Quantitative Monitoring of Bone Formation in Ankylosing Spondylitis Using Computed Tomography

2014 ◽  
pp. 131-158
Author(s):  
Sovira Tan
Keyword(s):  
Computed Tomography ◽  
Ankylosing Spondylitis ◽  
Bone Formation ◽  
Quantitative Monitoring

scholarly journals POS1002 BASELINE CALPROTECTIN AND VISFATIN LEVELS PREDICT RADIOGRAPHIC SPINAL PROGRESSION AFTER 2 YEARS IN ANKYLOSING SPONDYLITIS PATIENTS ON TNF INHIBITOR THERAPY

2021 ◽  
Vol 80 (Suppl 1) ◽  
pp. 769.2-770
Author(s):  
J. Rademacher ◽  
M. Siderius ◽  
L. Gellert ◽  
F. Wink ◽  
M. Verba ◽  
...  
Keyword(s):  
Risk Factors ◽  
Logistic Regression ◽  
Ankylosing Spondylitis ◽  
Bone Formation ◽  
Bone Turnover ◽  
Radiographic Progression ◽  
Serum Levels ◽  
Tnf Inhibitor ◽  
Research Support

Background:Radiographic spinal progression determinates functional status and mobility in ankylosing spondylitis (AS)1.Objectives:To analyse whether biomarker of inflammation, bone turnover and adipokines at baseline or their change after 3 months or 2 years can predict spinal radiographic progression after 2 years in AS patients treated with TNF-α inhibitors (TNFi).Methods:Consecutive AS patients from the Groningen Leeuwarden Axial Spondyloarthritis (GLAS) cohort2 starting TNFi between 2004 and 2012 were included. The following serum biomarkers were measured at baseline, 3 months and 2 years of follow-up with ELISA: - Markers of inflammation: calprotectin, matrix metalloproteinase-3 (MMP-3), vascular endothelial growth factor (VEGF) - Markers of bone turnover: bone-specific alkaline phosphatase (BALP), serum C-terminal telopeptide (sCTX), osteocalcin (OC), osteoprotegerin (OPG), procollagen typ I and II N-terminal propeptide (PINP; PIINP), sclerostin. - Adipokines: high molecular weight (HMW) adiponectin, leptin, visfatinTwo independent readers assessed spinal radiographs at baseline and 2 years of follow-up according to the modified Stoke Ankylosing Spondylitis Spine Score (mSASSS). Radiographic spinal progression was defined as mSASSS change ≥2 units or the formation of ≥1 new syndesmophyte over 2 years. Logistic regression was performed to examine the association between biomarker values at baseline, their change after 3 months and 2 years and radiographic spinal progression. Multivariable models for each biomarker were adjusted for mSASSS or syndesmophytes at baseline, elevated CRP (≥5mg/l), smoking status, male gender, symptom duration, BMI, and baseline biomarker level (the latter only in models with biomarker change).Results:Of the 137 included AS patients, 72% were male, 79% HLAB27+; mean age at baseline was 42 years (SD 10.8), ASDAScrp 3.8 (0.8) and mSASSS 10.6 (16.1). After 2 years of follow-up, 33% showed mSASSS change ≥2 units and 24% had developed ≥1 new syndesmophyte. Serum levels of biomarkers of inflammation and bone formation showed significant changes under TNFi therapy, whereas adipokine levels were not altered from baseline (Figure 1).Univariable logistic regression revealed a significant association of baseline visfatin (odds ratio OR [95% confidence interval] 1.106 [1.007-1.215]) and sclerostin serum levels (OR 1.006 [1.001-1.011]) with mSASSS progression after 2 years. Baseline sclerostin levels were also associated with syndesmophyte progression (OR 1.007 [1.001-1.013]). In multivariable logistic analysis, only baseline visfatin level remained significantly associated (OR 1.465 [1.137-1.889]) with mSASSS progression. Furthermore, baseline calprotectin showed a positive association with both, mSASSS (OR 1.195 [1.055-1.355]) and syndesmophyte progression (OR 1.107 [1.001-1.225]) when adjusting for known risk factors for radiographic progression.Univariable logistic regression showed that change of sclerostin after 3 months was associated with syndesmophytes progression (OR 1.007 [1.000-1.015), change of PINP level after 2 years was associated with mSASSS progression (OR 1.027 [1.003-1.052]) and change of visfatin after 2 years was associated with both measures of radiographic progression – mSASSS (OR 1.108 [1.004-1.224]) and syndesmophyte formation (OR 1.115; [1.002-1.24]). However, those associations were lost in multivariable analysis.Conclusion:Independent of known risk factors, baseline calprotectin and visfatin levels were associated with radiographic spinal progression after 2 years of TNFi. Although biomarkers of inflammation and bone formation showed significant changes under TNFi therapy, these changes were not significantly related to radiographic spinal progression in our cohort of AS patients.References:[1]Poddubnyy et al 2018[2]Maas et al 2019Acknowledgements:Dr. Judith Rademacher is participant in the BIH-Charité Clinician Scientist Program funded by the Charité –Universitätsmedizin Berlin and the Berlin Institute of Health.Disclosure of Interests:Judith Rademacher: None declared, Mark Siderius: None declared, Laura Gellert: None declared, Freke Wink Consultant of: AbbVie, Maryna Verba: None declared, Fiona Maas: None declared, Lorraine M Tietz: None declared, Denis Poddubnyy: None declared, Anneke Spoorenberg Consultant of: Abbvie, Pfizer, MSD, UCB, Lilly and Novartis, Grant/research support from: Abbvie, Pfizer, UCB, Novartis, Suzanne Arends Grant/research support from: Pfizer.

