Medicine and Health Sciences Commons^™

Efficacy Of Electromyography And The Dead Bug Exercise, Taylor M. Scavo, Rachel C. Cooklin, Erika N. Faria, Madeline L. Johnson, Eric Sternlicht

Student Scholar Symposium Abstracts and Posters

The Dead Bug exercise is performed in physical therapy clinics to restore lumbar spine stability and core strength in patients with lower back pain (LBP). The aim of this study was to evaluate the efficacy of using electromyography (EMG) feedback to enhance proper mechanics during the Dead Bug exercise. Sixteen healthy, college age students volunteered as subjects for the study. Subjects performed the Dead Bug (Fig. 1a.) with and without visual EMG cues and were given instructions on how to execute the exercise. Data was recorded using a BTS FREEEMG Analyzer and signal processed and data analyzed using the BTS …

The Use Of Emg As A Physical Therapy Learning Aid, Madeline L. Johnson, Rachel C. Cooklin, Erika N. Faria, Taylor M. Schavo, Eric Sternlicht

Student Scholar Symposium Abstracts and Posters

The purpose of this study was to compare the muscle recruitment of an agonist and antagonist muscle during the step up physical therapy exercise with and without visual electromyographic (EMG) biofeedback. 15 healthy, college-aged subjects were recruited to participate in the study. Subjects performed the step up with and without visual feedback in two separate sessions over a four week period. Muscle activity was recorded from the Vastus Medialis (VMO) of the target leg and Medial Gastrocnemius on the contralateral leg. EMG recordings were collected using a BTS FREEEMG system and data was processed using BTS SEMGanalyzer software (BTS Bioengineering, …

Adaptations Of Lumbar Biomechanics After Four Weeks Of Running Training With Minimalist Footwear And Technique Guidance: Implications For Running-Related Lower Back Pain, Szu-Ping Lee, Joshua P. Bailey, Jo Armour Smith, Stephanie Barton, David Brown, Talia Joyce

Physical Therapy Faculty Articles and Research

Objectives

To investigate the changes in lumbar kinematic and paraspinal muscle activation before, during, and after a 4-week minimalist running training.

Design

Prospective cohort study.

Setting

University research laboratory.

Participants

Seventeen habitually shod recreational runners who run 10–50 km per week.

Main outcome measures

During stance phases of running, sagittal lumbar kinematics was recorded using an electrogoniometer, and activities of the lumbar paraspinal muscles were assessed by electromyography. Runners were asked to run at a prescribed speed (3.1 m/s) and a self-selected speed.

Results

For the 3.1 m/s running speed, significant differences were found in the calculated mean lumbar posture …

Electromyographic Data Do Not Support A Progressive Recruitment Of Muscle Fibers During Exercise Exhibiting A Vo2 Slow Component, Daniel T. Cannon, Fred W. Kolkhorst, Daniel Cipriani

Physical Therapy Faculty Articles and Research

The origin of the slow component (SC) of oxygen uptake kinetics, presenting during exercise above the ventilatory threshold (VT), remains unclear. Possible physiologic mechanisms include a progressive recruitment of type II muscle fibers. The purpose of this study was to examine alterations in muscle activity through electromyography (EMG) and mean power frequency (MPF) analysis during heavy cycling exercise. Eight trained cyclists (mean±S.E.; age=30±3 years, height=177±4 cm, weight=73.8±6.5 kg, VO2max=4.33±0.28lmin−1) completed transitions from 20 W to a workload equaling 50% of the difference between VT and VO2max. VO2 was monitored using a breath-by-breath measurement system, and EMG data were gathered from …