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Published byKylee Barrs Modified over 9 years ago
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Radiographic scoring in rheumatoid arthritis - The basics
Tuulikki Sokka, MD, PhD
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Learning Objectives History of different scoring methods
Basics of the most often used methods Interpretation of radiographic scores in clinical trials Clinical use of radiographs Radiographic outcomes in selected clinical cohorts
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History; the main methods
Steinbrocker 1949 Kellgren 1956 Sharp 1971 Van der Heijde modification Larsen 1973 modifications
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Steinbrocker method Stage I - IV Relates to “anatomic stages”
radiographs of hands&wrists The grade is determined by the worst change in any joint Limitations: narrow scale; bias toward the most severely affected joint
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Kellgren method 0-4, based on standard set of radiographs
“global” – one grade is given as a summation of abnormalities for all the joints in both hands and wrists Limitations: narrow scale; weighted to reflect the most damaged joints
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Sharp method (1) Purpose: to develop a quantitative assessment for radiographic changes in RA Included: Hands&wrists
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Sharp method (2) Initially, 10 features were analyzed:
Periosteal reaction Cortical thinning Osteoporosis Sclerosis Osteophyte formation Defects Cystic changes Surface erosions Joint space narrowing Ankylosis Reason to delete items: Rare Technical problems Secondary changes
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Sharp method (2) Initially, 10 features were analyzed:
Periosteal reaction Cortical thinning Osteoporosis Sclerosis Osteophyte formation Defects Cystic changes Surface erosions Joint space narrowing Ankylosis Rare Technical problems Secondary changes INCLUDED: Erosion score Joint space narrowing
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Sharp method (3) Erosion score; principles: Score 0-5 for each joint
one point for each erosion in each joint and 5 for total destruction 29 areas were analyzed in both hands+wrists – maximum possible score: 290
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Sharp method (4) Joint space narrowing score; principles
0 - normal 1 - focal narrowing 2 – reduction of <50% of joint space 3 – reduction of >50% of joint space 4 – ankylosis 27 areas in hands and wrists – max score 216
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Sharp method (5) How many joints? (1985) Factors to be considered:
Frequency of involvement Technical factors Minimum number of joints required in a patient population from mild to severe disease: 17 for erosions 18 for joint space narrowing ….. Still to decrease………………….
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Van der Heijde modification of the Sharp score
PRINCIPLES Feet included Number of hand joints decreased Scoring for erosions defined
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The Sharp/van der Heijde:
Joints to be scored for erosions
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The Sharp/van der Heijde:
Joints to be scored for joints space narrowing
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Sharp van der Heijde method (1) Erosions
Scoring of the hands: 16 areas included Score 0-5 per joint 1 – for discrete erosions 2-3 for larger erosions depending of the surface area involved 4 if erosion extends over middle of the bone 5 for complete collapse
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Sharp van der Heijde method (2) Erosions
Scoring of the feet: 10 MTP and 2 IP joints of big toes Score 0-5 per each side of the joint: total 0-10 1 – for discrete erosions 2-3 for larger erosions depending of the surface area involved 4 if erosion extends over middle of the bone 5 for complete collapse
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Sharp van der Heijde method (3) JSN, hands, feet
Joint space narrowing score; 15 areas for hands, 6 for feet 0 - normal 1 - focal narrowing 2 – reduction of <50% of joint space 3 – reduction of >50% of joint space 4 – ankylosis
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Sharp van der Heijde method (4)
Total scores: Erosion scores for hands 160 Erosion scores for feet 120 JSN for hands JSN for feet Total
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Larsen score (1) Background was a clinical observation:
“A man with RA Steinbrocker 4 running to a bus” Steinbrocker 4 is maximal damage Max damage and running to a bus do not match A better scoring method needed
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Larsen score (2) Reference films for each joint
Score 0-5 for each joint Scoring includes JSN and erosions Articular osteoporosis and soft tissue swelling were initially included but omitted later
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Larsen score (3) Which joints?
