Refine
Year of publication
Institute
Has Fulltext
- no (102) (remove)
Document Type
- Article (85)
- Report (5)
- Part of a Book (4)
- Book (3)
- Conference Proceeding (2)
- Doctoral Thesis (1)
- Habilitation (1)
- Patent (1)
Keywords
- CellDrum (3)
- Bladder (1)
- Cardiac myocytes (1)
- Cell permeability (1)
- Cellular force (1)
- Circular Dichroism (1)
- Contractile tension (1)
- Endothelial cells (1)
- Growth modelling (1)
- Heart tissue culture (1)
Biocompatibility, flexibility and durability make polydimethylsiloxane (PDMS) membranes top candidates in biomedical applications. CellDrum technology uses large area, <10 µm thin membranes as mechanical stress sensors of thin cell layers. For this to be successful, the properties (thickness, temperature, dust, wrinkles, etc.) must be precisely controlled. The following parameters of membrane fabrication by means of the Floating-on-Water (FoW) method were investigated: (1) PDMS volume, (2) ambient temperature, (3) membrane deflection and (4) membrane mechanical compliance. Significant differences were found between all PDMS volumes and thicknesses tested (p < 0.01). They also differed from the calculated values. At room temperatures between 22 and 26 °C, significant differences in average thickness values were found, as well as a continuous decrease in thicknesses within a 4 °C temperature elevation. No correlation was found between the membrane thickness groups (between 3–4 µm) in terms of deflection and compliance. We successfully present a fabrication method for thin bio-functionalized membranes in conjunction with a four-step quality management system. The results highlight the importance of tight regulation of production parameters through quality control. The use of membranes described here could also become the basis for material testing on thin, viscous layers such as polymers, dyes and adhesives, which goes far beyond biological applications.
Changes in intestinal microflora in rats induced by oral exposure to low lead (II) concentrations
(2015)
On the model of musculocutaneous wound in rats, the effect of applicative sorption by carbonized rise shell (CRS) on the healing of festering wound was studied. It has been shown, that cytological changes end with rapid scar formation. The use of CRS at the period of severe purulent wound contributes to its favorable course, prevents the development of complications of the animals from sepsis.