Breast cancer often results in the removal of the breast, creating a need for replacement tissue. Tissue engineering offers the promise of generating such replacements by combining cells with biomaterial scaffolds and serves as an attractive potential alternative to current surgical repair methods. Such engineered tissues can also serve as important tools for drug screening and provide in vitro models for analysis. 3D bioprinting serves as an exciting technology with significant implications and applications in the field of tissue engineering. Here we review the work that has been undertaken in hopes of generating the recognized in-demand replacement breast tissue using different types of bioprinting. We then offer suggestions for future work needed to advance this field for both in vitro and in vivo applications.
Autologous split thickness skin graft is necessary for the survival of patients with large burns and skin defects. It is not clear how a thin split thickness skin graft becomes remarkably thicker within a few weeks following transplantation. Here, we hypothesized that growth of split thickness graft should be from bottom up probably through conversion of immune cells into collagen producing skin cells. We tested this hypothesis in a preclinical porcine model by grafting split thickness meshed skin (0.508 mm thickness, meshed at 3:1 ratio) on full thickness wounds in pigs. New tissue formation was evaluated on days 10 and 20 postoperation through histological analysis and co-staining for immune cell markers (CD45) and type I collagen. The findings revealed that a split thickness graft grew from bottom up and reached to almost the same level as uninjured skin within 60 days postoperation. The result of immune-staining identified a large number of cells, which co-expressed immune cell marker (CD45) and collagen on day 10 postoperation. Interestingly, as the number of these cells reduced on day 20, most of these cells became positive for collagen production. In another set of experiments, we tested whether immune cells can convert to collagen producing cells in vitro. The results showed that mouse adherent immune cells started to express type 1 procollagen and α-smooth muscle actin when cultured in the presence of fibroblast conditioned media. In conclusion, the early thickening of split thickness graft is likely happening through a major contribution of infiltrated immune cells that convert into mainly collagen producing fibroblasts in large skin injuries.
Background: Medical students are traditionally introduced to suturing in a simulated environment using animal products or synthetic materials. However, there is little evidence to support this pedagogy. Our study explored whether a modern suturing curriculum adequately prepares medical students and examined student preference for learning suturing skills.
Methods: Suturing performance was recorded and assessed by expert raters. Students also completed a survey that inquired about self-perceived knowledge and confidence in suturing, and preferred pedagogical methods.
Results: The majority (79%) of students that completed our suturing curriculum demonstrated competence in basic suturing techniques. There was no correlation between objective abilities and self-perceived knowledge or confidence. Students reported being significantly more confident suturing anesthetized patients and in simulated environments. Students reported a desire for earlier introduction to suturing and more frequent simulation training.
Conclusion: A modern medical school suturing curriculum, comprising online modules and in-person simulation-based learning, adequately develops basic suturing techniques.
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