Type 1 Diabetes Clinical Trial
— DF-IL2-REPOfficial title:
Clinical and Biological Responses to Repeated Administration of Low-dose Interleukin-2 in Patients With Type 1 Diabetes and a Residual Insulin Secretion
Type 1 diabetes (T1D) is caused by the destruction of insulin-producing cells by effector T cells (Teffs), due to a deficiency of regulatory T cells (Tregs). Ciclosporin effectively blocks the Teffs and controls diabetes, but cannot be considered as a long-term treatment. Low-dose interleukin-2 (ld IL-2) activates and expands Tregs in humans. Hence, Ld IL-2 in patients in whom the autoimmune process was blocked early by a short treatment (2 months) of cyclosporine should restore immune homeostasis and maintain some insulin production over the long term.
| Status | Recruiting |
| Enrollment | 24 |
| Est. completion date | July 21, 2026 |
| Est. primary completion date | October 21, 2024 |
| Accepts healthy volunteers | No |
| Gender | All |
| Age group | 16 Years to 45 Years |
| Eligibility | Inclusion Criteria: - • Age at inclusion between = 16 years old (Tanner 5 pubertal stage) and = 45 years old - Type 1 diabetes according to ADA criteria, with at least 1 positive autoantibody among the following: anti-islet, anti-GAD, anti-IA2, anti-ZnT8 and anti-insulin. - Diagnosis = 3 months - No acid ketosis - No weight loss > 10% OR with fasting C-peptide = 0.1 nmol/L (after a period of = 15 days following the initiation of insulin therapy - Absence of clinically significant biological abnormalities on hematological, biochemical, hepatic, renal and thyroid tests. - No documented history of heart disease, no family history of sudden death, AND normal ECG. - Effective contraception in men and women of childbearing potential > 2 weeks prior to first administration of the investigational drug and throughout the treatment period (if sexually active). Specifically for women of childbearing age and sexually active, they must use an effective contraceptive method (Pearl Index < 1). The following methods are acceptable: oral hormonal contraceptives, injectable, or implanted (with the exception of oral minipills: i.e. low doses of gestagens which are not acceptable (lynestrenol and norestisteron), intrauterine contraceptives (e.g. progestin-release systems)), - Free, informed and written consent, signed by the patient and the investigator, prior to any examination required by the trial. If the patient is a minor, the signatures of both parents and of the child will be collected (or the legal representative if only one parent is alive). Exclusion Criteria: - Known contraindications to IL2 treatment: - Hypersensitivity to the active substance or to one of the excipients. - Signs of active infection requiring antibiotics - Documented history of clinical autoimmune disease - Oxygen saturation = 90% - Existence of a serious dysfunction in a vital organ - History of organ allograft, - Known contraindications to treatment with cyclosporine - Presence of unauthorized treatment, i.e. cytotoxic drugs, products known for their impact on blood glucose levels or for their interactions with the treatments under trial - Patients who have received anti-diabetic treatment other than insulin for more than 3 consecutive months. - Anti-thyroperoxidase positive and abnormal TSH and T4 at inclusion - Anti-transglutaminase positive at inclusion - EBV viral load > 2000 IU/ml - CMV viral load > 400 IU/ml - HBV, HCV or HIV infection - Lymphopenia = 1000/ mm3 - Presence or history of cancer that has been cured for less than five years, except in situ cervical or basal cell carcinoma in early stage management, - Participation in other intervention research involving humans < 3 months, - Pregnant or breastfeeding women - Lack of social security affiliation (as a beneficiary or assignee) - Vaccination with live attenuated virus during the last 4 weeks before the start of the experimental treatment and during the entire treatment phase. - Patient with active SARS-CoV-2 infection - Patient with chronic respiratory disease - Subject under legal protection (such as tutorship, curatorship, or judicial safeguard) - Subject hospitalized without consent, unable to express consent or deprived of liberty |
| Country | Name | City | State |
|---|---|---|---|
| France | Lorenzon Roberta | Paris |
| Lead Sponsor | Collaborator |
|---|---|
| Assistance Publique - Hôpitaux de Paris | Iltoo Pharma |
France,
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | Treg variation | Change in Tregs values at Day 67 compared to Day 63 (post-ciclosporin value) | From Day 63 to Day 67 | |
