Your search keyword '"Reinsel TE"' showing total 12 results

1. Corrigendum to "Guideline summary review: an evidence-based clinical guideline for the diagnosis and treatment of low back pain" [The Spine Journal 20/7 (2020) p 998-1024].

Author

Kreiner DS, Matz P, Bono CM, Cho CH, Easa JE, Ghiselli G, Ghogawala Z, Reitman CA, Resnick DK, Watters WC 3rd, Annaswamy TM, Baisden J, Bartynski WS, Bess S, Brewer RP, Cassidy RC, Cheng DS, Christie SD, Chutkan NB, Cohen BA, Dagenais S, Enix DE, Dougherty P, Golish SR, Gulur P, Hwang SW, Kilincer C, King JA, Lipson AC, Lisi AJ, Meagher RJ, O'Toole JE, Park P, Pekmezci M, Perry DR, Prasad R, Provenzano DA, Radcliff KE, Rahmathulla G, Reinsel TE, Rich RL Jr, Robbins DS, Rosolowski KA, Sembrano JN, Sharma AK, Stout AA, Taleghani CK, Tauzell RA, Trammell T, Vorobeychik Y, and Yahiro AM

Published

2021

2. Guideline summary review: an evidence-based clinical guideline for the diagnosis and treatment of low back pain.

Author

Kreiner DS, Matz P, Bono CM, Cho CH, Easa JE, Ghiselli G, Ghogawala Z, Reitman CA, Resnick DK, Watters WC 3rd, Annaswamy TM, Baisden J, Bartynski WS, Bess S, Brewer RP, Cassidy RC, Cheng DS, Christie SD, Chutkan NB, Cohen BA, Dagenais S, Enix DE, Dougherty P, Golish SR, Gulur P, Hwang SW, Kilincer C, King JA, Lipson AC, Lisi AJ, Meagher RJ, O'Toole JE, Park P, Pekmezci M, Perry DR, Prasad R, Provenzano DA, Radcliff KE, Rahmathulla G, Reinsel TE, Rich RL Jr, Robbins DS, Rosolowski KA, Sembrano JN, Sharma AK, Stout AA, Taleghani CK, Tauzell RA, Trammell T, Vorobeychik Y, and Yahiro AM

Subjects

Evidence-Based Medicine, Humans, Spine, Low Back Pain diagnosis, Low Back Pain therapy

Abstract

Background Context: The North American Spine Society's (NASS) Evidence Based Clinical Guideline for the Diagnosis and Treatment of Low Back Pain features evidence-based recommendations for diagnosing and treating adult patients with nonspecific low back pain. The guideline is intended to reflect contemporary treatment concepts for nonspecific low back pain as reflected in the highest quality clinical literature available on this subject as of February 2016., Purpose: The purpose of the guideline is to provide an evidence-based educational tool to assist spine specialists when making clinical decisions for adult patients with nonspecific low back pain. This article provides a brief summary of the evidence-based guideline recommendations for diagnosing and treating patients with this condition., Study Design: This is a guideline summary review., Methods: This guideline is the product of the Low Back Pain Work Group of NASS' Evidence-Based Clinical Guideline Development Committee. The methods used to develop this guideline are detailed in the complete guideline and technical report available on the NASS website. In brief, a multidisciplinary work group of spine care specialists convened to identify clinical questions to address in the guideline. The literature search strategy was developed in consultation with medical librarians. Upon completion of the systematic literature search, evidence relevant to the clinical questions posed in the guideline was reviewed. Work group members utilized NASS evidentiary table templates to summarize study conclusions, identify study strengths and weaknesses, and assign levels of evidence. Work group members participated in webcasts and in-person recommendation meetings to update and formulate evidence-based recommendations and incorporate expert opinion when necessary. The draft guideline was submitted to an internal and external peer review process and ultimately approved by the NASS Board of Directors., Results: Eighty-two clinical questions were addressed, and the answers are summarized in this article. The respective recommendations were graded according to the levels of evidence of the supporting literature., Conclusions: The evidence-based clinical guideline has been created using techniques of evidence-based medicine and best available evidence to aid practitioners in the diagnosis and treatment of adult patients with nonspecific low back pain. The entire guideline document, including the evidentiary tables, literature search parameters, literature attrition flowchart, suggestions for future research, and all of the references, is available electronically on the NASS website at https://www.spine.org/ResearchClinicalCare/QualityImprovement/ClinicalGuidelines.aspx., (Copyright © 2020. Published by Elsevier Inc.)

