Evolution of Intestinal Microbiota in Patients With Juvenile Spondylarthropathy According to Typology of Treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs alone (Profile A). Number of species detected in the intestinal microbiota.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department.The number of species detected in the intestinal microbiota will be recorded.

Time frame: 24 hours after inclusion

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs alone (Profile A). Distribution of species detected in the intestinal microbiota.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department.The distribution of the various bacterial species detected in the intestinal microbiota will be recorded.

Time frame: 24 hours after inclusion

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs alone (Profile A). Diversity of species detected in the intestinal microbiota.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The diversity index according to the number of species and the number of functional groups will be recorded.

Time frame: 24 hours after inclusion

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs alone (Profile A). Number of species detected in the intestinal microbiota.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department.The number of species detected in the intestinal microbiota will be recorded. \- the diversity index according to the number of species and the number of functional groups.

Time frame: After 1 month of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs alone (Profile A). Distribution of species detected in the intestinal microbiota.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department.The distribution of the various bacterial species detected in the intestinal microbiota will be recorded.

Time frame: After 1 month of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs alone (Profile A). Diversity of species detected in the intestinal microbiota.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department.The diversity index according to the number of species and the number of functional groups will be recorded.

Time frame: After 1 month of treatment

Response to treatment in patients treated with non-steroidal anti-inflammatory drugs alone (Profile A)

The JADAS CRP clinical score will be used to rate the degree of activity of the disease. The Juvenile Arthritis Disease Activity Score (JADAS) is a recently developed composite tool for scoring disease activity in juvenile idiopathic arthritis. It is a composite disease activity score including four measures: * the physician's global assessment of disease activity; * the parent/guardian's or patient's global assessment of overall wellbeing; * number of joints with active arthritis; and * C-reactive protein (CRP) which has been determined as an alternative inflammatory marker to the Erythrocyte Sedimentation Rate ESR. JADAS-CRP was calculated similarly to the original JADAS as the simple sum of its four components, yielding a global score of 0-40, 0-57 and 0-101 depending on the joint count used for the JADAS10-CRP, JADAS27-CRP and JADAS71-CRP, respectively.

Time frame: After 1 month of treatment

Response to treatment in patients treated with non-steroidal anti-inflammatory drugs alone (Profile A). Number of flare-ups.

The number of flare-ups in patients treated with non-steroidal anti-inflammatory drugs alone (Profile A) will be noted.

Time frame: After 1 month of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate (Profile AM). Number of species detected in the intestinal microbiota.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department.The number of species detected in the intestinal microbiota will be recorded.

Time frame: 24 hours after inclusion

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate (Profile AM). Distribution of species detected in the intestinal microbiota.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department.The distribution of the various bacterial species detected in the intestinal microbiota will be recorded.

Time frame: 24 hours after inclusion

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate (Profile AM). Diversity of species detected in the intestinal microbiota.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department.The diversity index according to the number of species and the number of functional groups will be recorded.

Time frame: 24 hours after inclusion

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate (Profile AM).Number of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The number of species detected in the intestinal microbiota will be recorded.

Time frame: After 1 month of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate (Profile AM). Distribution of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The distribution of the various bacterial species detected in the intestinal microbiota will be recorded.

Time frame: After 1 month of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate (Profile AM). Diversity of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The diversity index according to the number of species and the number of functional groups will be recorded.

Time frame: After 1 month of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate (Profile AM). Number of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The number of species detected in the intestinal microbiota will be recorded.

Time frame: After 6 months of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate (Profile AM). Distribution of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The distribution of the various bacterial species in the microbiota will be recorded.

Time frame: After 6 months of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate (Profile AM). Diversity of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The diversity index according to the number of species and the number of functional groups will be recorded.

Time frame: After 6 months of treatment

Response to treatment in patients treated with non-steroidal anti-inflammatory drugs for 1 month followed by methotrexate for 5 months (Profile AM)

The JADAS CRP clinical score will be used to rate the degree of activity of the disease. The Juvenile Arthritis Disease Activity Score (JADAS) is a recently developed composite tool for scoring disease activity in juvenile idiopathic arthritis. It is a composite disease activity score including four measures: * the physician's global assessment of disease activity; * the parent/guardian's or patient's global assessment of overall wellbeing; * number of joints with active arthritis; and * C-reactive protein (CRP) which has been determined as an alternative inflammatory marker to the Erythrocyte Sedimentation Rate ESR. JADAS-CRP was calculated similarly to the original JADAS as the simple sum of its four components, yielding a global score of 0-40, 0-57 and 0-101 depending on the joint count used for the JADAS10-CRP, JADAS27-CRP and JADAS71-CRP, respectively.

Time frame: After 6 months of treatment

Response to treatment in patients treated with non-steroidal anti-inflammatory drugs for 1 month followed by methotrexate for 5 months (Profile AM). Number of flare-ups.

The number of flare-ups in patients treated with non-steroidal anti-inflammatory drugs for 1 month followed by methotrexate for 5 months (Profile AM) will be noted.

Time frame: After 6 months of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by biotherapy (Profile AB). Number of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The number of species detected in the intestinal microbiota will be recorded.

