1
14/05/2015
SPECT/CT in degenera/ve facet disease
Tim Van den Wyngaert MD PhD Department of Nuclear Medicine -‐ Antwerp University Hospital Faculty of Medicine and Health Sciences -‐ University of Antwerp
Antwerp, BELGIUM
ESNR Spine Course
• Principles of bone scin.graphy
• Op.mal image acquisi.on for assessment of facet joints
• Can SPECT predict benefit of intra-‐ar.cular treatment
• Op.mal treatment strategy of SPECT-‐posi.ve facet joints
• Addi.onal value of SPECT/CT
• Radia.on exposure issues in SPECT/CT
• Conclusions
2
Overview
• Bone scan ≠ Bone scan • Technique maGers!
3
Nuclear medicine techniques
1950 1960 1970 2015
PET(/CT)
SPECT(/CT)
Bone scin/graphy reflects local bone turnover
4
Principle of bone scin.graphy
Adapted from Weilbaecher KN, Guise TA, McCauley LK. Nat Rev Cancer 2011; 11: 411-425. Ballinger JR. In I. Fogelman et al. (eds.), Radionuclide and Hybrid Bone Imaging, Springer-Verlag Berlin Heidelberg 2012.
Osteoblast RANK RANKL
HSC
Pre-osteoclast
M-CSF • Growth factors • Calcium
MSC
Pre-osteoblast
Osteoblast
Osteocyte
Osteoprotegerin
Osteoid
• High sensi.vity • Local blood supply • Low specificity • Improved techniques
Causes • Normal ageing • Accelerated degenera.on and increased stress in the mo.on
segments adjacent to fusion aMer spinal surgery Consequences • Pain • May lead to spondylolysis and spondylolisthesis
(postopera.ve incidence between 11 -‐ 14%[1]) Controversies • How to determine who will benefit from treatment? • Overlap with asymptoma.c degenera.ve findings[2]
Degenera.ve facet joint disease
1. Hambly MF, et al. Spine. 1998;23(16):1785-‐92. 2. Vogt MT, et al. Spine. 1998;23(23):2640-‐7. 6
Limita.ons of planar imaging
PLANAR
ANTERIOR
POSTERIOR
SPECT/CT SPECT
2
SPECT outperforms planar bone scan in iden/fying pain generators, including facet joint disease • Higher sensi.vity because of improved contrast • BeGer 3D anatomical localiza.on of abnormali.es • But spa.al resolu.on of SPECT is lower than planar imaging
7
SPECT is superior to planar images
Author, year N Technique Comparator Popula/on†
Sudhakar, 2010 20 SPECT ç Planar Back pain or spinal lesion on other imaging
Ryan, 1992 34 SPECT ç Planar Pa.ents with chronic low back pain
Gates, 1988 100 SPECT ç Planar Pa.ents with lumbosacral/pelvic pain
1. Sudhakar P, et al. Indian J Nucl Med 2010; 25: 44-‐8. 2. Ryan PJ, et al. Radiology 1992; 182: 849-‐854. 3. Gates GF. Clin Nucl Med 1988; 13: 907-‐914.
† Studies conducted exclusively in cancer pa.ents are not listed “ç” indicates the superior technique
What is the prevalence of SPECT posi/ve facet joints? • Retrospec.ve study (n=534) • Pa.ents with spinal pain, 389 with low back pain • Percentage with facet joint uptake: 44.5% (173/389) • Prevalence increased with age Æ Increased facet joint uptake
is a frequent finding on SPECT Æ Important to exclude other spinal
abnormali/es before interpre/ng as clinically relevant pain generator
8
SPECT-‐posi.ve facet joints
Makki D, et al. Spine J. 2010 Jan;10(1):58-‐62.
9
Trea.ng SPECT-‐posi.ve joints
Dolan AL, et al. Br J Rheumatol. 1996 Dec;35(12):1269-‐73.
