Add to ORKGTissue engineering plays an important role in the production of skin equivalents for the therapy of chronic and especially burn wounds. Actually, there exists no (cellularized) skin equivalent which might be able to satisfactorily mimic native skin. Here, we utilized a laser-assisted bioprinting (LaBP) technique to create a fully cellularized skin substitute. The unique feature of LaBP is the possibility to position different cell types in an exact three-dimensional (3D) spatial pattern. For the creation of the skin substitutes, we positioned fibroblasts and keratinocytes on top of a stabilizing matrix (MatridermH). These skin constructs were subsequently tested in vivo, employing the dorsal skin fold chamber in nude mice. The transplants w...
There is a clinical need for skin substitutes to replace full-thickness skin loss. Our group has dev...
International audienceClinical grade cultured epithelial autograft (CEA) are routinely used to treat...
There is a high demand for developing methods to produce more native-like 3D corneal structures. In ...
Tissue engineering plays an important role in the production of skin equivalents for the therapy of ...
Tissue engineering plays an important role in the production of skin equivalents for the therapy of ...
The goal of regenerative medicine is the synthesis of replacement tissue by positioning vital cells ...
Extensive availability of engineered autologous dermo-epidermal skin substitutes (DESS) with functio...
Recently, bioprinting technology has gained attentions as a viable option to overcome current limita...
Severe burns, ulcerations, and cuts are some of the reasons people need bioengineered skin as a trea...
Background. The best alternative to a split-thickness graft for the wound coverage of patients with ...
As time to final coverage is the essence for better survival outcome in severely burned patients, we...
There is a high incidence of failure and recurrence for chronic skin wounds following conventional t...
In recent years, there has been intensive research to develop skin substitutes to replace the curre...
<p>The pictures show a skin construct inserted into the wound directly after the implantation (left)...
Significance: Skin tissue damage is a major challenge and a burden on healthcare systems, from burns...
There is a clinical need for skin substitutes to replace full-thickness skin loss. Our group has dev...
International audienceClinical grade cultured epithelial autograft (CEA) are routinely used to treat...
There is a high demand for developing methods to produce more native-like 3D corneal structures. In ...
Tissue engineering plays an important role in the production of skin equivalents for the therapy of ...
Tissue engineering plays an important role in the production of skin equivalents for the therapy of ...
The goal of regenerative medicine is the synthesis of replacement tissue by positioning vital cells ...
Extensive availability of engineered autologous dermo-epidermal skin substitutes (DESS) with functio...
Recently, bioprinting technology has gained attentions as a viable option to overcome current limita...
Severe burns, ulcerations, and cuts are some of the reasons people need bioengineered skin as a trea...
Background. The best alternative to a split-thickness graft for the wound coverage of patients with ...
As time to final coverage is the essence for better survival outcome in severely burned patients, we...
There is a high incidence of failure and recurrence for chronic skin wounds following conventional t...
In recent years, there has been intensive research to develop skin substitutes to replace the curre...
<p>The pictures show a skin construct inserted into the wound directly after the implantation (left)...
Significance: Skin tissue damage is a major challenge and a burden on healthcare systems, from burns...
There is a clinical need for skin substitutes to replace full-thickness skin loss. Our group has dev...
International audienceClinical grade cultured epithelial autograft (CEA) are routinely used to treat...
There is a high demand for developing methods to produce more native-like 3D corneal structures. In ...