Andreas Dobmann scite author profile

Andreas Dobmann

5Publications

12Citation Statements Received

47Citation Statements Given

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In vitroinvestigations of a novel wound dressing concept based on biodegradable polyurethane

Rottmar

Richter

Mäder

et al. 2015

Science and Technology of Advanced Materials

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Non-healing and partially healing wounds are an important problem not only for the patient but also for the public health care system. Current treatment solutions are far from optimal regarding the chosen material properties as well as price and source. Biodegradable polyurethane (PUR) scaffolds have shown great promise for in vivo tissue engineering approaches, but accomplishment of the goal of scaffold degradation and new tissue formation developing in parallel has not been observed so far in skin wound repair. In this study, the mechanical properties and degradation behavior as well as the biocompatibility of a low-cost synthetic, pathogen-free, biocompatible and biodegradable extracellular matrix mimicking a PUR scaffold was evaluated in vitro. The novel PUR scaffolds were found to meet all the requirements for optimal scaffolds and wound dressings. These three-dimensional scaffolds are soft, highly porous, and form-stable and can be easily cut into any shape desired. All the material formulations investigated were found to be nontoxic. One formulation was able to be defined that supported both good fibroblast cell attachment and cell proliferation to colonize the scaffold. Tunable biodegradation velocity of the materials could be observed, and the results additionally indicated that calcium plays a crucial role in PUR degradation. Our results suggest that the PUR materials evaluated in this study are promising candidates for next-generation wound treatment systems and support the concept of using foam scaffolds for improved in vivo tissue engineering and regeneration.

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Adhesives: Polymer Chemistry at Work

Arz¹,

Dobmann²,

Meincke³

et al. 2008

Chimia

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Successful adhesive technology relies on the diligent engineering of adhesive and cohesive forces. Polymers thereby play the dominant role as they largely determine the chemical and physical properties of the adhesive joint. A wide range of polymer systems is available, each having special properties in its own right. The art of adhesive formulation lies in the right choice of the appropriate polymer and its modification to suit the purpose. This article provides several examples of adhesive applications in demanding industry segments.

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On-the-spot adhesives

Brandmair¹,

Dobmann²,

Meyer³

et al. 2012

Adhes Adhes Sealants

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UV-vernetzende Haftschmelzklebstoffe für hohe Ansprüche im Automobilbau

Dobmann¹

2005

Adhaes Kleb Dicht

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Ultraschnelle Montagetechnik

Brandmair¹,

Dobmann²,

Meyer³

et al. 2011

Adhaes Kleb Dicht

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Andreas Dobmann

In vitroinvestigations of a novel wound dressing concept based on biodegradable polyurethane

Adhesives: Polymer Chemistry at Work

On-the-spot adhesives

UV-vernetzende Haftschmelzklebstoffe für hohe Ansprüche im Automobilbau

Ultraschnelle Montagetechnik

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