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Demands on the Knee During Kneeling and Squatting Activities Common to Low-Seam Mining
Contributor(s): Department of Health and Human Services (Created by), National Institute for Occupational Safe (Created by)
ISBN: 1288501714     ISBN-13: 9781288501717
Publisher: Bibliogov
OUR PRICE:   $16.86  
Product Type: Paperback - Other Formats
Published: January 2013
Qty:
Additional Information
BISAC Categories:
- Political Science
Physical Information: 0.12" H x 7.44" W x 9.69" (0.27 lbs) 58 pages
 
Descriptions, Reviews, Etc.
Publisher Description:
In 2009, the operating height of approximately one fourth of underground coal mines in the U.S. restricted mine workers to kneeling, crawling, and/or stooping posture to perform work MSHA 2009). The large number of knee injuries to these workers is likely attributed to exposure to musculoskeletal disorder risk factors (prolonged kneeling, crawling, and twisting on one's knees). Therefore, the National Institute for Occupational Safety and Health has investigated three different biomechanical parameters (muscle activity of the knee flexors and extensors, pressure at the knee, and the net forces and moments at the knee) as subjects assumed postures common to low-seam mining, both with and without kneepads. The postures evaluated included: (I) kneeling near full flexion; (2) kneeling near 90 degrees of knee flexion; (3) kneeling on one knee; and (4) squatting. The pressure and the net forces and moments at the knee were evaluated as subjects statically assumed these postures. However, negligible muscle activity existed for these static postures. Therefore, muscle activity of the knee flexors and extensors was evaluated for each posture while subjects performed a lateral lift that is common to low-seam mining where they lifted a 25-lb block from their right side, transferred it across their body, and placed it on the ground on their left side. The results indicated that, relative to the stresses posed by other kneeling postures, some postures had may have more detrimental effects than others. Considering the potential impact of the three biomechanical parameters, several key recommendations were made regarding when it may be most appropriate to use specific postures. Additional recommendations were also made regarding the design of kneepads.