A revised nomenclature for allergy: An EAACI position statement from the EAACI nomenclature task force

This study provide support for the utility of this device for quantifying movement impairments in individuals with fairly low levels of LBP and general functional limitations. The results show that velocity measurements rather than ROM show the greatest differences in individuals with LBP compared with asymptomatic participants. Impaired lumbar and pelvis movement was correlated to the individuals with LBP's degree of anxiety, fear, and catastrophizing.

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Comparative evaluation of a novel measurement tool to assess lumbar spine posture and range of motion

Consmüller¹,

Rohlmann

Weinland³

et al. 2012

Eur Spine J

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Purpose The diagnosis of low back pain pathology is generally based upon invasive image-based assessment of structural pathology, but is limited in methods to evaluate function. The accurate and robust measurement of dynamic function may assist in the diagnosis and monitoring of therapy success. Epionics SPINE is an advanced straingauge measurement technology, based on the two sensor strips SpineDMS system, which allows the non-invasive assessment of lumbar and thoraco-lumbar motion for periods of up to 24 h. The aim of this study was to examine the reliability of Epionics SPINE and to collect and compare normative data for the characterisation of spinal motion in healthy subjects. Furthermore, the identification of parameters that influence lumbar range of motion (RoM) was targeted. Methods Spinal shape was measured using Epionics SPINE in 30 asymptomatic volunteers during upright standing, as well as maximum flexion and extension, to check intra-rater reliability. Furthermore, back shape was assessed throughout repeated maximum flexion and extension movements in 429 asymptomatic volunteers in order to collect normative data of the lordosis angle and RoM in different gender and age classes. Results The lordosis angle during standing in the healthy collective measured with Epionics SPINE was 32.4°± 9.7°. Relative to this standing position, the average maximum flexion angle was 50.8°± 10.9°and the average extension angle 25.0°± 11.5°. Comparisons with X-ray and Spinal Mouse data demonstrated good agreement in static positions. Age played a larger role than gender in influencing lumbar posture and RoM. Conclusions The Epionics SPINE system allows the practical and reliable dynamic assessment of lumbar spine shape and RoM, and may therefore provide a clinical solution for the evaluation of lower back pain as well as therapy monitoring.

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Velocity of Lordosis Angle during Spinal Flexion and Extension

Consmüller¹,

Rohlmann

Weinland³

et al. 2012

PLoS ONE

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The importance of functional parameters for evaluating the severity of low back pain is gaining clinical recognition, with evidence suggesting that the angular velocity of lordosis is critical for identification of musculoskeletal deficits. However, there is a lack of data regarding the range of functional kinematics (RoKs), particularly which include the changing shape and curvature of the spine. We address this deficit by characterising the angular velocity of lordosis throughout the thoracolumbar spine according to age and gender. The velocity of lumbar back shape changes was measured using Epionics SPINE during maximum flexion and extension activities in 429 asymptomatic volunteers. The difference between maximum positive and negative velocities represented the RoKs. The mean RoKs for flexion decreased with age; 114°/s (20–35 years), 100°/s (36–50 years) and 83°/s (51–75 years). For extension, the corresponding mean RoKs were 73°/s, 57°/s and 47°/s. ANCOVA analyses revealed that age and gender had the largest influence on the RoKs (p<0.05). The Epionics SPINE system allows the rapid assessment of functional kinematics in the lumbar spine. The results of this study now serve as normative data for comparison to patients with spinal pathology or after surgical treatment.

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A novel system for the dynamic assessment of back shape

Taylor

Consmüller

Rohlmann

2010

Medical Engineering & Physics

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Measurement of the number of lumbar spinal movements in the sagittal plane in a 24-hour period

Rohlmann

Consmüller²,

Dreischarf

et al. 2014

Eur Spine J

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Tobias Consmüller

Measurement of Lumbar Spine Functional Movement in Low Back Pain

Comparative evaluation of a novel measurement tool to assess lumbar spine posture and range of motion

Velocity of Lordosis Angle during Spinal Flexion and Extension

A novel system for the dynamic assessment of back shape

Measurement of the number of lumbar spinal movements in the sagittal plane in a 24-hour period

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