OBJECTIVES: (1) To show that extracellular matrix deposition in 3-dimensional culture of human septal chondrocytes cultured in a rotary bioreactor is comparable to the deposition achieved under static culture conditions. (2) To demonstrate that the biomechanical properties of human septal chondrocytes cultured in a bioreactor are enhanced with time and are analogous to beads cultured under static culture. STUDY DESIGN: Prospective, basic science. SETTING: Research laboratory. METHODS: Human septal chondrocytes from 9 donors were expanded in monolayer and seeded in alginate beads. The beads were cultured in a rotary bioreactor for 21 days in media supplemented with growth factors and human serum, using static culture as the control. Biochemical and biomechanical properties of the beads were measured. RESULTS: Glycosaminoglycan (GAG) accumulation significantly increased during 2 measured time intervals, 0 to 21 days and 10 to 21 days (P < .01). No significant difference was seen between the static and bioreactor conditions. Substantial type II collagen production was demonstrated in the beads terminated at day 21 of culture in both conditions. In addition, the biomechanical properties of the beads were significantly improved at 21 days in comparison to beads from day 0. CONCLUSION: Human septal chondrocytes cultured in alginate beads exhibit significant matrix deposition and improved biomechanical properties after 21 days. Alginate bead diameter and stiffness positively correlated with GAG and type II collagen accretion. Matrix production in beads is supported by the use of a rotary bioreactor.
OBJECTIVES: (1) To show that extracellular matrix deposition in 3-dimensional culture of human septal chondrocytes cultured in a rotary bioreactor is comparable to the deposition achieved under static culture conditions. (2) To demonstrate that the biomechanical properties of human septal chondrocytes cultured in a bioreactor are enhanced with time and are analogous to beads cultured under static culture. STUDY DESIGN: Prospective, basic science. SETTING: Research laboratory. METHODS:Human septal chondrocytes from 9 donors were expanded in monolayer and seeded in alginate beads. The beads were cultured in a rotary bioreactor for 21 days in media supplemented with growth factors and human serum, using static culture as the control. Biochemical and biomechanical properties of the beads were measured. RESULTS:Glycosaminoglycan (GAG) accumulation significantly increased during 2 measured time intervals, 0 to 21 days and 10 to 21 days (P < .01). No significant difference was seen between the static and bioreactor conditions. Substantial type II collagen production was demonstrated in the beads terminated at day 21 of culture in both conditions. In addition, the biomechanical properties of the beads were significantly improved at 21 days in comparison to beads from day 0. CONCLUSION:Human septal chondrocytes cultured in alginate beads exhibit significant matrix deposition and improved biomechanical properties after 21 days. Alginate bead diameter and stiffness positively correlated with GAG and type II collagen accretion. Matrix production in beads is supported by the use of a rotary bioreactor.
Authors: Thomas H Alexander; August B Sage; Barbara L Schumacher; Robert L Sah; Deborah Watson Journal: Otolaryngol Head Neck Surg Date: 2006-09 Impact factor: 3.497
Authors: Stanley H Chia; Mark R Homicz; Barbara L Schumacher; Eugene J-M A Thonar; Koichi Masuda; Robert L Sah; Deborah Watson Journal: J Am Coll Surg Date: 2005-05 Impact factor: 6.113
Authors: Mark R Homicz; Stanley H Chia; Barbara L Schumacher; Koichi Masuda; Eugene J Thonar; Robert L Sah; Deborah Watson Journal: Laryngoscope Date: 2003-01 Impact factor: 3.325
Authors: Goutham K Gorti; Justin Lo; Sassan Falsafi; Jon Kosek; Susan Y Quan; Duke T Khuu; R James Koch Journal: Arch Otolaryngol Head Neck Surg Date: 2003-08