POS0364 UNMET NEEDS IN THE TREATMENT OF EXTRA-RENAL FLARES IN SLE PATIENTS: REAL LIFE EXPERIENCE VS ARTIFICIAL APPROACH

Abstract

BackgroundSystemic lupus erythematosus (SLE) is a heterogeneous disease which can affect various organs and is characterized by different clinical phenotypes. While the treatment of renal involvement is quite standardized, the therapeutic approach to extra-renal manifestations is subjected to a degree of variability.Objectives1. To describe extra-renal disease flares in terms of clinical phenotype and outcomes in SLE patients 2. To compare data from a real-life setting with a machine learning (ML) approach.MethodsThis study is a retrospective analysis of data from a monocentric cohort of SLE patients who experienced a disease flare between 2015 and 2020. Each flare was followed for one year and was classified according to the organ involvement and categorized according to the BILAG definition of flare. At baseline and at 3,6,12 months the following variables were collected: disease activity (SELENA-SLEDAI score), ongoing therapy and disease state (DORIA definition of remission). Demographic data and previous organ involvement were retrieved from clinical charts. Flares’ features at baseline and during follow up were analyzed in terms of explained variance across the dataset’s Principal Components and clustered with a hierarchical unsupervised learning approach. A ML model based on neural networks was built to early detect flares’ therapeutic difficulty: it was validated after data augmentation to satisfy statistical requirements during the training phase.Results66 extra-renal flares were investigated (Table 1); 5 flares (7.5%) were treated with glucocorticoid (GC) pulses and 61 (92.5%) with oral GC therapy, while an immunosuppressive (IS) treatment was prescribed in 44 flares (66.7%). The remission rate at 12 months for the whole group was 50%, with musculo-skeletal (MS) flares, mucocutaneous (MC) flares and others (neuropsychiatric, cardiopulmonary, constitutional, haematologic) that was respectively 63.6%, 31.3% and 41.2%, showing lower rate of remission for MC flares. In 12 months, 17 flares (25.8%) did not respond to treatment (non-responders), requiring an increase in the dose of GC or the introduction of a new IS therapy. Using a machine learning approach, we were able to identify 4 flare clusters, grouping flares in relation to phenotypic characteristics (Figure 1), and recognized statistically relevant features for patients’ stratification (cluster 1“flare in systemic disease with high activity”, cluster 2 “outcast flares”, cluster 3 “flare in polymorphic disease with mild activity” and cluster 4 “recurrent skin flares”). Interestingly, cluster 4 (recurrent skin flares) was associated with the lowest rate of remission at 12 months with respect to clusters 1, 2, and 3 (33% vs 40%, 76.5% and 56% respectively). Moreover the neural network model correctly predicts difficult to treat flares in up to 80% of the casesTable 1.WHOLE GROUPMUSKELMUCOCUTCONSTITUTIONALCARDIOPULMHAEMATOLNEUROpNUMBER (%)6633 (50)16 (24.2)7 (10.6)4 (6.1)5 (7.6)1 (1.5)SLEDAI at baseline median (IQR)7 (4-29)8 (6-10)5.5 (4-10)5 (4-9)9 (4.5-12)5 (5-6)29 (29-29)SLEDAI 12 mos median (IQR)2 (0-20)0.5 (0-4)3 (0-4)3 (2 – 4)0 (0-0)2 (0-3)14 (14 – 14)REMISSION 12 mos number (%)33 (50)21 (63.6)5 (31.3)4 (57.1)2 (40)2 (40%)1 (100)0.217NON RESPONSE 12 mos number (%)17 (25.8)8 (25)5 (31.3)2 (28.6)1 (20)1 (20%)1 (100)0.467Figure 1.Flare clusters.ConclusionThese data suggest that, in a real-life setting, the clinical response rate to therapy of patients with an extra-renal flare is not satisfactory, thus identifying an unmet need in the treatment of SLE and highlighting the absence of a standard treatment. Both the real-life data and the machine learning approach identify flares with MC manifestations as the most difficult to treat with the lower rate of remission after one year. Further prospective studies are necessary to improve the neural network model; ML techniques could help in the early identification of difficult to treat flares to be candidates for new and more aggressive therapeutic strategies for extra-renal manifestations.Disclosure of InterestsNone declared