Quantification of Lumbar Endurance on a Backup Lumbar Extension Dynamometer
Staci M. Hager1,, Brian E. Udermann1, David M. Reineke2, Mark H. Gibson1, John M. Mayer3, Steven R. Murray4
1Department of Exercise and Sports Science, University of Wisconsin-La Crosse, La Crosse, WI, USA 2Mathematics Department, University of Wisconsin-La Crosse, La Crosse, WI, USA 3U.S. Spine and Sport Foundation, San Diego, CA, USA 4Department of Kinesiology, Mesa State College, Grand Junction, CO, USA
Staci M. Hager ✉ 2845 Greenbrier Road, Green Bay, WI 54311, USA. Email: staci.hager@aurora.org
Received: 21-08-2006 -- Accepted: 11-10-2006 Published (online): 15-12-2006
ABSTRACT
We evaluated the reliability of static and dynamic lumbar muscle endurance measurements on a BackUP lumbar extension dynamometer. Sixteen healthy participants (8 male; 8 female) volunteered for this investigation. Fifty percent of each participant’s body weight was calculated to determine the weight load utilized for the static (holding time) and dynamic (repetitions) lumbar extension endurance tests. Four separate tests (2 static, 2 dynamic) were conducted with at least a 24-hour rest period between tests. Test-retest intraclass correlations were shown to be high (static lumbar endurance, ICC = 0.92 (p < 0.0005); dynamic lumbar endurance, ICC = 0.93 (p < 0.0005) for both of the performed tests. Our results demonstrated that static and dynamic lumbar endurance can be assessed reliably on a BackUP lumbar extension dynamometer.
Key words:
Reliability, low back, static, dynamic
Key Points
Reliability studies that test lumbar endurance on machines that effectively stabilize the pelvis and isolate the lumbar extensors are limited.
This is the first study to report reliability measures of static and dynamic lumbar endurance on a BackUP lumbar extension dynamometer.
Static and dynamic lumbar endurance on a BackUP lumbar extension dynamometer, which uses a variety of pelvic stabilization mechanisms, can be reliably assessed in apparently healthy individuals.
Future research is necessary to examine the reliability of lumbar extension endurance on the BackUP dynamometer in patient populations and validity in various settings.
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Quantification of Lumbar Endurance on a Backup Lumbar Extension Dynamometer
Staci M. Hager, Brian E. Udermann, David M. Reineke, Mark H. Gibson, John M. Mayer, Steven R. Murray
, Brian E. Udermann1, David M. Reineke2, Mark H. Gibson1, John M. Mayer3, Steven R. Murray4 