scholarly journals AB1087 DETECTING AXIAL AND PERIPHERAL NEW BONE FORMATION IN SPONDYLOARTHRITIS PATIENTS USING [18F]FLUORIDE PET-CT IMAGING

2020 ◽  
Vol 79 (Suppl 1) ◽  
pp. 1832.2-1833
Author(s):  
J. De Jongh ◽  
R. Hemke ◽  
G. C. J. Zwezerijnen ◽  
M. Yaqub ◽  
I. Van der Horst-Bruinsma ◽  
...  
Keyword(s):  
Ankylosing Spondylitis ◽  
Bone Formation ◽  
Ct Imaging ◽  
Whole Body ◽  
Therapeutic Effects ◽  
New Bone Formation ◽  
Research Support ◽  
Patella Tendon ◽  
Pet Ct ◽  
18F Fluoride

Background:Bone formation in spondyloarthritis (SpA) is presumably related to local enthesitis/peri-articular inflammation and ultimately may lead to functional limitation (1,2). X-rays only allow long-term monitoring of bone formation (≥2 years) (3). Imaging techniques that can visualize bone formation at an early stage would therefore be valuable. Positron Emission Tomography (PET) using [18F]Fluoride can visualize and quantify (early changes in) bone formation at molecular level (4).Objectives:To investigate the feasibility of [18F]Fluoride to assess new bone formation at axial and peripheral enthesial sites in SpA patients.Methods:Thus far, 5 of the total of 15 patients with clinically active ankylosing spondylitis (AS) (according to modified New York criteria and BASDAI ≥4) and 8 of the 25 patients with active psoriatic arthritis (PsA) (according to CASPAR criteria and ≥1 clinically active enthesitis) were included. Of each patient, a whole body [18F]Fluoride PET-CT scan was performed. All scans were visually judged and scored dichotomously by one reader (blinded for clinical data) for PET-positive lesions in the spine, peripheral enthesis sites and joints. Low dose CT was used for anatomical reference.Results:The study is ongoing, with whole body [18F]Fluoride PET-CT scans available in five AS patients and eight PsA patients. In 4/5 AS scans, at least (≥1) PET positive lesions were found in the cervical, thoracic and/or lumbar vertebrae. These were mainly found in anterior corners of vertebrae and bridging syndesmophytes (Fig. 1A). In all eight PsA patients, at least 1 PET positive lesion was visualized, projected either at the site of a tendon attachment (fascia plantaris, achilles- and patella tendon (Fig 1B)) or peri-articularly (in the ankle or wrist).Fig 1.[18F]Fluoride uptake in the cervical, thoracic and lumbar spine in a clinically active AS patient (A) and in the patella tendon of the right knee in a clinically active PsA patient (B)Conclusion:[18F]Fluoride PET uptake, reflecting new bone formation, can be visualized at heterogeneously distributed enthesis and (peri-)articular sites in AS- and PsA patients. The technique therefore is sensitive to visualize new bone formation and may reflect local disease activity. Additional scans will be collected and analyzed quantitatively, also after anti-TNF or Secukinumab treatment, to further investigate the applicability of [18F]Fluoride PET for monitoring of therapeutic effects on bone formation in SpA.References: :[1]Maksymowych WP, Mallon C, Morrow S, Shojania K, Olszynski WP, Wong RL, et al. Development and validation of the Spondyloarthritis Research Consortium of Canada (SPARCC) Enthesitis Index. Ann Rheum Dis. 2009;68(6):948-53.[2]Rezvani A, Bodur H, Ataman S, Kaya T, Bugdayci DS, Demir SE, et al. Correlations among enthesitis, clinical, radiographic and quality of life parameters in patients with ankylosing spondylitis. Mod Rheumatol. 2014;24(4):651-6.[3]Rudwaleit M, Khan MA, Sieper J. The challenge of diagnosis and classification in early ankylosing spondylitis: do we need new criteria? Arthritis Rheum 2005;52:1000-8..[4]Bruijnen ST, Verweij NJF, van Duivenvoorde L, Bravenboer N, Baeten D, van Denderen JC, et al. [18F]Fluoride PET-CT imaging of bone formation in ankylosing spondylitis before and after 12 weeks of anti-TNF treatment. 2017.Acknowledgments:We thank EULAR Foreum, Pfizer and Novartis for financial support of this investigator initiated study.Disclosure of Interests:Jerney de Jongh: None declared, Robert Hemke: None declared, Gerben C.J. Zwezerijnen: None declared, Maqsood Yaqub: None declared, Irene van der Horst-Bruinsma Grant/research support from: AbbVie, Novartis, Eli Lilly, Bristol-Myers Squibb, MSD, Pfizer, UCB Pharma, Consultant of: AbbVie, Novartis, Eli Lilly, Bristol-Myers Squibb, MSD, Pfizer, UCB Pharma, Marleen G.H. van de Sande Grant/research support from: Novartis, Eli lily, UCB, Jansen, Consultant of: Abbvie, Novartis, Eli lily, MSD, Arno Van Kuijk: None declared, Irene Bultink: None declared, Lot Burgemeister: None declared, Nancy M.A. van Dillen: None declared, Alexandre Voskuyl: None declared, Conny J. van der Laken: None declared

