Limitations associated with the study of cancer biology in vitro, including a lack of extracellular matrix, have prompted an interest in analysing the behaviour of tumour cells in a three-dimensional environment. Such model systems can be used to better understand malignancy and metastasis and a cancer's response to therapies. We review the materials that have been used in such models to date, including their fabrication techniques and the results from their study in cancer. Despite the variety of materials available, obstacles remain to perfecting an in vitro model system and we outline some of the challenges yet to be overcome. © 2014 Springer Science+Business Media New York
Tissue engineering aims to gain mechanistic insights into human diseases and to develop new treatmen...
Cancer is an evolving, dynamic, evasive and heterogeneous disease, characterized by high morbidity a...
During the last decade, the type of biological assays that are used for extracting information about...
Limitations associated with the study of cancer biology in vitro, including a lack of extracellular ...
Although advances have been made in cancer therapy, cancer remains the second leading cause of death...
The lack of traditional cancer treatments has resulted in an increased need for new clinical techniq...
Cancer occurs when cells acquire genomic instability and inflammation, produce abnormal levels of ep...
Cancer is an unmet global challenge causing a high socioeconomic impact, worldwide. Every year, an i...
Three-dimensional (3D) cell cultures have recently garnered great attention because they promote lev...
Contains fulltext : 139277.pdf (publisher's version ) (Closed access)Cancers are c...
Cancers are complex and heterogeneous pathological “organs” in a dynamic interplay with their host. ...
Tissue engineering has produced innovative tools for cancer research. 3D cancer models based on mole...
Background. Human cancer is a three-dimensional (3D) structure consisting of neighboring cells, extr...
Background. Human cancer is a three-dimensional (3D) structure consisting of neighboring cells, extr...
The in vitro evaluation of chemotherapeutic delivery systems is essential as a prediction of in vivo...
Tissue engineering aims to gain mechanistic insights into human diseases and to develop new treatmen...
Cancer is an evolving, dynamic, evasive and heterogeneous disease, characterized by high morbidity a...
During the last decade, the type of biological assays that are used for extracting information about...
Limitations associated with the study of cancer biology in vitro, including a lack of extracellular ...
Although advances have been made in cancer therapy, cancer remains the second leading cause of death...
The lack of traditional cancer treatments has resulted in an increased need for new clinical techniq...
Cancer occurs when cells acquire genomic instability and inflammation, produce abnormal levels of ep...
Cancer is an unmet global challenge causing a high socioeconomic impact, worldwide. Every year, an i...
Three-dimensional (3D) cell cultures have recently garnered great attention because they promote lev...
Contains fulltext : 139277.pdf (publisher's version ) (Closed access)Cancers are c...
Cancers are complex and heterogeneous pathological “organs” in a dynamic interplay with their host. ...
Tissue engineering has produced innovative tools for cancer research. 3D cancer models based on mole...
Background. Human cancer is a three-dimensional (3D) structure consisting of neighboring cells, extr...
Background. Human cancer is a three-dimensional (3D) structure consisting of neighboring cells, extr...
The in vitro evaluation of chemotherapeutic delivery systems is essential as a prediction of in vivo...
Tissue engineering aims to gain mechanistic insights into human diseases and to develop new treatmen...
Cancer is an evolving, dynamic, evasive and heterogeneous disease, characterized by high morbidity a...
During the last decade, the type of biological assays that are used for extracting information about...