The design of a system to model the complex structure of human lung was developed through fabrication of 3D printed collagen type I hydrogel. This model can be applied for the investigation and identification of therapeutic strategies for lung cancer.https://youtu.be/Y_1w9QoyEm
The in vitro evaluation of chemotherapeutic delivery systems is essential as a prediction of in vivo...
With the outbreak of new respiratory viruses and high mortality rates of pulmonary diseases, physiol...
The comparison between the animal and human body in preclinical research is still hampered. Despite...
The design of a system to model the complex structure of human lung was developed through fabricatio...
In vitro models for investigating mechanisms underlying repair and regeneration in lung disease have...
This unit describes a protocol for generation of lung organoids. A lung organoid is a 3D cell/hydrog...
Cell models have been widely accepted to explore the mechanisms of tumorigenesis and predict drug re...
Recent advances in materials science coupled with advanced manufacturing techniques have opened up n...
Lung cancer, also known as lung carcinoma, is a malignant lung tumor characterized by uncontrolled c...
There have been needs for in vitro lung models to rapidly develop new drug or to analyze the associa...
In this chapter we introduce biomaterials science to a nonexpert reader in order to provide new pers...
April KloxinIdiopathic pulmonary fibrosis (IPF) presents a challenge even in this age of advanced me...
Recent advances in immunotherapies and molecularly targeted therapies have led to an increased inter...
Respiratory tract specific cell populations, or tissue engineered in vitro grown human lung, have th...
In vitro cancer 3D models are valuable tools to provide mechanistic insight into solid tumor growth,...
The in vitro evaluation of chemotherapeutic delivery systems is essential as a prediction of in vivo...
With the outbreak of new respiratory viruses and high mortality rates of pulmonary diseases, physiol...
The comparison between the animal and human body in preclinical research is still hampered. Despite...
The design of a system to model the complex structure of human lung was developed through fabricatio...
In vitro models for investigating mechanisms underlying repair and regeneration in lung disease have...
This unit describes a protocol for generation of lung organoids. A lung organoid is a 3D cell/hydrog...
Cell models have been widely accepted to explore the mechanisms of tumorigenesis and predict drug re...
Recent advances in materials science coupled with advanced manufacturing techniques have opened up n...
Lung cancer, also known as lung carcinoma, is a malignant lung tumor characterized by uncontrolled c...
There have been needs for in vitro lung models to rapidly develop new drug or to analyze the associa...
In this chapter we introduce biomaterials science to a nonexpert reader in order to provide new pers...
April KloxinIdiopathic pulmonary fibrosis (IPF) presents a challenge even in this age of advanced me...
Recent advances in immunotherapies and molecularly targeted therapies have led to an increased inter...
Respiratory tract specific cell populations, or tissue engineered in vitro grown human lung, have th...
In vitro cancer 3D models are valuable tools to provide mechanistic insight into solid tumor growth,...
The in vitro evaluation of chemotherapeutic delivery systems is essential as a prediction of in vivo...
With the outbreak of new respiratory viruses and high mortality rates of pulmonary diseases, physiol...
The comparison between the animal and human body in preclinical research is still hampered. Despite...
DOI
Add to ORKG