0
10
20
30
40
50
60
70
0 1 3 6
Mean score
Months after therapy
SPECT + SPECT -‐
SPECT + McGill pain score
SPECT -‐
VAS pain score
*
* *
* p<0.05
Can SPECT select pa/ents who will benefit from therapy? • Prospec.ve study (n=58) • Suspicion of facet joint disease • Outcome of infiltra.on of
SPECT-‐posi.ve joints compared to infiltra.on of joints adjacent to symptoms
• Excluded if signs of nerve root compression
• Outcomes at 1, 3, and 6 months Æ SPECT predicts short-‐term benefit
Intra-‐ar/cular versus medial branch nerve block? • Double-‐blind randomized trial in pa.ents with SPECT-‐posi.ve
facet joints (n=46) • Exclusion if MRI evidence of lumbar disc hernia.on • Numeric Pain Intensity Scores (NPIS 0-‐10) and Oswestry
Disability Index scores (ODI 0-‐50) • Outcomes at 3 months reported (IA vs MB injec.on)
– Pain relief: 61% vs 26% (p<0.05) – Disability reduc.on: 53% vs 31% (p<0.05)
Æ Intra-‐ar/cular facet joint injec/ons are more effec/ve than medial branch nerve blocks in SPECT-‐posi/ve pa/ents
10
Trea.ng SPECT-‐posi.ve joints
Ackerman WE, et al. South Med J. 2008 Sep;101(9):931-‐4.
SPECT/CT useful in selected pa/ents with low back pain
11
Addi.onal value of SPECT/CT
Author, year N Technique Comparator Popula/on†
Sharma, 2013 99 SPECT/CT ç SPECT + Planar Solitary indeterminate lesion on planar BS
Sumer, 2013 37 SPECT/CT ç SPECT + Planar Pain aMer lumbar fusion surgery
Jiang, 2013 48 SPECT/CT ç SPECT Solitary indeterminate lesion on planar BS
Franc, 2012 100 SPECT/CT = SPECT Unselected pa.ents presen.ng for BS
Zhang, 2011 56 SPECT/CT ç SPECT Back pain or spinal lesion on other imaging
1. Sharma P, et al. Diagn Interv Radiol 2013; 19: 33-‐40. 2. Sumer J, et al. Nucl Med Commun 2013; 34: 964-‐70. 3. Jiang L, et al. Ann Nucl Med 2013; 27: 460-‐7. 4. Franc BL, et al. Clin Nucl Med 2012; 37: 26-‐34. 5. Zhang Y, et al. Nucl Med Commun 2011; 32: 1194-‐200.
† Studies conducted exclusively in cancer pa.ents are not listed “ç” indicates the superior technique
How can SPECT/CT improve diagnosis of facet joint disease? • Unlikely to increase sensi.vity • Increases specificity especially in the post-‐opera.ve spine • Allows diagnosis of spondylolysis and spondylolisthesis
Does SPECT/CT change diagnos/c yield compared to SPECT? • Retrospec.ve study of
SPECT (n=174) and SPECT/CT (n=395) in pts with low back pain
• Propensity score adjust-‐ ment to reduce bias
Æ SPECT/CT increases diagnos/c yield
Æ Reduces equivocal findings and aXribu/on to facet joint disease
Diagnos.c yield of SPECT/CT SPECT
Spondylolysis 14.93
8.83 Transition anomaly
8.80 Compression fracture
7.41 S urgical complication †
0.11 Equivocal finding
0.01 0.10 1 10 100 Higher reporting rate Lower reporting rate
Disc or end - plate 0.96
Facet joint 0.73
Sacro - iliac joint † 1.30
Other pathology 0.51
0.008
0.035
0.034
0.026
<0.001
0.686
0.001
0.170
0.441
+4.6%
+2.7%
+3.6%
+5.4%
- 15.8%
- 0.3%
- 13.4%
+5.5%
- 0.9%
p ARR (%) RR
Van den Wyngaert T, et al. Eur J Nucl Med Mol Imaging 2014; 41 (Suppl 2): S278 (OP540).
