Chitosan-thioglycolic acid conjugate: a new scaffold material for tissue engineering?

It was the aim of this study to evaluate chitosan-thioglycolic acid (chitosan-TGA) conjugate as scaffold material in tissue engineering. Chitosan was modified by the introduction of thiol groups. Briefly, TGA was introduced to chitosan via amide bond formation mediated by a carbodiimide. The properties of the resulting polymer were thereby altered in regard to water solubility, mucoadhesion, biodegradability and in situ gelling compared to the original polymer. Due to the immobilised thiol groups (240+/-30 micromol thiol groups per gram polymer), the viscosity of a 1.5% chitosan-TGA solution was improved 4.3-fold. This can be explained by the formation of disulphide bonds within this polymeric network. The conjugate was tested as scaffold material in form of a gel and sheets. Furthermore, the influence of the thiol groups on the viability of L-929 mouse fibroblasts was evaluated. It was shown that the L-929 mouse fibroblasts grew on both scaffolds despite the thiol groups, although the different surface conditions seemed to have an influence on the growing rate. Chitosan-TGA sheets seemed to be the more preferred layer. The improved in situ gelling may be important for ongoing developments. Direct injectable matrices at the site of tissue damage mimicking the tissue being restored may be a future trend on this topic. Hence, chitosan-TGA is a promising candidate as scaffold material in tissue engineering.

[Good cell culture practice--implementation of a relational cell culture database]. / Good Cell Culture Practice - Entwicklung einer relationalen Datenbank für die Zellkultur.

The claim for cell culture to provide validable in vitro models for biomedical research postulates evasion of possible fatal record keeping errors. A prototype of a relational computer database for IBM-compatible personal computers using Microsoft(r) Windows 95/98/2000 and NT for administration of cell culture data has been developed using Microsoft(r) Access 98 (Microsoft Corporation, Redmond, USA), -Access Basic, -Visual Basic and Structured Query Language (SQL) (IBM Corporation, Armonk, USA), and was tested successfully. The modular software application manages the many aspects of cell culture laboratory record keeping like detailed information on tissue donor, primary cell isolation/cell line origin, immunohistochemical/molecular biological characterisation, cell countings at passaging/subcultivation/cell aliquotation and cryopreservation. One main feature is a collection of all methods performed at our cell culture laboratory, where linked tables and files store specific informations. Entries into the database are checked via validation rules for correctness to avoid mistakes. The developed prototype has been demonstrated to be an adaptable, reliable tool for improving quality of information storage according to Good Scientific Practice (GSP), Good Cell Culture Practice (GCCP) and general ISO certification trends.