Published

2020

3. Effect of electromyogram-force relationships and method of gain estimation on the predictions of an electromyogram-driven model of spinal loading.

Author

Sparto PJ, Parnianpour M, Marras WS, Granata KP, Reinsel TE, and Simon S

Subjects

Adult, Forecasting, Humans, Lumbosacral Region, Male, Muscle Fatigue physiology, Physical Endurance physiology, Stress, Mechanical, Torque, Electromyography, Models, Biological, Spine physiology, Weight-Bearing physiology

Abstract

Study Design: An experimental study of fatiguing isometric trunk extension was conducted to investigate the spinal loading estimated from an electromyogram-assisted biomechanical model., Objective: To evaluate the sensitivity of the model outputs to two crucial assumptions: electromyogram-force relationship and method of gain estimation., Summary of Background Data: In the proposed electromyogram-assisted models of the trunk, the nature of the electromyogram-force relationship and the wide variation in reported muscle gains can result in a wide variation in estimates of spinal loading. Given the absence of any gold standard for validation of muscle forces, the delineation of confidence intervals for the estimated loads has become critical., Methods: Ten subjects performed a fatiguing isometric trunk extension while the net muscular torque output and trunk muscular activity were measured. An electromyogram-assisted model was used to estimate the torque output and spinal loading. Linear and nonlinear erector spinae electromyogram-force relationships and three methods for gain estimation were investigated: constant gain determined from an initial maximum extension exertion, constant gain based on the fatiguing exertion, and a time-varying gain from the fatigue test., Results: The predicted torque was not sensitive to the electromyogram-force relationship; the nonlinear model produced 10% lower estimates of peak spinal compression force and 14% higher estimates of peak anterior shear force. The gain determined from an initial calibration exertion underestimated the external torque and underpredicted the peak compression force by 20%, compared with gains calculated in the fatigue test., Conclusion: The nature of the electromyogram-force relationship and of the method for estimating the gain significantly affect the outcomes of an electromyogram-assisted model of spinal loading.

Published

1998

4. The effect of lifting belt use on multijoint motion and load bearing during repetitive and asymmetric lifting.

Author

Sparto PJ, Parnianpour M, Reinsel TE, and Simon S

Subjects

Adult, Arm physiology, Humans, Knee Joint physiology, Low Back Pain prevention & control, Male, Muscle Fatigue physiology, Weight-Bearing physiology, Hip Joint physiology, Lifting, Movement physiology, Protective Devices

Abstract

The evaluation of the effect of lifting belts on multijoint coordinated lifting performance has been limited. Thirteen subjects participated in two experiments: (a) fatiguing repetitive sagittal lifting and (b) asymmetric lifting. Both experiments were performed with and without the use of a common flexible lifting belt to determine the effect of belt use on the trunk and lower extremity motion and load sharing. During both tests, the use of the belt was observed to restrict the sagittal trunk range of motion and velocity, while the hip motion and velocity increased. Although one of the risk factors for acquisition of low back pain may be reduced while wearing the belt, the results also demonstrate a need for greater study of the consequences on the risk of injury to the other joints. More laboratory experiments and prospective epidemiological studies are needed before a conclusive recommendation could be made in favor of using the belt as a valid preventive measure.

