Gelelectrophoresis - DNA from 8 different donors, as DNA marker a 100bp DNA ladder was used.

<p>Gelelectrophoresis - DNA from 8 different donors, as DNA marker a 100bp DNA ladder was used.</p

Biomechanical results of the two available sizes <i>thin</i> and <i>thick</i> of the ADM; Values are presented as mean (SD), <i>P</i>- Value evaluate significances between the differences of properties of the different sizes.

<p>Biomechanical results of the two available sizes <i>thin</i> and <i>thick</i> of the ADM; Values are presented as mean (SD), <i>P</i>- Value evaluate significances between the differences of properties of the different sizes.</p

DNA content from 8 different donors.

<p>DNA content from 8 different donors.</p

Confocal microscopy overlays of autofluorescence scans (green) and the respective positive cell surface and intracellular antibody (red) staining, 20 µm cryocuts, scale bars equal (A,B,C) 50 µm, (D) 150 µm.

<p>(<b>A</b>) Anti. α-Catenin (<b>B</b>) Anti- Cytokeratin (<b>C</b>) Anti- vWF (<b>D</b>) Anti- VEGFR1</p

Confocal microscopy: (A-D) Confocal microscopy autofluorescence images of 20 µm ADM cryocuts, scale bars equal (A,C) 75 µm, (B,D) 50 µm; (D) the white arrow indicates a putative vessel channel; (E,F) autofluorescence images of 10 µm cryocuts of native human skin, scale bars equal (E,F) 75 µm.

<p>Confocal microscopy: (A-D) Confocal microscopy autofluorescence images of 20 µm ADM cryocuts, scale bars equal (A,C) 75 µm, (B,D) 50 µm; (D) the white arrow indicates a putative vessel channel; (E,F) autofluorescence images of 10 µm cryocuts of native human skin, scale bars equal (E,F) 75 µm.</p

Confocal microscopy overlays of autofluorescence scans (green) and the respective anti- matrix antibody staining (blue); comparison of 20 µm cryocuts of ADM (A,C,E,G,I,K) and 10 µm cryocuts of native human skin (B,D,F,H,J,L); scale bars equal 150 µm.

<p>(<b>A,B</b>) anti- collagen I (<b>C,D</b>) anti- collagen III (<b>E,F</b>) anti- collagen IV (<b>G,H</b>) anti- laminin 1 (<b>I,J</b>) anti- fibronectin (<b>K,L</b>) anti- hyaluronic acid.</p

Influence of radiation on cell proliferation.

<p>Comparison between (<b>A</b>) porous group 1 (+por-rad) and group 3 (+por+rad) and (<b>B</b>) non-porous group 2 (-por-rad) and group 4 (-por+rad) respectively with and without radiation. All values are expressed as mean values ± standard deviation.</p

Influence of pores on cell proliferation.

<p>Comparison between (<b>A</b>) unirradiated group 1 (+por-rad) and group 2 (-por-rad) and (<b>B</b>) irradiated group 3 (+por+rad) and group 4 (-por+rad) respectively with and without pores. All values are expressed as mean values ± standard deviation.</p

Bar graphs depicting the breaking strain in of the mesh materials.

<p>Bar graphs depicting the breaking strain in of the mesh materials.</p

Bar graphs depicting the stiffness of the mesh materials in longitudinal and trans-versal extension.

<p>Bar graphs depicting the stiffness of the mesh materials in longitudinal and trans-versal extension.</p