Add to ORKGIntensive efforts in recent years to develop and commercialize in vitro alternatives in the field of risk assessment have yielded new promising two- and three dimensional (3D) cell culture models. Nevertheless, a realistic 3D in vitro alveolar model is not available yet. Here we report on the biofabrication of the human air-blood tissue barrier analogue composed of an endothelial cell, basement membrane and epithelial cell layer by using a bioprinting technology. In contrary to the manual method, we demonstrate that this technique enables automatized and reproducible creation of thinner and more homogeneous cell layers, which is required for an optimal air-blood tissue barrier. This bioprinting platform will offer an excellent tool to engin...
Bioprinting is a new technology, which arranges cells with high spatial resolution, but its potentia...
3D bioprinting is the additive manufacture of biological materials, such as cells, and has been impl...
Through an inkjet bio-printing, we have previously developed a novel 3D-structured lung model. Despi...
Intensive efforts in recent years to develop and commercialize in vitro alternatives in the field of...
An alveolar barrier in the gas exchanging region of the lung consists of epithelium, basement membra...
An alveolar barrier in the gas exchanging region of the lung consists of epithelium, basement membra...
An in vitro alveolar-capillary barrier is one of the essential model systems for pulmonary drug and ...
With the outbreak of new respiratory viruses and high mortality rates of lung diseases, physiologica...
MasterOrgan-on-a-chip is an emerging technology that can biomimic the dynamic microenvironment and k...
With the outbreak of new respiratory viruses and high mortality rates of pulmonary diseases, physiol...
A dependence on the use of animal models and reductionistic in vitro models of the respiratory epith...
Organ-on-a-chip is an emerging technology that can biomimic the dynamic microenvironment and key fun...
DoctorOrgan-on-chip technologies has a great potential of predicting the pharmaceutical effectivenes...
An alveolar barrier that exists in the gas exchanging area of the lung consists of epithelium, basem...
We used 3D cell printing to emulate an airway coupled with a naturally-derived blood vessel network ...
Bioprinting is a new technology, which arranges cells with high spatial resolution, but its potentia...
3D bioprinting is the additive manufacture of biological materials, such as cells, and has been impl...
Through an inkjet bio-printing, we have previously developed a novel 3D-structured lung model. Despi...
Intensive efforts in recent years to develop and commercialize in vitro alternatives in the field of...
An alveolar barrier in the gas exchanging region of the lung consists of epithelium, basement membra...
An alveolar barrier in the gas exchanging region of the lung consists of epithelium, basement membra...
An in vitro alveolar-capillary barrier is one of the essential model systems for pulmonary drug and ...
With the outbreak of new respiratory viruses and high mortality rates of lung diseases, physiologica...
MasterOrgan-on-a-chip is an emerging technology that can biomimic the dynamic microenvironment and k...
With the outbreak of new respiratory viruses and high mortality rates of pulmonary diseases, physiol...
A dependence on the use of animal models and reductionistic in vitro models of the respiratory epith...
Organ-on-a-chip is an emerging technology that can biomimic the dynamic microenvironment and key fun...
DoctorOrgan-on-chip technologies has a great potential of predicting the pharmaceutical effectivenes...
An alveolar barrier that exists in the gas exchanging area of the lung consists of epithelium, basem...
We used 3D cell printing to emulate an airway coupled with a naturally-derived blood vessel network ...
Bioprinting is a new technology, which arranges cells with high spatial resolution, but its potentia...
3D bioprinting is the additive manufacture of biological materials, such as cells, and has been impl...
Through an inkjet bio-printing, we have previously developed a novel 3D-structured lung model. Despi...