Published

1998

5. The effect of fatigue on multijoint kinematics and load sharing during a repetitive lifting test.

Author

Sparto PJ, Parnianpour M, Reinsel TE, and Simon S

Subjects

Adult, Elbow physiology, Hip Joint physiology, Humans, Kinetics, Knee Joint physiology, Lumbar Vertebrae physiology, Male, Shoulder Joint physiology, Weight-Bearing physiology, Joints physiology, Lifting, Muscle Fatigue physiology, Spine physiology

Abstract

Study Design: A repetitive lifting test in the sagittal plane was performed with a submaximal load at a maximal lifting rate to understand the effects of fatigue on kinematic and kinetic measures of performance., Objectives: To quantify the effect of fatigue during a highly repetitive lifting task, in terms of lifting force transmitted to the load, joint motion patterns, and internal joint load sharing., Summary of Background Data: Industrial surveillance and epidemiologic data suggest that repetitive lifting is a risk factor for low back pain. Previous studies examining the effect of fatigue have either been constrained to isolated trunk movement, or have not explored the internal load distribution and potential alteration in the loading patterns., Methods: Sixteen healthy male subjects performed repetitive lifting in the sagittal plane with a load equal to 25% of their maximal lifting capacity, at a maximal lifting rate. Changes in lifting performance were determined from the power transferred to the box, joint kinematics, and joint kinetics. Data from three cycles at the start and end of the exercise were tested for the effect of fatigue using repeated-measures analysis of variance., Results: Fatigue was documented by a reduction in average lifting force and hip and spine torque generation, whereas internal joint load sharing was relatively unchanged. The fatigue was associated with decreased knee and hip motion, and increased lumbar flexion. Decreased postural stability also was evident., Conclusions: The significant decrease in postural stability and force generation capability because of the repetitive lifting task indicated a higher risk of injury in the presence of unexpected perturbation. Multijoint coordinated lifting tasks provide a more realistic protocol to study neuromuscular fatigue.

Published

1997

6. Neuromuscular trunk performance and spinal loading during a fatiguing isometric trunk extension with varying torque requirements.

Author

Sparto PJ, Parnianpour M, Marras WS, Granata KP, Reinsel TE, and Simon S

Subjects

Adult, Electromyography, Humans, Male, Physical Exertion physiology, Torque, Weight-Bearing physiology, Isometric Contraction physiology, Muscle Fatigue physiology, Spine physiology

Abstract

A novel testing protocol was used to investigate changes in neuromuscular performance, muscle recruitment, and spinal loading as subjects became fatigued while performing an isometric endurance test of varying torque requirements. There was decreased accuracy in maintenance of a reference torque but no change in response time as subjects became fatigued. The study of trunk-muscle recruitment indicated significant increases in internal oblique and latissimus dorsi muscle activity. This change in recruitment led to changes in spinal loading despite a relatively constant torque output. The use of an electromyogram (EMG)-assisted model demonstrated that when subjects are expected to become fatigued during test performance, the assumption of a constant maximal stress capacity of the muscle may not be robust.

Published

1997

7. Spectral and temporal responses of trunk extensor electromyography to an isometric endurance test.

Author

Sparto PJ, Parnianpour M, Reinsel TE, and Simon S

Subjects

Adult, Fourier Analysis, Humans, Lumbosacral Region, Male, Regression Analysis, Time Factors, Electromyography, Isometric Contraction, Muscles physiology, Physical Endurance

