TY - JOUR
T1 - Numerical scoring for the Classic BILAG index
AU - Cresswell, L
AU - Yee, Chee
AU - Farewell, V
AU - Rahman, A
AU - Teh, LS
AU - Griffiths, B
AU - Bruce, IN
AU - Ahmad, Y
AU - Prabu, Athiveeraramapandian
AU - Akil, M
AU - McHugh, N
AU - Toescu, Veronica
AU - D'Cruz, D
AU - Khamashta, MA
AU - Maddison, P
AU - Isenberg, DA
AU - Gordon, Caroline
PY - 2009/12/1
Y1 - 2009/12/1
N2 - Objective. To develop an additive numerical scoring scheme for the Classic BILAG index.
Methods. SLE patients were recruited into this multi-centre cross-sectional study. At every assessment, data were collected on disease activity and therapy. Logistic regression was used to model an increase in therapy, as an indicator of active disease, by the Classic BILAG score in eight systems. As both indicate inactivity, scores of D and E were set to 0 and used as the baseline in the fitted model. The coefficients from the fitted model were used to determine the numerical values for Grades A, B and C. Different scoring schemes were then compared using receiver operating characteristic (ROC) curves. Validation analysis was performed using assessments from a single centre.
Results. There were 1510 assessments from 369 SLE patients. The currently used coding scheme (A=9, B=3, C=1 and D/E=0) did not fit the data well. The regression model suggested three possible numerical scoring schemes: (i) A=11, B=6, C=1 and D/E=0; (ii) A=12, B-6, C-1 and D/E-0; and (iii) A-11, B-7, C-1 and D/E-0. These schemes produced comparable ROC curves. Based on this, A=12, B=6, C=1 and D/E=0 seemed a reasonable and practical choice. The validation analysis suggested that although the A 12, B=6, C=1 and D/E=0 coding is still reasonable, a scheme with slightly less weighting for B, such as A=12, B=5, C=1 and D/E=0, may be more appropriate.
Conclusions. A reasonable additive numerical scoring scheme based on treatment decision for the Classic BILAG index is A=12, B=5, C=1, D=0 and E=0.
AB - Objective. To develop an additive numerical scoring scheme for the Classic BILAG index.
Methods. SLE patients were recruited into this multi-centre cross-sectional study. At every assessment, data were collected on disease activity and therapy. Logistic regression was used to model an increase in therapy, as an indicator of active disease, by the Classic BILAG score in eight systems. As both indicate inactivity, scores of D and E were set to 0 and used as the baseline in the fitted model. The coefficients from the fitted model were used to determine the numerical values for Grades A, B and C. Different scoring schemes were then compared using receiver operating characteristic (ROC) curves. Validation analysis was performed using assessments from a single centre.
Results. There were 1510 assessments from 369 SLE patients. The currently used coding scheme (A=9, B=3, C=1 and D/E=0) did not fit the data well. The regression model suggested three possible numerical scoring schemes: (i) A=11, B=6, C=1 and D/E=0; (ii) A=12, B-6, C-1 and D/E-0; and (iii) A-11, B-7, C-1 and D/E-0. These schemes produced comparable ROC curves. Based on this, A=12, B=6, C=1 and D/E=0 seemed a reasonable and practical choice. The validation analysis suggested that although the A 12, B=6, C=1 and D/E=0 coding is still reasonable, a scheme with slightly less weighting for B, such as A=12, B=5, C=1 and D/E=0, may be more appropriate.
Conclusions. A reasonable additive numerical scoring scheme based on treatment decision for the Classic BILAG index is A=12, B=5, C=1, D=0 and E=0.
KW - Statistics
KW - Regression model
KW - Outcome measures
KW - BILAG
KW - Global score
KW - Disease activity
KW - SLE
KW - Treatment decision
U2 - 10.1093/rheumatology/kep183
DO - 10.1093/rheumatology/kep183
M3 - Article
C2 - 19779027
SN - 1460-2172
SN - 1462-0332
VL - 48
SP - 1548
EP - 1552
JO - Rheumatology
JF - Rheumatology
IS - 12
ER -