TY - JOUR
T1 - Advances in cell-based biosensors using three-dimensional cell-encapsulating hydrogels
AU - Zhou, Lihong
AU - Huang, Guoyou
AU - Wang, Shuqi
AU - Wu, Jinhui
AU - Lee, Won Gu
AU - Chen, Yongmei
AU - Xu, Feng
AU - Lu, Tianjian
PY - 2011/12
Y1 - 2011/12
N2 - Cell-based biosensors (CBBs) have emerged as promising biotechnical tools whereby various cell types can be used as basic sensing units to detect external stimuli. Specifically, CBBs have been applied in environmental monitoring, drug screening, clinical diagnosis and biosecurity. For these applications, CBBs offer several advantages over conventional molecular-based biosensors or living animal-based approaches, such as the capability to better mimic physiological situations, to enhance detection specificity and sensitivity, and to detect unknown compounds and toxins. On the other hand, existing CBBs suffer from several limitations, such as weak cell-substrate attachment, two-dimensional (2D) cell microenvironment, and limited shelf life. An emerging method for scaffold-free three-dimensional (3D) cell culture uses hydrogels to encapsulate cells. Advances in novel biomaterials and nano/microscale technologies have enabled encapsulation of cells in hydrogels to fabricate 3D CBBs, which hold great potential for addressing the limitation in existing 2D CBBs. Here, we present an overview of the emerging hydrogel-based CBBs, their applications in pathogen/toxin detection, drug screening and screening of cell-biomaterials interaction, and the associated challenges and potential solutions.
AB - Cell-based biosensors (CBBs) have emerged as promising biotechnical tools whereby various cell types can be used as basic sensing units to detect external stimuli. Specifically, CBBs have been applied in environmental monitoring, drug screening, clinical diagnosis and biosecurity. For these applications, CBBs offer several advantages over conventional molecular-based biosensors or living animal-based approaches, such as the capability to better mimic physiological situations, to enhance detection specificity and sensitivity, and to detect unknown compounds and toxins. On the other hand, existing CBBs suffer from several limitations, such as weak cell-substrate attachment, two-dimensional (2D) cell microenvironment, and limited shelf life. An emerging method for scaffold-free three-dimensional (3D) cell culture uses hydrogels to encapsulate cells. Advances in novel biomaterials and nano/microscale technologies have enabled encapsulation of cells in hydrogels to fabricate 3D CBBs, which hold great potential for addressing the limitation in existing 2D CBBs. Here, we present an overview of the emerging hydrogel-based CBBs, their applications in pathogen/toxin detection, drug screening and screening of cell-biomaterials interaction, and the associated challenges and potential solutions.
KW - Cell encapsulation
KW - Cell-based biosensors
KW - Hydrogels
KW - Nanobiotechnology
KW - Scaffold-free systems
UR - http://www.scopus.com/inward/record.url?scp=83455225277&partnerID=8YFLogxK
U2 - 10.1002/biot.201100098
DO - 10.1002/biot.201100098
M3 - Review article
C2 - 22162496
AN - SCOPUS:83455225277
SN - 1860-6768
VL - 6
SP - 1466
EP - 1476
JO - Biotechnology Journal
JF - Biotechnology Journal
IS - 12
ER -