CONTEXT: Many models have been employed to replicate skeletal muscle injury associated with trauma; however, most are restricted to 1 level of severity. OBJECTIVE: To create and validate an injury-producing device that could generate multiple levels of injury severity. DESIGN: Validation study. PATIENTS OR OTHER PARTICIPANTS: Twenty-six male Wistar rats, 3 to 4 months old. INTERVENTION(S): A contusion device was developed and its ability to deliver consistent impacts was validated alone and in the presence of an experimental animal. A free-falling mass (267 g) was adjusted to the desired height (40, 50, 60, or 70 cm) and then dropped. MAIN OUTCOME MEASURE(S): Peak load, peak displacement, impulse, energy, and velocity peak were measured. Injury severity was determined using magnetic resonance imaging. RESULTS: Outcome measures observed from the device alone were different by height (F(18,136) = 21.807, P < .001, 1-beta = 1.0). Outcomes using the experimental animals were also dependent on height (F(14,102) = 68.679, P < .001, 1-beta = 1.0). Linear regression analyses indicated that height accounted for 17% to 89% of the variance. CONCLUSIONS: Mild to moderate and moderate to severe injuries can be replicated with this device, which will be useful in evaluating clinical treatments on acute muscle injury.
CONTEXT: Many models have been employed to replicate skeletal muscle injury associated with trauma; however, most are restricted to 1 level of severity. OBJECTIVE: To create and validate an injury-producing device that could generate multiple levels of injury severity. DESIGN: Validation study. PATIENTS OR OTHER PARTICIPANTS: Twenty-six male Wistar rats, 3 to 4 months old. INTERVENTION(S): A contusion device was developed and its ability to deliver consistent impacts was validated alone and in the presence of an experimental animal. A free-falling mass (267 g) was adjusted to the desired height (40, 50, 60, or 70 cm) and then dropped. MAIN OUTCOME MEASURE(S): Peak load, peak displacement, impulse, energy, and velocity peak were measured. Injury severity was determined using magnetic resonance imaging. RESULTS: Outcome measures observed from the device alone were different by height (F(18,136) = 21.807, P < .001, 1-beta = 1.0). Outcomes using the experimental animals were also dependent on height (F(14,102) = 68.679, P < .001, 1-beta = 1.0). Linear regression analyses indicated that height accounted for 17% to 89% of the variance. CONCLUSIONS: Mild to moderate and moderate to severe injuries can be replicated with this device, which will be useful in evaluating clinical treatments on acute muscle injury.
Entities:
Keywords:
blunt trauma; magnetic resonance imaging; skeletal muscle injuries
Authors: Nicole M McBrier; Jaimy M Lekan; Lawrence J Druhan; Steven T Devor; Mark A Merrick Journal: Arch Phys Med Rehabil Date: 2007-07 Impact factor: 3.966
Authors: Nicole M McBrier; Thomas Neuberger; Craig R Denegar; Neil A Sharkey; Andrew G Webb Journal: J Am Assoc Lab Anim Sci Date: 2009-03 Impact factor: 1.232