Scott 1995: 10 PIPs, 10 MCPs, 10 MTPs, wrists multiplied by 5 – total score 200 Kaarela & Kautiainen 1997: 10 MCPs, II-V MTPs, wrists not multiplied – total score 100
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Larsen 0-100
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Larsen scoring
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Larsen vs. Sharp Are significantly correlated
Pincus et al. J Rheumatol 1997 Larsen less time-consuming and easier overall scoring for each joint wrist analyzed as one joint lower number of joints
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Smallest Detectable Difference SDD
SDD is the smallest change that can be reliably discriminated from the measurement error of the scoring method SDD is based on defining measurement error and 95% limits of agreement Sharp vd Heijde on scale 448; SDD = 5 Larsen on scale 200; SDD = 5.8 Bruynesteyn et al. A&R 2002
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Minimal Clinically Important Difference MCID
MCID = progression with the highest combined sensitivity and specificity for detecting relevant progression Sharp vd Heijde on scale 448; MCID = 4.6 Larsen on scale 200; MCID = 2.3 In both, roughly 1% of the maximum Bruynesteyn et al. A&R 2002
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Radiographic scores in RCTs - interpretations
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Radiographic progression in selected clinical trials
Yazıcı Y, Yazıcı H, Arthritis Rheum 2006;54(supl)
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Low radiographic damage in current RCTs:
Table 3. Change from baseline in disease characteristics in the ITT population after 2 years of treatment in the TEMPO trial MTX (n = 206) Etan (n = 202) Etan + MTX (n = 212) Year 2 Total Sharp score (0-448) Mean (95% CI) (1.18, 5.50) 1.10 (0.13, 2.07) (-1.05,-0.06) Median (IQR) (-0.11, 2.33) 0.00 (-0.66, 1.08) (-1.41, 0.05) vdHeijde A&R2006
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Few patients have radiographic damage in current RCTs: Total Sharp vdHeijde score (0-448) in the TEMPO trial over 2 years vdHeijde A&R2006
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Measures of RA over time: short term vs. long term
Months - years Swollen joint count Tender joint count ESR, CRP Pain Functional capacity Global health by patient Global health by Dr (Radiographic damage; >1yr) = measures of disease activity Long term Years - decades Deformities Radiographic damage Joint replacements Functional capacity Comorbidity Work disability Costs Mortality = measures of outcomes Clinical cohorts, longitudinal observational studies, databases RCTs
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Radiographs – clinical use
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Two clusters of measures in RA
x-rays HAQ joint deformity disease duration pain RF+ joint tenderness joint swelling ESR, CRP age HLA-DR4 patient global work disability mortality Pincus, Sokka. Best Pract Res Clin Rheumatol. 2003
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The HAQ, CLINHAQ, or MDHAQ Patient Questionnaire – is Best Predictor in RA of…
Functional status (Pincus et al. Arthritis Rheum. 1984, Wolfe et al. J Rheumatol. 1991) Work disability (Borg et al. J Rheumatol 1991, Callahan et al. J Clin Epidemiol. 1992, Wolfe and Hawley. J Rheumatol. 1998, Fex et al. J Rheumatol 1998, Sokka et al. J Rheumatol 1999, Barrett et al. Rheumatology 2000, ) Costs (Lubeck et al. Arthritis Rheum. 1986) Joint replacement surgery (Wolfe and Zwillich. Arthritis Rheum. 1998) Death (Pincus et al. Arthritis Rheum. 1984, Ann Intern Med.1994, Wolfe et al. J Rheumatol 1988, Leigh&Fries J Rheumatol 1991, Wolfe et al. Arthritis Rheum. 1994, Callahan et al. Arthrits Care Res 1996, 1997, Soderlin et al. J Rheumatol 1998, Maiden et al. Ann Rheum Dis 1999, Sokka et al. Ann Rheum Dis 2004)
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Larsen & Thoen Scand J Rheumatol 1987
100% 75% 50% 25% 0% Damage score 0-100 Disease duration, years
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Fuchs et al. J Rheumatol 1989 100% Erosion score 0 - 4.33 75% 50% 25%
Disease duration, years
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Salaffi & Ferraccioli Scand J Rheumatol 1989
100% 75% 50% 25% 0% Erosion score Disease duration, years
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The Jyväskylä Experience
The Central Finland RA register includes all patients with diagnosis of RA since 1980’s; prospective in all patients since 1996 2,900 patients; 2,300 alive Covers a population of 265,000
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The North Pole
