Jacobs:Research: Difference between revisions
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The overall focus of the CMBL group is to understand how cells sense and respond to changes in their mechanical environment. Although a wide range of tissues are known to be regulated by physical signals, outside of sensory mechanisms, the cellular aparatus responsible for the initial "mechanotransduction" event is poorly understood. Our group is primarily focused on mechanosensitivity of bone cells as it relates to osteoporosis, stress fractures, and disuse bone loss associated with spinal cord injury and space flight. We have identified the cellular level flow of fluid due to loading as a potent physical signal in cellular metabolism | |||
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The overall focus of the CMBL group is to understand how cells sense and respond to changes in their mechanical environment. Although a wide range of tissues are known to be regulated by physical signals, outside of sensory mechanisms, the cellular aparatus responsible for the initial "mechanotransduction" event is poorly understood. Our group is primarily focused on mechanosensitivity of bone cells as it relates to osteoporosis, stress fractures, and disuse bone loss associated with spinal cord injury and space flight. We have identified the cellular level flow of fluid due to loading as a potent physical signal in cellular metabolism. | |||
=== Active Projects === | === Active Projects === | ||
[[Jacobs:Research:Mechanotransduction in Bone via Oscillatory Fluid Flow|Mechanotransduction in Bone via Oscillatory Fluid Flow]] | [[Jacobs:Research:Mechanotransduction in Bone via Oscillatory Fluid Flow|Mechanotransduction in Bone via Oscillatory Fluid Flow]] | ||
[[Jacobs:Research:Loading Induced Fluid Flow and Disuse Bone Loss|Loading Induced Fluid Flow and Disuse Bone Loss]] | |||
[[Jacobs:Research:Structural Analysis of Cytoskeletal Deformation in Bone Cells Exposed to Shear Stress|Structural Analysis of Cytoskeletal Deformation in Bone Cells Exposed to Shear Stress]] | |||
[[Jacobs:Research:Cellular Basis for Optimal Osteogenic Physical Interventions|Cellular Basis for Optimal Osteogenic Physical Interventions]] | |||
Our research has been funded by a variety of sources including the NIH, NASA, NSF, US Army, Department of Veterans Affairs, and the Whitaker Foundation. | |||
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Revision as of 15:55, 2 December 2011
The overall focus of the CMBL group is to understand how cells sense and respond to changes in their mechanical environment. Although a wide range of tissues are known to be regulated by physical signals, outside of sensory mechanisms, the cellular aparatus responsible for the initial "mechanotransduction" event is poorly understood. Our group is primarily focused on mechanosensitivity of bone cells as it relates to osteoporosis, stress fractures, and disuse bone loss associated with spinal cord injury and space flight. We have identified the cellular level flow of fluid due to loading as a potent physical signal in cellular metabolism.
Active Projects
Mechanotransduction in Bone via Oscillatory Fluid Flow
Loading Induced Fluid Flow and Disuse Bone Loss
Structural Analysis of Cytoskeletal Deformation in Bone Cells Exposed to Shear Stress
Cellular Basis for Optimal Osteogenic Physical Interventions
Our research has been funded by a variety of sources including the NIH, NASA, NSF, US Army, Department of Veterans Affairs, and the Whitaker Foundation.
