measuring inter-vertebral range of motion: how and why with clinical examples
TRANSCRIPT
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MEASURING INTER-VERTEBRAL MOTION
IN-VIVO WITH QUANTITATIVE FLUOROSCOPY
Fiona Mellor BSc (Hons). PhD Student.Research Radiographer/Associate Clinical Doctoral Research Fellow
Institute for Musculoskeletal Research and Clinical Implementation
Anglo-European College of Chiropractic/Bournemouth University
U.K.
How and Why: with examples of normative and patient data
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Objectives Place Bournemouth U.K. on the map Importance of inter-vertebral
measurements Using QF to measure inter-vertebral
motionLumbar and Cervical spineMeasurement parameters
Case study Current research
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http://www.aecc.ac.uk/
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Why measure intervertebral motion?
TreatmentRehabilitation
ResearchIn vitroIn vivo
DisabilityAmerican Medical Association: AOMSI
DiagnosisPseudarthrosisMechanical low back pain: passive
and active motion, palpation tests“Instability”
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Past – Present - Future
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In vitro analysis
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f
Def
orm
atio
n (d
egre
es)
lax
normal
Neutral zone
Elastic zone
Failure
Plastic zone
Almost all changes to the force (time)/deformation curve occur in the elastic zone.
The neutral zone, taken as the slope of its initial
climb under 2 kg of force, is largely linear.
2 kg
Neutral Zone Theory
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Quantitative Fluoroscopy
Biomechanical
Hypothesis
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In vivo Passive and active Lumbar and cervical spine Measurements include:
Rotation Translation Instantaneous centres of rotation
Quantitative Fluoroscopy
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The Bigger Picture Are there differences in the measurable
spine kinematics of people with CNSLBP compared with those without? If so..
Are the factors in people with CNSLBP identifiable? If so...
Do changes in them predict outcome? If so..
Can we change them?
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Quantitative FluoroscopyAcquisition Image Analysis Output
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Image analysis
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Vertebral rotation
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Inter-vertebral rotation
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Flexion Extension(mm)
Translation
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Instantaneous Centre’s of Rotation (ICR’s)
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Clinical example ICR’s in a degenerate spine
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Case study: Female age 49
30 year history of non specific LBP which resolved from 2002 – 2010, then recurred after an RTA in March 2010. Prone pressure test (L5) positive. Original investigations (1993 x-ray then MRI) revealed grade 1 L5/S1 spondylolisthesis and L-S disc degeneration.
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Case study: Female age 49
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Case study: Female age 49
Left Right
L1/2 4.69 2.88
L2/3 4.46 4
L3/4 3.83 3.69
L4/5 5.59 5.59
L5/S1 1.95 1.95
Flex ExtL1/2 2.13 4.33L2/3 3.59 3.79L3/4 4.55 2.14L4/5 5.1 3.2L5/S1 7.24 9.02
Rotation
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Case study: Female age 49 L5 Grade II spondylolisthesis with little or no
degenerative change or other anomaly. Reduced extension rotational motion in upper lumbar segments with increased motion at the spondylolisthesis level in both flexion and extension. Normal directions and no laxity detected. However, total translational (flexion + extension) at L5-S1 was 4.9mm which, taking error into account, may border on abnormal.
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Case study: Female age 49 Treatment:
Patient wanted to avoid surgery. Extension mobilisation at the upper lumbar levels, 4 treatments over 2 months.
Home rehab (foam roll)Maintain normal activity
Outcome:Pain score reduced from 6/10 to 2/10Normal activity resumed apart from fast
swimming (aggravates extension)
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QF research at AECC1. Characteristics of lumbar spine intervertebral
kinematics in healthy adults and their reproducibility over time
N = 269 normative study N = 108 intra subject repeatability study Protocol:
Trunk swingAge 21-71yearsRecumbent passive AND weight-bearingCoronal OR sagittal orientations
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Weight-bearing acquisition
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Passive Vs Active motion
With kind permission from Orthokinematics.com
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Healthy Passive Vs Active motion
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Healthy recumbent passive flexionIn
ter-
vert
ebra
l ang
le (
o)
Time (15 frames = 1 second)
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Healthy weight-bearing flexion
Time (15 frames = 1 second)
Inte
r-ve
rteb
ral a
ngle
(o)
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QF Studies at AECC2. Effects of manipulation of the cervical
spine on inter-vertebral motion patterns and patient reported outcomes
N = 60 (30 patients, 30 matched healthy volunteers).
Baseline and 6 week Active guided motion
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Cervical spine acquisition
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Cervical spine rotationin a patient with whiplash
Flexion
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Whiplash (flexion)Normal IAR location(Amevo et al, 1992) (n=46)
C1-2
C2-3
C3-4
C4-5
C5-6
C6-7
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PhD. Mid-lumbar inter-vertebral motion in participants with and without chronic non
specific low back pain
N = 80. (40 each group) Matched cohort for age, gender and BMI.
