The mechanism of micro-environmentally restricted hybridoma cell growth caused by action of local mechanical compression stress generated within various polysaccharide hydrogel matrixes is estimated by comparing the growth of hybridoma cells within (1) 1.5% Ca-alginate microbeads from Bugarski et al. [in: Fundamentals of Animal Cells Immobilization and Microencapsulation, M. F. A. Goosen, ed., CRC Press, Boca Raton, FL, 1993, p. 267] and (2) 1.3% alginate-agarose microbeads from Shen et al. [Animal Cell Technology: Basic & Applied Aspects, H. Murakami ed., Kluwer Academic Publishers, The Netherlands, 1992, p. 173]. Consideration of restricted cell growth dynamics based on developed kinetic model and kinetic 3D Monte Carlo simulation include: (1) changes the fraction of active proliferating cells in the exponential phase and (2) changes of non-proliferating cell concentration in the plateau phase. Higher value of the specific decrease of active fraction of proliferating cells. is obtain...ed for 1.3% alginate-agarose compared to 1.5% alginate microbeads. It corresponds to higher compression stress generated within hydrogel matrix during cell growth obtained for 1.3% alginate-agarose microbeads.
TY - JOUR
AU - Pajić-Lijaković, Ivana
PY - 2013
UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/2394
AB - The mechanism of micro-environmentally restricted hybridoma cell growth caused by action of local mechanical compression stress generated within various polysaccharide hydrogel matrixes is estimated by comparing the growth of hybridoma cells within (1) 1.5% Ca-alginate microbeads from Bugarski et al. [in: Fundamentals of Animal Cells Immobilization and Microencapsulation, M. F. A. Goosen, ed., CRC Press, Boca Raton, FL, 1993, p. 267] and (2) 1.3% alginate-agarose microbeads from Shen et al. [Animal Cell Technology: Basic & Applied Aspects, H. Murakami ed., Kluwer Academic Publishers, The Netherlands, 1992, p. 173]. Consideration of restricted cell growth dynamics based on developed kinetic model and kinetic 3D Monte Carlo simulation include: (1) changes the fraction of active proliferating cells in the exponential phase and (2) changes of non-proliferating cell concentration in the plateau phase. Higher value of the specific decrease of active fraction of proliferating cells. is obtained for 1.3% alginate-agarose compared to 1.5% alginate microbeads. It corresponds to higher compression stress generated within hydrogel matrix during cell growth obtained for 1.3% alginate-agarose microbeads.
PB - IOS Press, Amsterdam
T2 - Bio-Medical Materials and Engineering
T1 - Micro-environmentally restricted hybridoma cell growth within polysaccharide hydrogel microbeads
EP - 371
IS - 5
SP - 361
VL - 23
DO - 10.3233/BME-130760
UR - conv_4205
ER -
@article{
author = "Pajić-Lijaković, Ivana",
year = "2013",
abstract = "The mechanism of micro-environmentally restricted hybridoma cell growth caused by action of local mechanical compression stress generated within various polysaccharide hydrogel matrixes is estimated by comparing the growth of hybridoma cells within (1) 1.5% Ca-alginate microbeads from Bugarski et al. [in: Fundamentals of Animal Cells Immobilization and Microencapsulation, M. F. A. Goosen, ed., CRC Press, Boca Raton, FL, 1993, p. 267] and (2) 1.3% alginate-agarose microbeads from Shen et al. [Animal Cell Technology: Basic & Applied Aspects, H. Murakami ed., Kluwer Academic Publishers, The Netherlands, 1992, p. 173]. Consideration of restricted cell growth dynamics based on developed kinetic model and kinetic 3D Monte Carlo simulation include: (1) changes the fraction of active proliferating cells in the exponential phase and (2) changes of non-proliferating cell concentration in the plateau phase. Higher value of the specific decrease of active fraction of proliferating cells. is obtained for 1.3% alginate-agarose compared to 1.5% alginate microbeads. It corresponds to higher compression stress generated within hydrogel matrix during cell growth obtained for 1.3% alginate-agarose microbeads.",
publisher = "IOS Press, Amsterdam",
journal = "Bio-Medical Materials and Engineering",
title = "Micro-environmentally restricted hybridoma cell growth within polysaccharide hydrogel microbeads",
pages = "371-361",
number = "5",
volume = "23",
doi = "10.3233/BME-130760",
url = "conv_4205"
}
Pajić-Lijaković, I.. (2013). Micro-environmentally restricted hybridoma cell growth within polysaccharide hydrogel microbeads. in Bio-Medical Materials and Engineering
IOS Press, Amsterdam., 23(5), 361-371.
https://doi.org/10.3233/BME-130760
conv_4205
Pajić-Lijaković I. Micro-environmentally restricted hybridoma cell growth within polysaccharide hydrogel microbeads. in Bio-Medical Materials and Engineering. 2013;23(5):361-371.
doi:10.3233/BME-130760
conv_4205 .
Pajić-Lijaković, Ivana, "Micro-environmentally restricted hybridoma cell growth within polysaccharide hydrogel microbeads" in Bio-Medical Materials and Engineering, 23, no. 5 (2013):361-371,
https://doi.org/10.3233/BME-130760 .,
conv_4205 .
