Maria Jäger scite author profile

Maria Jäger

3Publications

85Citation Statements Received

108Citation Statements Given

How they've been cited

114

How they cite others

101

Affiliations

Max Bergmann Zentrum für Biomaterialien, TU Dresden, Institute for Biomedical Engineering

Publications

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Effect of Silica and Hydroxyapatite Mineralization on the Mechanical Properties and the Biocompatibility of Nanocomposite Collagen Scaffolds

Heinemann

Jäger

et al. 2011

ACS Appl. Mater. Interfaces

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A recently established materials concept of biomimetic composites based on silica, collagen, and calcium phosphates was adapted for the preparation of porous scaffolds suitable for tissue engineering applications. Mineralization was achieved by directed nucleation of silica on the templating organic phase during a sol-gel process with or without addition of hydroxyapatite. Both mineral phases (25 wt %, individually or combined in equal shares) influenced the scaffold's morphology at the nanoscale. Enhancement of apparent density and compressive strength was similar for silica or hydroxyapatite mineralization; however the stiffening effect of hydroxyapatite was much higher. All scaffold modifications provided proper conditions for adhesion, proliferation, and osteogenic differentiation of human bone marrow stromal cells. The open porosity allowed cells to migrate throughout the scaffolds while maintaining their viability, both confirmed by MTT staining and confocal laser scanning microscopy. Initial cell distributions were graduated due to collagen mineralization, but balanced out over the cultivation time of 28 days. RT-PCR analyses revealed higher gene expression of ALP but lower expression of BSP II and osteocalcin because of collagen mineralization. The results demonstrate that both silica and hydroxyapatite offer comparable possibilities to tailor mechanical properties of collagen-based scaffolds without being detrimental to in vitro biocompatibility.

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Net Shape Nonwoven: a novel technique for porous three-dimensional nonwoven hybrid scaffolds

Hild

Brünler

Jäger

et al. 2014

Textile Research Journal

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Textile structures made of biocompatible, osteoconductive and resorbable chitosan-filaments provide excellent preconditions as scaffolds for Bone Tissue Engineering applications. The novel Net Shape Nonwoven (NSN) technique that enables short fibers to be processed into three-dimensional net-shaped nonwoven structures with adjustable pore size distributions is described. NSN scaffolds made of pure chitosan fibers were fabricated. NSN hybrid scaffolds for improved initial cell adhesion were realized by combining the NSN technique with electrospinning and dip-coating with collagen, respectively. Scanning electron microscopy and liquid displacement porosimetry revealed an interconnecting open porous scaffold structure. The novel chitosan-hybrid scaffolds provide proper conditions for adhesion, proliferation and differentiation of the seeded human bone marrow stromal cells, proving that they are suitable for usage in hard-tissue regeneration.

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Surface Modification of Polymers by using Excimer Laser for Biomedical Applications

Jäger

Sonntag

Pietzsch

et al. 2007

Plasma Process. Polym.

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The current development in medical engineering induces new demands on materials. Polymers with specific surface treatment are used in new fields of application. A combination of convenient sensor technologies opens new investigation opportunities in cell culture technology. The focus of this work is to determine a set of suitable parameters for the surface modification of polymers by excimer laser irradiation and the effect on cellular growth. Polystyrene slides were pretreated in a developed functionalizing chamber by means of excimer laser irradiation in different reactive gas atmospheres. The results show that directed cell growth and adhesion can be influenced with the presented methods.

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Maria Jäger

Effect of Silica and Hydroxyapatite Mineralization on the Mechanical Properties and the Biocompatibility of Nanocomposite Collagen Scaffolds

Net Shape Nonwoven: a novel technique for porous three-dimensional nonwoven hybrid scaffolds

Surface Modification of Polymers by using Excimer Laser for Biomedical Applications

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