Chronic Mechanical LBP > 3/12 duration Hip swing protocol 40o in each direction L2-L5
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Outline Hypothesis: There will be a greater
prevalence of ‘abnormal’ motion in those with CNSLBP than healthy controls.
Abnormal defined as fixations (RoM < 3o) and increased laxity (Neutral Zone proxy) in first 10 degrees of trunk motion
Analysis: Sensitivity and Specificity of abnormal motion
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Results to date: Demographics
Patients Controls
N = 39 36
Age years (SD)
36.2 (8.4) 35.2 (8.4)
% male 56% (n=22) 53% (n=19)
BMI (SD) 24.8 (2.9) 24.5 (2.2)
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Left
Left
Preliminary results
Fiona Mellor
PhD study
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Results
Preliminary results
Fiona Mellor
PhD study
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Accuracy and ReliabilityMotion
parameterPlane of motion
Accuracy against
calibration model (root
mean square)
Inter observer reliability
(root mean square)
Intra observer reliability (SEM)
Intra subject variability
(root mean square)
Lumbar spine passive recumbent rotation (3)
Coronal (left/right)
0.32o 1.86 o N/A (TBC) 2.75 o - 2.91 o
Sagittal (flex/ext)
0.52 o 1.94 o N/A (TBC) N/A (TBC)
Lumbar spine passive recumbent translation
Flexion 0.6mm (10) 1.674mm (2) 1.427mm (2) N/A (TBC)
Extension 0.79mm (10) 1.736mm (2) 1.958mm (2) N/A (TBC)
Cervical spine active controlled motion (1)
Flexion 0.21 o N/A (TBC) 0.52 o N/A (TBC)
Extension 0.34 o N/A (TBC) 1.08 o N/A (TBC)
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Radiation DoseAbsorbed dose cGy.cm2
(SD)
Calculated Effective dose mSv (SD)
QF recumbent lumbar spine coronal and sagittal
613 (150) 0.561 (0.154)
QF weight-bearing lumbar spine coronal and sagittal
662.9 (171) 0.77 (0.18)
AP + Lateral lumbar spine radiograph
460 0.39 -1.2
Absorbed dose cGy.cm2 (SD)
Calculated Effective dose mSv (SD)
QF cervical spine sagittal
42.8 (9) 0.01 (0.003)
Lateral cervical radiograph
0.012
Estimated effective dose (mSv)
Transatlantic flight 0.07
CT head 1.4
UK annual background dose (average) 2.7
USA annual background dose (average) 6.2
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Thanks for listening
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References Breen, A. (2011). Quantitative fluoroscopy and the mechanics of the lumbar spine. Department of
Medical Physics, Open University. MSc. Breen, A., Muggleton, J., Mellor, F. (2006). "An objective spinal motion imaging assessment
(OSMIA): reliability, accuracy and exposure data." BMC Musculoskeletal Disorders 7(1): 1-10. Hart, D., Hillier, M.A., Wall, B.F. (2005). Doses to patients from medical x-ray examinations in the
UK. Review, National Radiation Protection Board (NRPB). Health Protection Agency (HPA). (2008). "Typical effective doses, equivalent periods of natural
background radiation and lifetime fatal cancer risks from diagnostic medical exposures." Retrieved 13.03, 2012, from http://www.hpa.org.uk/web/HPAweb&HPAwebStandard/HPAweb_C/1195733826941.
Health Protection Agency (HPA). (2009). "Recommended national reference doses for individual radiographs on adult patients - 2000 review." Retrieved 31.1.2012, from http://www.hpa.org.uk/web/HPAweb&HPAwebStandard/HPAweb_C/1195733771087.
HPA. (2010). "Patient Dose information." Retrieved 24.08, 2010, from http://www.hpa.org.uk/web/HPAweb&HPAwebStandard/HPAweb_C/1195733826941.
Mellor, F. E., J. M. Muggleton, et al. (2009). "Midlumbar Lateral Flexion Stability Measured in Healthy Volunteers by In Vivo Fluoroscopy." Spine 34(22): E811-E817.
Mellor, F. E., P. Thomas, et al. (2012). "Radiation dose from quantitative fluoroscopy for investigating in vivo kinematics of the lumbar spine; compared to lumbar spine radiographs with suggestions for further dose reduction." British Journal of Radiology submitted.
Van Loon, I., F. E. Mellor, et al. (2012). "Accuracy and repeatability of sagittal translation of lumbar vertebrae in vitro and in vivo using continuous quantitative fluoroscopy." Clinical Chiropractic Submitted.
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Questions and Comments?
Fiona Mellor
Acknowledgements:National Institute of Health. Clinical Academic Training Fellowship.Bournemouth University Santander travel award.Anglo-European College of ChiropracticOrthokinematicsProfessor Alan Breen and the team at IMRCIProfessor Nat Ordway and the team at SUNY