| Secondary | Change in Area under curve (AUC (T0-T120) of serum C-peptide at month 6 | Change in Area under curve (AUC (T0-T120) of serum C-peptide after mixed-meal tolerance test compared to baseline 2. Variation in HbA1c value (in %) 3. Variation in IDAA1c score (IDAA1c score = HbA1c (in %) + [4 × insulin dose (in international units per kilogram per 24 h)]. 4. Change in Insulin requirement (insulin dose in international units per kilogram per 24 h 5. Change in Tregs values (in %/CD4+) at month 3, month 6, month 9, month 12 and after treatment interruption at month 18 and month 24 compared to baseline and post-cyclosporin values (Day 63) |
up to month 6 | |
| Secondary | Change in Area under curve (AUC (T0-T120) of serum C-peptide at month 12 | Change in Area under curve (AUC (T0-T120) of serum C-peptide after mixed-meal tolerance test compared to baseline 2. Variation in HbA1c value (in %) 3. Variation in IDAA1c score (IDAA1c score = HbA1c (in %) + [4 × insulin dose (in international units per kilogram per 24 h)]. 4. Change in Insulin requirement (insulin dose in international units per kilogram per 24 h 5. Change in Tregs values (in %/CD4+) at month 3, month 6, month 9, month 12 and after treatment interruption at month 18 and month 24 compared to baseline and post-cyclosporin values (Day 63) |
up to month 12 | |
| Secondary | Change in Area under curve (AUC (T0-T120) of serum C-peptide at month 24 | Change in Area under curve (AUC (T0-T120) of serum C-peptide after mixed-meal tolerance test compared to baseline 2. Variation in HbA1c value (in %) 3. Variation in IDAA1c score (IDAA1c score = HbA1c (in %) + [4 × insulin dose (in international units per kilogram per 24 h)]. 4. Change in Insulin requirement (insulin dose in international units per kilogram per 24 h 5. Change in Tregs values (in %/CD4+) at month 3, month 6, month 9, month 12 and after treatment interruption at month 18 and month 24 compared to baseline and post-cyclosporin values (Day 63) |
up to month 24 | |
| Secondary | Variation in HbA1c value (in %) during the treatment period and during the 1-year follow-up period compared to Baseline at day 63, | Variation in HbA1c value (in %) during the treatment period and during the 1-year follow-up period compared to baseline | up to day 63 | |
| Secondary | Variation in HbA1c value (in %) during the treatment period and during the 1-year follow-up period compared to Baseline at month 3 | Variation in HbA1c value (in %) during the treatment period and during the 1-year follow-up period compared to baseline | up to month 3 | |
| Secondary | Variation in HbA1c value (in %) during the treatment period and during the 1-year follow-up period compared to Baseline at month 6 | Variation in HbA1c value (in %) during the treatment period and during the 1-year follow-up period compared to baseline | up to month 6 | |
| Secondary | Variation in HbA1c value (in %) during the treatment period and during the 1-year follow-up period compared to Baseline at month 9 | Variation in HbA1c value (in %) during the treatment period and during the 1-year follow-up period compared to baseline | up to month 9 | |
| Secondary | Variation in HbA1c value (in %) during the treatment period and during the 1-year follow-up period compared to Baseline at month 12 | Variation in HbA1c value (in %) during the treatment period and during the 1-year follow-up period compared to baseline | up to month 12 | |
| Secondary | Variation in HbA1c value (in %) during the treatment period and during the 1-year follow-up period compared to Baseline at month 18 | Variation in HbA1c value (in %) during the treatment period and during the 1-year follow-up period compared to baseline | up to month 18 | |
| Secondary | Variation in HbA1c value (in %) during the treatment period and during the 1-year follow-up period compared to Baseline at month 24 | Variation in HbA1c value (in %) during the treatment period and during the 1-year follow-up period compared to baseline | up to month 24 | |
| Secondary | Variation in IDAA1c scoreduring the treatment period and during the 1 year follow-up period at day 63 | Variation in IDAA1c score (IDAA1c score = HbA1c (in %) + [4 × insulin dose (in international units per kilogram per 24 h)] during the treatment period and during the 1 year follow-up period compared to baseline | up to day 63 | |
| Secondary | Variation in IDAA1c scoreduring the treatment period and during the 1 year follow-up period up to month 3 | Variation in IDAA1c score (IDAA1c score = HbA1c (in %) + [4 × insulin dose (in international units per kilogram per 24 h)] during the treatment period and during the 1 year follow-up period compared to baseline | up to month 3 | |
| Secondary | Variation in IDAA1c scoreduring the treatment period and during the 1 year follow-up period at month 6 | Variation in IDAA1c score (IDAA1c score = HbA1c (in %) + [4 × insulin dose (in international units per kilogram per 24 h)] during the treatment period and during the 1 year follow-up period compared to baseline | up to month 6 | |