Abstract

Study Design: This study investigated the effect of trunk extensor muscle location on the spectral and temporal electromyographic activity of the muscles during a fatiguing isometric extension of the torso against gravity., Objectives: To determine the spectral responses of the trunk extensor muscles at more locations than have been studied previously, to determine if fatigue in the knee flexors limits this test, and to quantify the recruitment patterns of the trunk extensor muscles in a group of healthy subjects., Summary of Background Data: Isometric endurance tests appear to have more value than strength tests in predicting the occurrence of low back pain. Electromyographic activity of trunk extensor muscles during these tests may provide clues to the etiology of neuromuscular-based low back pain. Spectral electromyographic measures appear to be successful discriminators between low back pain patient and normal populations, although which muscles provide the best information is unclear. Likewise, the recruitment patterns of the trunk extensors during fatiguing isometric tasks is not well quantified., Methods: Ten healthy men performed an isometric trunk endurance test. Surface electromyography was recorded from the erector spinae medially and laterally at vertebral levels of L1 and L3, medially at L5, and from the biceps femoris and gastrocnemius. Spectral parameters were calculated from the Fast Fourier Transform, and temporal parameters were calculated from the root mean square of the raw data. Linear regression was used to determine their responses as a function of time., Results: There was a significant effect of vertebral level and medial-lateral location on the initial median frequency and linear slope of the median frequency regressions. No significant evidence of fatigue in the lower extremities was observed. For most subjects, the temporal response of the surface electromyography was parabolic (concave-down), peaking at 30-50% of the endurance time., Conclusion: Establishment of which muscle locations provide the best information and knowledge of the recruitment patterns are essential for the development of clinical diagnostic procedures and rehabilitation protocols.

Published

1997

8. The effect of fatigue on multijoint kinematics, coordination, and postural stability during a repetitive lifting test.

Author

Sparto PJ, Parnianpour M, Reinsel TE, and Simon S

Subjects

Adult, Cumulative Trauma Disorders etiology, Cumulative Trauma Disorders physiopathology, Exercise Test, Humans, Kinetics, Low Back Pain physiopathology, Male, Posture, Reference Values, Cumulative Trauma Disorders diagnosis, Joint Instability complications, Low Back Pain etiology, Muscle Fatigue physiology, Weight Lifting

Abstract

Because of the inability of strength tests to accurately discriminate between low back pain patients and healthy subjects, a multifactorial evaluation of low back pain patients is warranted. It is postulated that measurements of endurance, kinematics, postural stability, and coordination, in addition to strength, are necessary to fully document the patients' functional capabilities. This research study was conducted in order to understand the effects of fatigue on the above factors. Twelve healthy male subjects performed a repetitive lifting test in which a submaximal load was lifted at a maximal rate. Knee, hip, and trunk motion was measured using videography and electrogoniometry, postural stability was measured using a forceplate, and coordination parameters were determined using phase-plane analysis. Fatigue was documented by a 31% reduction in lifting power. At the end of the endurance test, there was less knee and hip range of motion and greater spine peak flexion, while the coordination measures demonstrated that there was greater hip and lumbar spine extension earlier in the lifting phase. The postural stability declined as the test endured. Utilization of these measures may guide physical therapists in their rehabilitation of low back pain patients.

Published

1997

9. The influence of initial horizontal weight placement on the loads at the lumbar spine while lifting.

Author

Schipplein OD, Reinsel TE, Andersson GB, and Lavender SA

Subjects

Adolescent, Adult, Humans, Leg physiology, Lifting, Male, Posture physiology, Lumbar Vertebrae physiology, Weight Lifting physiology

Abstract

Study Design: This was a biomechanical study of the effect of the initial horizontal distance between a person lifting and the load. Experimental data were analyzed using a dynamic rigid link model., Objective: To determine the effect of the initial horizontal load placement on the moments acting on the lumbar spine and the lower extremity joints during lifting, and to determine the role of the lower extremities during lifting from the floor., Summary of Background Data: Epidemiologic studies have implicated lifting as a cause of back pain, and over 80% of all worker's compensation back injuries are considered to be caused by manual material handling Guidelines have been proposed to increase the safety of lifting, but they are primarily based on static biomechanical analyses, psychophysical data, and physiologic limitations., Methods: Each of 12 male subjects lifted a weight box containing 0 to 300 N, in 100-N increments. Each subject performed 20 lifts--four weights at five horizontal distances (20, 30, 40, 50 and 60 cm). Motion was measured with an optoelectronic system, ground reaction forces were measured with a force plate, and moments were calculated using a rigid link model., Results: The peak predicted L5-S1 moment increased as the weight and horizontal distance increased. The influence of horizontal distance on moment magnitude was nonlinear. As the distance changed from 20 to 40 cm, the distance-related rate of increase was approximately one-half of that occurring with a distance change from 40 to 60 cm. This can be explained by the need to reach out further, beyond 40 cm, which is accomplished by a deeper flexion of the knees and ankles and an anterior translation of the upper body and arms., Conclusion: As the horizontal distance at the start of a lift increased, the peak moment acting on the lumbar spine also increased, but the increase was nonlinear. This is explained by a change in the technique of lifting when the distance is 40 cm or greater.

