The 3L volume of spinner bioreactor was modified to the creased conformation. The dynamic gasout technique was operated through lower flow rate of nitrogen and air, the creased vessel showed high capability of retaining and dissolved oxygen in water. Comparison between creased and round vessel, the volumetric oxygen transfer coefficient (K(subscript L) a) was estimated 8.59 and 5.67 (hr^(-1)) by sodium sulfite technique under aeration 0.16 vvm, 5 psi of air and 110 rpm agitation rate in water. Increased agitation rate significantly enhanced the value of K(subscript L) a. Using minibead tracers, one fluid pathway of crease vessel could approach the gas interface once. In contrast, it took four circles for the round vessel to reach the interface. In embryogenic cells of triploid banana cultured in designed crease bioreactor, the better option was to control dissolved oxygen at 20.0±5.0%, 110 rpm agitated rate and aerated with intermittence. The designed conditions could protect plant cells against the shear force, and reduce the bleb accumulation upon the face of liquid. Dynamic technique monitoring dissolved oxygen concentration could better estimate cell growth curve than cell packed volume method. Current design of creased bioreactor is idea for scaleup plant cell culture.