Ahluwalia 2017 Sci Rep
| Ahluwalia A (2017) Allometric scaling in-vitro. Sci Rep 7:42113. |
Ahluwalia A (2017) Sci Rep
Abstract: About two decades ago, West and coworkers established a model which predicts that metabolic rate follows a three quarter power relationship with the mass of an organism, based on the premise that tissues are supplied nutrients through a fractal distribution network. Quarter power scaling is widely considered a universal law of biology and it is generally accepted that were in-vitro cultures to obey allometric metabolic scaling, they would have more predictive potential and could, for instance, provide a viable substitute for animals in research. This paper outlines a theoretical and computational framework for establishing quarter power scaling in three-dimensional spherical constructs in-vitro, starting where fractal distribution ends. Allometric scaling in non-vascular spherical tissue constructs was assessed using models of Michaelis Menten oxygen consumption and diffusion. The models demonstrate that physiological scaling is maintained when about 5 to 60% of the construct is exposed to oxygen concentrations less than the Michaelis Menten constant, with a significant concentration gradient in the sphere. The results have important implications for the design of downscaled in-vitro systems with physiological relevance.
β’ Bioblast editor: Gnaiger E
Labels: MiParea: Respiration, mt-Biogenesis;mt-density, Comparative MiP;environmental MiP
Preparation: Intact organism, Intact cells
Regulation: Oxygen kinetics
