Add to ORKGOxygen concentration gradients in the intervertebral disc were calculated to examine the effects of exchange area and disc thickness on oxygen concentrations and oxygen flux into the disc. The concentration gradients were determined using the two-dimensional Poisson equation with experimental values for oxygen consumption rate and oxygen diffusion. The calculated gradients were steep, and the oxygen concentrations in the center of thick discs were low, in agreement with experimental gradients. The results support the hypothesis that maximum cell density in the disc is determined by nutrient supply and that exchange area and disc thickness are critical parameters
Intervertebral disc metabolic transport is essential to the functional spine and provides the cells ...
The intervertebral disc is the largest asvacular structure in the body; consequently, there are stee...
Responsible for making and maintaining the extracellular matrix, the cells of intervertebral discs a...
The intervertebral disc consists of a water-rich extra-cellular matrix which is synthesized and main...
The transport of oxygen and lactate (i.e., lactic acid) in the human intervertebral disc was investi...
The present numerical study aims to investigate the disc nutrition and factors affecting it by evalu...
The metabolic environment of disc cells is governed by the avascular nature of the tissue. Because c...
Intervertebral disc metabolic transport is essential to the functional spine and provides the cells ...
As the disc is the largest avascular structure in the body, disc cells depend for their normal funct...
The human intervertebral disc (IVD) is the largest avascular tissue in the body. Discs are made up o...
The metabolism of the canine nucleus pulposus was investigated at different oxygen tensions. It was ...
International audienceA 2-D finite element model for the intervertebral disc in which quadriphasic t...
The cells of the intervertebral disc exist in an unusual environment. They are embedded in a dense m...
STUDY DESIGN: In vitro measurements of metabolic rates of isolated bovine nucleus pulposus cells at ...
STUDY DESIGN: A review of the literature on disc nutrition. OBJECTIVES: To summarize the information...
Intervertebral disc metabolic transport is essential to the functional spine and provides the cells ...
The intervertebral disc is the largest asvacular structure in the body; consequently, there are stee...
Responsible for making and maintaining the extracellular matrix, the cells of intervertebral discs a...
The intervertebral disc consists of a water-rich extra-cellular matrix which is synthesized and main...
The transport of oxygen and lactate (i.e., lactic acid) in the human intervertebral disc was investi...
The present numerical study aims to investigate the disc nutrition and factors affecting it by evalu...
The metabolic environment of disc cells is governed by the avascular nature of the tissue. Because c...
Intervertebral disc metabolic transport is essential to the functional spine and provides the cells ...
As the disc is the largest avascular structure in the body, disc cells depend for their normal funct...
The human intervertebral disc (IVD) is the largest avascular tissue in the body. Discs are made up o...
The metabolism of the canine nucleus pulposus was investigated at different oxygen tensions. It was ...
International audienceA 2-D finite element model for the intervertebral disc in which quadriphasic t...
The cells of the intervertebral disc exist in an unusual environment. They are embedded in a dense m...
STUDY DESIGN: In vitro measurements of metabolic rates of isolated bovine nucleus pulposus cells at ...
STUDY DESIGN: A review of the literature on disc nutrition. OBJECTIVES: To summarize the information...
Intervertebral disc metabolic transport is essential to the functional spine and provides the cells ...
The intervertebral disc is the largest asvacular structure in the body; consequently, there are stee...
Responsible for making and maintaining the extracellular matrix, the cells of intervertebral discs a...