3
13
SPECT/CT in post-‐opera.ve spine • Pa.ent referred for bone scin.graphy 15 months aMer
lumbar spine fusion surgery • SPECT suggests facet joint involvement • SPECT/CT correctly localizes increased uptake to pedicle
screw. Associated radiolucency raises suspicion of loosening.
Adjacent segment degenera/on (ASD)
Facet-‐joint degenera.on
Recurrent low back pain 5 years after PLF L4-L5
Intense SPECT uptake with defect of pars interar/cularis on CT
Spondylolysis
Recurrent low back pain 1 year after PLF L4-L5
Grading of spondylolysis on SPECT/CT
Spondylolysis
Grade SPECT CT
0 Normal Normal
1 Increased Normal / degenera.ve changes
2 Increased Incomplete fracture
3 Increased Complete fracture
4 Normal Complete fracture
Ly JQ. Magn Reson Imaging Clin N Am. 2007 May;15(2):155-‐66.
Pseudoarthrosis and spondylolisthesis
Spondylolisthesis
2 years post-surgery
• The use of SPECT/CT is associated with addi.onal exposure to ionizing radia.on from the CT component
• Strategies to reduce pa/ent exposure – Bone scan: reduce injected dose (MBq)
• Novel reconstruc.on algorithms • Impact of count loss on lesion localiza.on is compensated by anatomical data from CT scan
– CT scan: reduce exposure • Itera.ve reconstruc.on algorithm and tube modula.on • Reduce image quality if only need for localiza.on (kVp) • Careful selec.on of scan length (FOV) • Skip if confident diagnosis on planar imaging alone
Dose vigilance
4
• Retrospec.ve study of SPECT/CT studies of the lumbar spine (n=395)
• Bone scan – Es.mated dose of 3.0 mSv for typical adult
• CT scan – CT dose index volume (CTDIvol) (mGy), dose length product (DLP) (mGy.cm) and scan length (cm)
– DLP (mGy.cm) was mul.plied with the body region-‐specific conversion factor for the abdomen (mSv/mGy.cm), yielding an es.mate of the effec.ve dose (mSv)
19
SPECT/CT radia.on exposure
Van den Wyngaert T, et al. Eur J Nucl Med Mol Imaging 2014; 41 (Suppl 2): S278 (OP540). 20
SPECT/CT radia.on exposure
1. Larkin AM, et al. Int J Mol Imaging 2011; doi 10.1155/2011/897202 (Symbia T6; 130kVp; tube current modula.on). 2. Sharma P, et al. Nucl Med Commun 2012; 33: 926-‐32 (Symbia T6; 130kVp; tube current modula.on). 3. Van den Wyngaert T, et al. Eur J Nucl Med Mol Imaging 2014; 41 (Suppl 2): S278 (OP540).
Mean DLP 189 mGy.cm (95% CI 176 – 201)
Mean dose 2.8 mSv (95% CI 2.6 – 3.0)
Larkin, et al[1] Sharma, et al[2] (n=395)[3] Low-‐dose SPECT/CT
573 333 189
Es/mated mean total dose of SPECT/CT study
5.8 mSv
≈ 2x natural annual exposure
• Degenera.ve facet joint disease can be reliably diagnosed with bone SPECT(/CT)
• SPECT/CT offers advantages in selected popula.ons, in par.cular aMer lumbar spine surgery
• Bone SPECT(/CT) can predict short-‐term benefit of facet joint infiltra.on
• In SPECT-‐posi.ve facet joints, intra-‐ar.cular infiltra.on is preferred over medial branch nerve block
• The radia.on exposure of bone SPECT/CT is approximately equal to 2 years of natural background exposure
• Bone scin.graphy remains an adjunct imaging modality for pa.ents with low back pain
21
Conclusions
