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Re uniform Safranin O staining occurring in Epigenetics cellular 3month samples compared with 1-month samples (Figure 7). At both time points, cellular samples contained large areas of cartilage, several millimeters thick. Specimens appeared to contain a distinct layer between the newly formed cartilage and the surrounding fibrous capsule. This layer resembled a perichondrium, with cells that were more rounded than fibroblasts surrounded by matrix with minimal proteoglycan content. Deep within the cellular constructs, both 1- and 3-month samples had large regions of mature cartilage containing large rounded auricular chondrocytes.At 1 month, samples contained focal areas with high elastin content as indicated by Verhoeff’s stain. By 3 months, staining for elastin was more widespread and intense, with evidence of a large network of elastin fibers within the tissue. Lastly, neither cellular nor acellular constructs appeared to elicit an inflammatory host response after 1 or 3 months, as indicated by the absence of polymorphonuclear cells or macrophages within or surrounding the constructs.Biomechanical analysesTissue-engineered auricular cartilage showed progressive improvement in mechanical properties with increasing time in vivo (Figure 8). After 1 month, the equilibrium modulus was 3-fold higher (p,0.05) than prior to implantation and after 3 months was more than 30-fold higher (p,0.05) than pre-implantation. Likewise, hydraulic permeability was 5-fold lower (p,0.001) after 1 month and 70-fold lower at 3 months (p,0.001) compared with pre-implantation. The equilibrium modulus and hydraulic permeability of implants at 3 months were not statistically different from those of native bovine auricular cartilage.Figure 6. Safranin O staining of specimens harvested after 1 month. Acellular constructs (A) and cellular constructs (C) demonstrated evidence of a thin capsule containing spindle-shaped, fibroblast-appearing cells (star). Although the acellular constructs were invaded by mononuclear cells, there was no evidence of cartilage deposition (B). Cellular constructs demonstrated marked cartilage deposition by Epigenetics lacunar chondrocytes (arrows) throughout the construct (B, D). Scale bar = 100 mm. doi:10.1371/journal.pone.0056506.gTissue Engineering of Patient-Specific AuriclesFigure 7. Histologic comparison of 1-month and 3-month samples by Safranin O and Verhoeff stains. Low magnification comparison between 1-month (A) and 3-month (B) Safranin O-stained sections (A ) demonstrates more intense and uniform staining after 3 months (scale bar = 1 mm). Inspection of the edge of 1-month (C) and 3month (D) samples shows a transition from the fibrous capsule (FC) to a perichondrial layer (PC) to cartilage (scale bar = 100 mm). High magnification comparison at 1-month (E) and 3-month (F) shows mature cartilage formation at both times (scale bar = 50 mm). Verhoeff’s stain reveals the presence of elastin at both 1-month (G) and 3-months (H), with a more continuous network of elastin fibers after 3 months (scale bar = 50 mm). doi:10.1371/journal.pone.0056506.gFigure 8. Equilibrium modulus and hydraulic permeability of tissue-engineered and native bovine auricular cartilage. Tissueengineered auricular cartilage showed progressive improvement in mechanical properties with increasing time in vivo. The equilibrium modulus (A) and hydraulic permeability (B) of implants at 3 23115181 months were not statistically different from those of native bovine auricular cartilage. Data are dis.Re uniform Safranin O staining occurring in cellular 3month samples compared with 1-month samples (Figure 7). At both time points, cellular samples contained large areas of cartilage, several millimeters thick. Specimens appeared to contain a distinct layer between the newly formed cartilage and the surrounding fibrous capsule. This layer resembled a perichondrium, with cells that were more rounded than fibroblasts surrounded by matrix with minimal proteoglycan content. Deep within the cellular constructs, both 1- and 3-month samples had large regions of mature cartilage containing large rounded auricular chondrocytes.At 1 month, samples contained focal areas with high elastin content as indicated by Verhoeff’s stain. By 3 months, staining for elastin was more widespread and intense, with evidence of a large network of elastin fibers within the tissue. Lastly, neither cellular nor acellular constructs appeared to elicit an inflammatory host response after 1 or 3 months, as indicated by the absence of polymorphonuclear cells or macrophages within or surrounding the constructs.Biomechanical analysesTissue-engineered auricular cartilage showed progressive improvement in mechanical properties with increasing time in vivo (Figure 8). After 1 month, the equilibrium modulus was 3-fold higher (p,0.05) than prior to implantation and after 3 months was more than 30-fold higher (p,0.05) than pre-implantation. Likewise, hydraulic permeability was 5-fold lower (p,0.001) after 1 month and 70-fold lower at 3 months (p,0.001) compared with pre-implantation. The equilibrium modulus and hydraulic permeability of implants at 3 months were not statistically different from those of native bovine auricular cartilage.Figure 6. Safranin O staining of specimens harvested after 1 month. Acellular constructs (A) and cellular constructs (C) demonstrated evidence of a thin capsule containing spindle-shaped, fibroblast-appearing cells (star). Although the acellular constructs were invaded by mononuclear cells, there was no evidence of cartilage deposition (B). Cellular constructs demonstrated marked cartilage deposition by lacunar chondrocytes (arrows) throughout the construct (B, D). Scale bar = 100 mm. doi:10.1371/journal.pone.0056506.gTissue Engineering of Patient-Specific AuriclesFigure 7. Histologic comparison of 1-month and 3-month samples by Safranin O and Verhoeff stains. Low magnification comparison between 1-month (A) and 3-month (B) Safranin O-stained sections (A ) demonstrates more intense and uniform staining after 3 months (scale bar = 1 mm). Inspection of the edge of 1-month (C) and 3month (D) samples shows a transition from the fibrous capsule (FC) to a perichondrial layer (PC) to cartilage (scale bar = 100 mm). High magnification comparison at 1-month (E) and 3-month (F) shows mature cartilage formation at both times (scale bar = 50 mm). Verhoeff’s stain reveals the presence of elastin at both 1-month (G) and 3-months (H), with a more continuous network of elastin fibers after 3 months (scale bar = 50 mm). doi:10.1371/journal.pone.0056506.gFigure 8. Equilibrium modulus and hydraulic permeability of tissue-engineered and native bovine auricular cartilage. Tissueengineered auricular cartilage showed progressive improvement in mechanical properties with increasing time in vivo. The equilibrium modulus (A) and hydraulic permeability (B) of implants at 3 23115181 months were not statistically different from those of native bovine auricular cartilage. Data are dis.

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Author: Proteasome inhibitor