Derecruitment of the Lumbar Musculature With Fatiguing Trunk Extension Exercise

Study Design. This was a descriptive study involving 20 healthy individuals. Objectives. To evaluate the neuromuscular activation patterns of the lumbar paraspinal and hip extensor muscles during isotonic trunk extension exercise. Summary of Background Data. Few studies have evaluated the effect of muscle fatigue on the lumbar musculature during isotonic exercise. Methods. Electromyographic activity was recorded continuously from the lumbar paraspinal, gluteus maximus, and biceps femoris muscles during isotonic trunk extension exercise performed to muscular failure. Root mean squared electromyography was determined over the concentric portion of each repetition, and polynomial regression analysis was used to describe the association between fatigue and the recruitment patterns. Results. The lumbar paraspinals demonstrated an increase in the electromyogram signal up to 57.9% of maximal fatigue, at which point decrements in electromyography were observed (lumbar [quadratic curve] R2 = 0.0807, SEE = 0.228; &bgr;2 = −8.245−5) (P < 0.000). Associated with fatigue, the gluteus maximus demonstrated an increase in electromyography, with an exponential breakpoint occurring at 35.9% of maximal fatigue (gluteus maximus [quadratic curve]: R2 = 0.5059, SEE = 0.865; &bgr;2 = 0.00017) (P = 0.014). The biceps femoris demonstrated a linear increase in electromyography with fatigue (R2 = 0.4667, SEE = 0.284; &bgr; = 0.0091) (P < 0.000). To further investigate the derecruitment of the lumbar extensors associated with fatigue, study participants were analyzed individually with regression analyses. Results revealed that the majority of study participants (68.5%) demonstrated a significant decrease (quadratic bend) in lumbar electromyography, with decrements in muscle activity beginning at 53% of maximum. Conclusion. During fatiguing trunk extension exercise, an increase in the lumbar paraspinal electromyogram signal occurs up to approximately 55% of maximum fatigue, at which point a decrease in electromyography is observed. Associated with this derecruitment is a concomitant increase in hip extensor muscle activity, suggesting that as the lumbar musculature becomes fatigued, these muscles allow for continuation of the exercise.

[1]  M. Pollock,et al.  Lumbar Strengthening in Chronic Low Back Pain Patients|Physiologic and Psychological Benefits , 1993, Spine.

[2]  Richard W. White,et al.  Exploration of Mechanical and Electromyographic Responses of Trunk Muscles to High-Intensity Resistive Exercise , 1989, Spine.

[3]  H. Devries MUSCLES ALIVE-THEIR FUNCTIONS REVEALED BY ELECTROMYOGRAPHY , 1976 .

[4]  J. Cassisi,et al.  Trunk Strength and Lumbar Paraspinal Muscle Activity During Isometric Exercise in Chronic Low‐Back Pain Patients and Controls , 1993, Spine.

[5]  W. Barnes,et al.  Effects of eccentric exercise on trunk extensor torque and lumbar paraspinal EMG. , 2001, Medicine and science in sports and exercise.

[6]  S. Haldeman Low back pain: current physiologic concepts. , 1999, Neurologic clinics.

[7]  H. Milner-Brown,et al.  Quantifying human muscle strength, endurance and fatigue. , 1986, Archives of physical medicine and rehabilitation.

[8]  C. Snijders,et al.  The Posterior Layer of the Thoracolumbar Fascia|Its Function in Load Transfer From Spine to Legs , 1995, Spine.

[9]  M E Robinson,et al.  Lumbar iEMG during isotonic exercise: chronic low back pain patients versus controls. , 1992, Journal of spinal disorders.

[10]  G. D. P. M. DipTP Introduction to Surface Electromyography , 1998 .

[11]  B. Clark,et al.  Electromyographic activity of the lumbar and hip extensors during dynamic trunk extension exercise. , 2002, Archives of physical medicine and rehabilitation.

[12]  C. Richardson,et al.  Electromyographic amplitude and frequency changes in the iliocostalis lumborum and multifidus muscles during a trunk holding test. , 1997, Physical therapy.

[13]  S. Endo,et al.  A Quantitative Study of Trunk Muscle Strength and Fatigability in the Low- Back-Pain Syndrome , 1983, Spine.

[14]  H. Toussaint,et al.  Trunk extensor endurance and its relationship to electromyogram parameters , 2004, European Journal of Applied Physiology and Occupational Physiology.

[15]  Shrawan Kumar,et al.  Human Trunk Strength Profile in Flexion and Extension , 1995, Spine.

[16]  T. Ito,et al.  Concentric and eccentric strength of trunk muscles: influence of test postures on strength and characteristics of patients with chronic low-back pain. , 1995, Archives of physical medicine and rehabilitation.

[17]  S. Smith,et al.  Quantification of Lumbar Function: Part 2: Sagittal Plane Trunk Strength in Chronic Low-Back Pain Patients , 1985, Spine.

[18]  Michael M. Morlock,et al.  Trunk muscle fatigue and associated EMG changes during a dynamic iso-inertial test , 1997, European Journal of Applied Physiology and Occupational Physiology.

[19]  D. Laaksonen,et al.  Age, sex, and body mass index as determinants of back and hip extensor fatigue in the isometric Sørensen back endurance test. , 1998, Archives of physical medicine and rehabilitation.