Time frame: 24 hours after inclusion

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by biotherapy (Profile AB). Distribution of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The distribution of the various bacterial species in the microbiota will be recorded.

Time frame: 24 hours after inclusion

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by biotherapy (Profile AB). Diversity of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The diversity index according to the number of species and the number of functional groups will be recorded.

Time frame: 24 hours after inclusion

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by biotherapy (Profile AB). Number of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The number of species detected in the intestinal microbiota will be recorded.

Time frame: After 1 month of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by biotherapy (Profile AB). Distribution of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The distribution of the various bacterial species detected in the intestinal microbiota will be recorded.

Time frame: After 1 month of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by biotherapy (Profile AB). Diversity of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The diversity index according to the number of species and the number of functional groups will be recorded.

Time frame: After 1 month of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by biotherapy (Profile AB). Number of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The number of species detected in the intestinal microbiota will be recorded.

Time frame: After 6 months of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by biotherapy (Profile AB). Distribution of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The distribution of the various bacterial species detected in the intestinal microbiota will be recorded.

Time frame: After 6 months of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by biotherapy (Profile AB). Diversity of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The diversity index according to the number of species and the number of functional groups will be recorded.

Time frame: After 6 months of treatment

Response to treatment in patients treated with non-steroidal anti-inflammatory drugs followed by biotherapy (Profile AB)

The JADAS CRP clinical score will be used to rate the degree of activity of the disease. The Juvenile Arthritis Disease Activity Score (JADAS) is a recently developed composite tool for scoring disease activity in juvenile idiopathic arthritis. It is a composite disease activity score including four measures: * the physician's global assessment of disease activity; * the parent/guardian's or patient's global assessment of overall wellbeing; * number of joints with active arthritis; and * C-reactive protein (CRP) which has been determined as an alternative inflammatory marker to the Erythrocyte Sedimentation Rate ESR. JADAS-CRP was calculated similarly to the original JADAS as the simple sum of its four components, yielding a global score of 0-40, 0-57 and 0-101 depending on the joint count used for the JADAS10-CRP, JADAS27-CRP and JADAS71-CRP, respectively.

Time frame: After 6 months of treatment

Response to treatment in patients treated with non-steroidal anti-inflammatory drugs followed by biotherapy (Profile AB). Number of flare-ups.

The number of flare-ups in patients treated with non-steroidal anti-inflammatory drugs followed by biotherapy (Profile AB) will be noted.

Time frame: After 6 months of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate then biotherapy (Profile AMB). Number of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department.The number of species detected in the intestinal microbiota will be recorded.

Time frame: 24 hours after inclusion

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate then biotherapy (Profile AMB). Distribution of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department.The distribution of the various bacterial species detected in the intestinal microbiota will be recorded.

Time frame: 24 hours after inclusion

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate then biotherapy (Profile AMB). Diversity of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department.The diversity index according to the number of species and the number of functional groups will be recorded.

Time frame: 24 hours after inclusion

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate then biotherapy (Profile AMB). Number of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The number of species detected in the intestinal microbiota will be recorded.

Time frame: After 1 month of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate then biotherapy (Profile AMB). Distribution of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The distribution of the various bacterial species detected in the intestinal microbiota will be recorded.

Time frame: After 1 month of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate then biotherapy (Profile AMB). Diversity of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The diversity index according to the number of species and the number of functional groups will be recorded.

Time frame: After 1 month of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate then biotherapy (Profile AMB). Number of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The number of species detected in the intestinal microbiota will be recorded.

Time frame: After 6 months of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate then biotherapy (Profile AMB). Distribution of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The distribution of the various bacterial species detected in the intestinal microbiota will be recorded.

Time frame: After 6 months of treatment

Evolution of the intestinal microbiota in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate then biotherapy (Profile AMB). Diversity of species.

Patients will provide 2 stool samples (one for analysis and one for the biobank) taken at the patient's home, preserved at -20°C and transported in a coolerbag to the hospital. One sample will be frozen to -80°C for the biobank and one sample will be kept at -20°C at the pediatric department. The diversity index according to the number of species and the number of functional groups will be recorded.

Time frame: After 6 months of treatment

Response to treatment in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate then biotherapy (Profile AMB)

The JADAS CRP clinical score will be used to rate the degree of activity of the disease. The Juvenile Arthritis Disease Activity Score (JADAS) is a recently developed composite tool for scoring disease activity in juvenile idiopathic arthritis. It is a composite disease activity score including four measures: * the physician's global assessment of disease activity; * the parent/guardian's or patient's global assessment of overall wellbeing; * number of joints with active arthritis; and * C-reactive protein (CRP) which has been determined as an alternative inflammatory marker to the Erythrocyte Sedimentation Rate ESR. JADAS-CRP was calculated similarly to the original JADAS as the simple sum of its four components, yielding a global score of 0-40, 0-57 and 0-101 depending on the joint count used for the JADAS10-CRP, JADAS27-CRP and JADAS71-CRP, respectively.

Time frame: After 6 months of treatment

Response to treatment in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate then biotherapy (Profile AMB). Number of flare-ups.

The number of flare-ups in patients treated with non-steroidal anti-inflammatory drugs followed by methotrexate then biotherapy (Profile AMB) will be noted.

Time frame: After 6 months of treatment