Children with Heavy Prenatal Alcohol Exposure Exhibit Deficits when Regulating Isometric Force
Article first published online: 20 OCT 2011
Copyright © 2011 by the Research Society on Alcoholism
Alcoholism: Clinical and Experimental Research
Volume 36, Issue 2, pages 302–309, February 2012
How to Cite
Simmons, R. W., Nguyen, T. T., Levy, S. S., Thomas, J. D., Mattson, S. N. and Riley, E. P. (2012), Children with Heavy Prenatal Alcohol Exposure Exhibit Deficits when Regulating Isometric Force. Alcoholism: Clinical and Experimental Research, 36: 302–309. doi: 10.1111/j.1530-0277.2011.01625.x
- Issue published online: 27 JAN 2012
- Article first published online: 20 OCT 2011
- Received for publication January 28, 2011; accepted June 6, 2011.
- Prenatal Alcohol Exposure;
- Isometric Force
Background: Production of isometric (i.e., constant) force is an essential component of performing everyday functional tasks, yet no studies have investigated how this type of force is regulated in children with confirmed histories of heavy prenatal alcohol exposure.
Methods: Children 7 to 17 years old with heavy prenatal alcohol exposure (n = 25) and without exposure (n = 18) applied force to a load cell to generate an isometric force that matched a criterion target force displayed on a computer monitor. Two levels of target force were investigated in combination with 3 levels of visual feedback frequency that appeared on the computer monitor as a series of yellow dots. Force was maintained for 20 seconds and participants completed 6 trials per test condition.
Results: Root-mean-square error, signal-to-noise ratio, and sample entropy indexed response accuracy, response variability, and signal complexity, respectively. The analyses revealed that in comparison with controls, children with gestational ethanol exposure were significantly less accurate and more variable in regulating their force output and generated a response signal with greater regularity and less complexity in the time domain.
Conclusions: Children with prenatal alcohol exposure experience significant deficits in isometric force production that may impede their ability to perform basic motor skills and activities in everyday tasks.