This information is now on Primer
All the information that is in this pane, and more, is now on Primer, in a more consumable and user friendly format. You can also edit metadata from this page.
Take me there!- Community Rating
-
Current value: 0 out of 5
- Your Rating
-
Current value: 0 out of 5
- Raters
- 0
- Visits
- 316
- Downloads
- 72
- Comments
- 0
- Contributors
- 0
- Category
- National Institute for Occupational Safety and Health
- Permissions
- Public
- Tags
- Permalink
- https://data.cdc.gov/National-Institute-for-Occupational-Safety-and-Hea/A-model-for-detecting-the-effects-of-vibration-on-/hyai-856qOpens in new window.
- Short URL
- https://data.cdc.gov/d/hyai-856q?category=National-Institute-for-Occupational-Safety-and-Hea&view_name=A-model-for-detecting-the-effects-of-vibration-on-Opens in new window.
- Data Provided By
- (none)
- Source Link
- (none)
- Contact Name
- Health Effects Laboratory, Research Pathology and Physiology Research Branch
- Contact Email
- sa-cin-webteam@cdc.gov
- Bureau Code
- 009:20
- Program Code
- 009:034
A model for detecting the effects of vibration on peripheral blood flow
Description
Exposure to hand-transmitted vibration (HTV) has been shown to result in cold-induced vasoconstriction and a reduction in blood flow to the hands and fingers of workers. Occupational exposure to HTV can also induce a hypersensitivity of the sympathetic nervous system to various stimuli, which in turn can result in vasoconstriction of the peripheral blood vessels and blanching of the skin because of reductions in peripheral blood flow. The data presented were collected using an established animal model of vibration-induced white finger (Welcome et al. 2008) to determine if changes in blood flow induced by vibration exposure could be used as a biomarker for the development of vibration-induced peripheral vascular disease. Two separate experiments were done. In Experiment 1, changes in blood flow were measured in the ventral tail artery of the rat tail before and after a 4 h exposure to tail vibration (frequency 125 Hz, amplitude 5 g). These data were compared with those of animals that were restrained and had t
This information is now on Primer
All the information that is in this pane, and more, is now on Primer, in a more consumable and user friendly format. You can also edit metadata from this page.
Take me there!- Community Rating
-
Current value: 0 out of 5
- Your Rating
-
Current value: 0 out of 5
- Raters
- 0
- Visits
- 316
- Downloads
- 72
- Comments
- 0
- Contributors
- 0
- Category
- National Institute for Occupational Safety and Health
- Permissions
- Public
- Tags
- Permalink
- https://data.cdc.gov/National-Institute-for-Occupational-Safety-and-Hea/A-model-for-detecting-the-effects-of-vibration-on-/hyai-856qOpens in new window.
- Short URL
- https://data.cdc.gov/d/hyai-856q?category=National-Institute-for-Occupational-Safety-and-Hea&view_name=A-model-for-detecting-the-effects-of-vibration-on-Opens in new window.
- Data Provided By
- (none)
- Source Link
- (none)
- Contact Name
- Health Effects Laboratory, Research Pathology and Physiology Research Branch
- Contact Email
- sa-cin-webteam@cdc.gov
- Bureau Code
- 009:20
- Program Code
- 009:034
