D. Rickert
University of Ulm
23 Papers
324 Citations
D. Rickert is an academic researcher from University of Ulm. The author has contributed to research in topics: Biomaterial & Tissue engineering. The author has an hindex of 11, co-authored 21 publications.
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Papers
In vitro cytotoxicity testing of AB-polymer networks based on oligo(epsilon-caprolactone) segments after different sterilization techniques.
D. Rickert,Andreas Lendlein,Annette M. Schmidt,S. Kelch,W. Roehlke,R. Fuhrmann,Ralf-Peter Franke +6 more
TL;DR: The influence of EO and LTP sterilization on the cytotoxicity of a versatile polymer system of shape-memory polymer networks based on oligo (epsilon-caprolactone) dimethacrylate and n-butyl acrylate was investigated.
74
•Journal Article
The importance of angiogenesis in the interaction between polymeric biomaterials and surrounding tissue.
TL;DR: Considering the biofunctionality of the recently developed polymer in these experiments different surface modifications of the polymer are the topic of current investigation to support the biomaterial-microvasculature interactions in vivo.
68
•Journal Article
The effect of radiographic contrast media on the morphology of human erythrocytes
TL;DR: It is shown that the Iodixanol/plasma mixture showed the most similar discocyte fraction compared to red blood cells in the autologous plasma, while the other RCMs only differed little from one another with respect to the discocytes fraction.
34
•Journal Article
Expression of MMPs and TIMPs in primary epithelial cell cultures of the upper aerodigestive tract seeded on the surface of a novel polymeric biomaterial.
TL;DR: An appropriate understanding of the molecular machinery that regulates gene expression and cellular growth in tissue engineered constructs is the requirement for an optimal adaptation of biodegradable biomaterials to develop new therapeutic options in otolaryngology and head and neck surgery.
24
•Journal Article
Biomaterial-microvasculature interaction on polymers after implantation in mice.
TL;DR: A new biomaterial, a non-porous polymeric AB-network based on oligo (epsilon-hydroxycaproat and oligobutylacrylat), which was implanted in animals showed a strong tissue-integration of the polymer and blood vessels appeared at the polymer surface.
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