scholarly journals Longitudinal in vivo evaluation of bone regeneration by combined measurement of multi-pinhole SPECT and micro-CT for tissue engineering

2015 ◽  
Vol 5 (1) ◽  
Author(s):  
Philipp S. Lienemann ◽  
Stéphanie Metzger ◽  
Anna-Sofia Kiveliö ◽  
Alain Blanc ◽  
Panagiota Papageorgiou ◽  
...  
Keyword(s):  
Computed Tomography ◽  
High Resolution ◽  
Bone Formation ◽  
Bone Regeneration ◽  
Bone Defects ◽  
Histological Evaluation ◽  
Biological Processes ◽  
Micro Ct ◽  
Pinhole Spect

Abstract Over the last decades, great strides were made in the development of novel implants for the treatment of bone defects. The increasing versatility and complexity of these implant designs request for concurrent advances in means to assess in vivo the course of induced bone formation in preclinical models. Since its discovery, micro-computed tomography (micro-CT) has excelled as powerful high-resolution technique for non-invasive assessment of newly formed bone tissue. However, micro-CT fails to provide spatiotemporal information on biological processes ongoing during bone regeneration. Conversely, due to the versatile applicability and cost-effectiveness, single photon emission computed tomography (SPECT) would be an ideal technique for assessing such biological processes with high sensitivity and for nuclear imaging comparably high resolution (<1 mm). Herein, we employ modular designed poly(ethylene glycol)-based hydrogels that release bone morphogenetic protein to guide the healing of critical sized calvarial bone defects. By combined in vivo longitudinal multi-pinhole SPECT and micro-CT evaluations we determine the spatiotemporal course of bone formation and remodeling within this synthetic hydrogel implant. End point evaluations by high resolution micro-CT and histological evaluation confirm the value of this approach to follow and optimize bone-inducing biomaterials.

OP0111 Mechanism of New Bone Formation in Ankylosing Spondylitis: the Role of IL-32 in Osteoblast Differentiation

2014 ◽  
Vol 73 (Suppl 2) ◽  
pp. 103.1-103
Author(s):  
S. Hong ◽  
E.-J. Lee ◽  
Y.J. Kim ◽  
B.S. Koo ◽  
E.-J. Chang ◽  
...  
Keyword(s):  
Ankylosing Spondylitis ◽  
Bone Formation ◽  
Osteoblast Differentiation ◽  
New Bone Formation
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