RÉSUMÉ
In this study, fluvoxamine maleate sustained-release pellet system tablets were prepared and were used to evaluate their release behaviors in vitro. Fluvoxamine maleate pellets were prepared using centrifugal-spherization method and coated by fluidized bed as bottom-spray. The multi-unit sustained-release pellets and appropriate excipients for prescription volumes were mixed uniformly and then compressed to tablets. Screening and determining the optimal formulation of drug loaded pellets through L8 (24) Taguchi experiment. Using Minitab software to design a DOE experiment with 24 partial factors, including material temperature, fan speed, atomization pressure, and spray rate to optimize the bottom spray coating process. Taking monostearate glycerol ester with a particle size of 24-40 mesh as the main diluent for tableting to relieve the delamination phenomenon between pellets and excipients during tablet pressing and reduce mechanical damage to the coating film. By examining the powder fluidity indexes such as angle of repose, bulk density, tapped density, and Hausner ratio of mixed particles, it was found that the flowability and compressibility are good and suitable for direct compression. Evaluate the basic properties of the sustained-release tablets, investigate the in vitro release behavior and study the release mechanism. The results of in vitro release test showed that the self-made sustained-release tablets could disintegrate into independent pellet units in phosphate buffer at pH 6.8 and release slowly within 24 h, which conformed to the first-order drug release model. The fluvoxamine maleate sustained-release pellet system tablets meet the requirements of preparation design and has a great commercial prospect.
RÉSUMÉ
Objective:To establish a standardized information management system (IMS) for preserving, managing, querying, and performing statistics on biospecimens and their clinical data, which is conducive to improving the utilization of biobank.Methods:Under the premise of ensuring operating environment and data security, a database-based data logic relationship model is created and applied to the IMS to manage and analyze biospecimens and their supporting clinical information of patients enrolled in the biobank of our center.Results:To ensure the establishment of the follow-up cohort, biospecimens and clinical information of inpatients and outpatients were continuously collected in the biobank of our center. Since December 2014, more than 270 000 biospecimens from inpatient, outpatient, and scientific research have been preserved. The IMS optimized by this model efficiently completes the basic work of the biobank. At the same time, the data can be queried jointly and in batches, and then converted into a report format for statistical analysis.Conclusions:The IMS of our center is suitable for application and popularization as a construction and management model for the hospital-level biobank, which meets the daily work of the biobank and diverse research needs, and provides a convenient platform and rich resources for the development of precision medicine.