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Jyväskylä Central Hospital is the only rheumatology clinic in the Central Finland District and serves a population of 265,000 2 full-time rheumatologists and 1 trainee + 4 other rheumatologists
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The Central Finland RA Register
Patient demographics History of onset of RA Classification criteria Extra-articular features Comorbidities Relevant surgeries All previous and present DMARDs
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Patients with early arthritis
All new patients with RA are included; about 100 early RA patients each year Baseline data includes patient self-report questionnaires, structured clinical status, laboratory tests, radiographs of hands and feet
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Patient Monitoring in early RA since 1997
Regular out-patient visits in rheumatology unit for 2 years A control visit at 1, 2, 5, and 10 years including patient self-reported outcomes, structured clinical status, update of RA register information, laboratory tests including RF and aCCP, and radiographs of hands and feet
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Patient Monitoring Each visit, every patient is asked to complete an extended 2-page HAQ or self-report on a touch screen / GoTreatIT Rheumatologist: a status form / GoTreatIT An annual mailed questionnaire to all patients in the RA Register since 1998 A 5-year follow-up of 2000 population controls in ; 2007
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Radiographic outcomes in selected clinical cohorts
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Radiographic outcomes over 5 years in 3 Jyvaskyla Cohorts:
Patients with early RA:
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of RF+ patients over 5 years 1995-96
Larsen scores of RF+ patients over 5 years Each line illustrates Larsen score of each patient Sokka et al. J Rheumatol 2004
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Increasing use over time 1988-89
DMARDs over 5 years: Increasing use over time Sokka et al. J Rheumatol 2004
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Radiographic outcomes of RF+ patients over 5
Years in 3 cohorts of patients with early RA. N Patients with an erosive disease at 5 years, % 86% 67% 73% Patients with Larsen >=10,% Baseline 9% 0 3% 2 years 40% 20% 8% 5 years 55% 33% 14% Patients in the most recent cohort have potential for an erosive disease but the extent of damage remained low compared to earlier cohorts. Sokka et al. JRheumatol 2004
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Radiographic outcomes in two cohorts
The Heinola Cohort: 103 patients with early RA in the 1970’s The Jyvaskyla Cohort: 85 patients with early RA in the 1980’s All RF+ 8-year follow-up
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Larsen score in the Heinola Cohort vs. Jyvaskyla Cohort over 8 years
26% 12% Disease duration (years) Sokka T, Kaarela K, Mottonen T, Hannonen P. Clin Exp Rheumatol 1999
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DMARDs in the later cohort
Increased use of DMARDs in the later cohort Heinola 103 patients Early RA RF+ Jyvaskyla 85 patients Early RA RF+ “saw tooth strategy” Sokka et al CER 1999
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Median values with 95% confidence intervals for the Larsen score in patients with <5, 5-15 and > 15 years of disease in 1985 and 2000 in TPclinic T o t a l - 4 5 1 D i s e d u r n ( y ) 2 3 L c p < . Pincus, Sokka, Kautiainen A&R 2005
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Contemporary DMARDs in the 1985 Cohort
Pincus, Sokka, Kautiainen A&R 2005
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Contemporary DMARDs in the 2000 Cohort
Pincus, Sokka, Kautiainen A&R 2005
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Scoring of x-rays in RCTs vs. in clinical care
Experienced assessors read x-rays Observers blinded to clinical data Observers blinded to the order of radiographs Strict methodology to get accurate scores Every clinician to have basic knowledge about x-rays X-rays add to clinical data Serial x-rays to be compared to detect progression/improvement Understanding of radiographic progression
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32nd Scandinavian Congress of Rheumatology
30 January - 3 February 2008 Levi, Lapland, Finland Further information:
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To read: van der Heijde D. How to read radiographs according to the Sharp/van der Heijde method. J Rheumatol 1999; 26: Kaarela K, Kautiainen H. Continuous progression of radiological destruction in seropositive rheumatoid arthritis. J Rheumatol 1997; 24:
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