Manufacturing Practice) compliance is auditing.

The characterization of fluidization behavior using a novel multichamber microscale fluid bed.

In the preformulation stage, there is a special need to determine the process behavior of materials with smaller amounts of samples. The purpose of this study was to assemble a novel automated multichamber microscale fluid bed module with a process air control unit for the characterization of fluidization behavior in variable conditions. The results were evaluated on the basis of two common computational methods, the minimum fluidization velocity, and the Geldart classification.

Next generation fluidized bed granulator automation.

A system for fluidized bed granulator automation with in-line multichannel near infrared (NIR) moisture measurement and a unique air flow rate measurement design was assembled, and the information gained was investigated. The multivariate process data collected was analyzed using principal component analysis (PCA). The test materials (theophylline and microcrystalline cellulose) were granulated and the calibration behavior of the multichannel NIR set-up was evaluated against full Fourier Transform (FT) NIR spectra.

Dehydration studies using a novel multichamber microscale fluid bed dryer with in-line near-infrared measurement.

The purpose of this research was to study the effect of two process parameters (temperature and moisture content) on dehydration behavior of different materials using a novel multichamber microscale fluid bed dryer with a process air control unit and in-line near-infrared (NIR) spectroscopy. The materials studied were disodium hydrogen phosphates with three different levels of hydrate water and wet theophylline granules. Measured process parameters of fluid bed drying were logged, including in-line NIR signals.