Published

1995

10. Progressive paraspinal muscle atrophy presenting as low-back pain: case report.

Author

Reinsel TE, Grobler LJ, and Meriam C

Subjects

Aged, Follow-Up Studies, Humans, Low Back Pain diagnosis, Low Back Pain therapy, Magnetic Resonance Imaging, Male, Psoas Muscles pathology, Tomography, X-Ray Computed, Low Back Pain etiology, Muscular Atrophy, Spinal diagnosis, Muscular Atrophy, Spinal therapy

Published

1995

11. Spinal subdural hematoma: a rare cause of recurrent postoperative radiculopathy.

Author

Reinsel TE, Goldberg E, Granato DB, Wilkinson S, and Penn R

Subjects

Adult, Hematoma, Subdural diagnostic imaging, Hematoma, Subdural surgery, Humans, Intervertebral Disc Displacement surgery, Laminectomy, Lumbar Vertebrae surgery, Magnetic Resonance Imaging, Male, Myelography, Nerve Compression Syndromes diagnostic imaging, Nerve Compression Syndromes surgery, Tomography, X-Ray Computed, Hematoma, Subdural complications, Nerve Compression Syndromes etiology, Postoperative Complications diagnostic imaging, Postoperative Complications surgery, Spinal Nerve Roots diagnostic imaging, Spinal Nerve Roots surgery

Abstract

Spinal subdural hematoma is a rare condition with numerous etiologies. It is even more rare in the postoperative period and must be differentiated from the more common causes of postoperative pain and radiculopathy. We report a 36-year-old man presenting 6 weeks after surgery with incapacitating pain who was found to have a subdural but extraarachnoid fluid collection. We describe clinical presentation, radiological findings, etiology, and treatment. We conclude that, although rare, the spinal subdural hematoma should be considered in patients with postoperative pain. Prompt recognition and surgical evacuation are important for optimal recovery.

Published

1993

12. Reconstruction of the digital pulley in the monkey using biologic and nonbiologic materials.

Author

Kain CC, Manske PR, Reinsel TE, Rouse AM, and Peterson WW

Subjects

Animals, Fascia Lata transplantation, Fingers pathology, Macaca mulatta, Nylons, Postoperative Period, Tendons pathology, Bioprosthesis, Fingers surgery, Prostheses and Implants, Tendons surgery

Abstract

A-2 pulleys were replaced in the hand of the nonhuman primate; on the long/little fingers the pulleys were reconstructed with a woven nylon fabric (Nitex), and on the ring/index fingers the pulleys were reconstructed with fascia lata. The opposite unoperated hand served as a control. At 2, 3, and 6 months postoperative, the animals were killed to compare the function of the reconstructed pulleys with the control pulleys of the opposite digit. Using a tensile testing machine, two parameters, work of flexion and tendon excursion, showed that both pulley reconstructions permitted minimal tendon bow-stringing and had excellent gliding function. Both materials increased in strength over time to become stronger than the control pulley. Histologic examination showed no foreign body reaction to the Nitex; excellent fibrous ingrowth into the woven nylon was seen, which matured in time. The surface of the Nitex pulley facing the tendon developed and maintained a synovial-like gliding surface. The Nitex pulley compared favorably with the fascial pulley biomechanically and histologically; both reconstructed pulleys functioned well compared with normal pulleys.

Published

1988