| Secondary | Variation in IDAA1c scoreduring the treatment period and during the 1 year follow-up period at month 9 | Variation in IDAA1c score (IDAA1c score = HbA1c (in %) + [4 × insulin dose (in international units per kilogram per 24 h)] during the treatment period and during the 1 year follow-up period compared to baseline | up to month 9 | |
| Secondary | Variation in IDAA1c scoreduring the treatment period and during the 1 year follow-up period at month 12 | Variation in IDAA1c score (IDAA1c score = HbA1c (in %) + [4 × insulin dose (in international units per kilogram per 24 h)] during the treatment period and during the 1 year follow-up period compared to baseline | up to month 12 | |
| Secondary | Variation in IDAA1c scoreduring the treatment period and during the 1 year follow-up period at day month 18 | Variation in IDAA1c score (IDAA1c score = HbA1c (in %) + [4 × insulin dose (in international units per kilogram per 24 h)] during the treatment period and during the 1 year follow-up period compared to baseline | up to month 18 | |
| Secondary | Variation in IDAA1c scoreduring the treatment period and during the 1 year follow-up period at month 24 | Variation in IDAA1c score (IDAA1c score = HbA1c (in %) + [4 × insulin dose (in international units per kilogram per 24 h)] during the treatment period and during the 1 year follow-up period compared to baseline | up to month 24 | |
| Secondary | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period at day 30 | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period compared to baseline | up to day 30 | |
| Secondary | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period at day 63 | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period compared to baseline | up to day 63 | |
| Secondary | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period at month 3 | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period compared to baseline | up to month 3 | |
| Secondary | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period at month 6 | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period compared to baseline | up to month 6 | |
| Secondary | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period at month 9 | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period compared to baseline | up to month 9 | |
| Secondary | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period at month 12 | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period compared to baseline | up to month 12 | |
| Secondary | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period at month 18 | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period compared to baseline | up to month 18 | |
| Secondary | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period at month 24 | Change in Insulin requirement (insulin dose in international units per kilogram per 24 h) during the treatment period and during the 1 year follow-up period compared to baseline | up to month 24 | |
| Secondary | Change in Tregs values (in %/CD4+) after treatment interruption and post-cyclosporin values at day 30 | Change in Tregs values (in %/CD4+) after treatment interruption compared to baseline and post-cyclosporin values | up to day 30 | |
| Secondary | Change in Tregs values (in %/CD4+) after treatment interruption and post-cyclosporin values at day 63 | Change in Tregs values (in %/CD4+) after treatment interruption compared to baseline and post-cyclosporin values | up to day 63 | |
| Secondary | Change in Tregs values (in %/CD4+) after treatment interruption and post-cyclosporin values at month 3 | Change in Tregs values (in %/CD4+) after treatment interruption compared to baseline and post-cyclosporin values | up to month 3 | |
| Secondary | Change in Tregs values (in %/CD4+) after treatment interruption and post-cyclosporin values at month 6 | Change in Tregs values (in %/CD4+) after treatment interruption compared to baseline and post-cyclosporin values | up to month 6 | |
| Secondary | Change in Tregs values (in %/CD4+) after treatment interruption and post-cyclosporin values at month 9 | Change in Tregs values (in %/CD4+) after treatment interruption compared to baseline and post-cyclosporin values | up to month 9 | |
| Secondary | Change in Tregs values (in %/CD4+) after treatment interruption and post-cyclosporin values at month 12 | Change in Tregs values (in %/CD4+) after treatment interruption compared to baseline and post-cyclosporin values | up to month 12 | |
| Secondary | Change in Tregs values (in %/CD4+) after treatment interruption and post-cyclosporin values at month 18 | Change in Tregs values (in %/CD4+) after treatment interruption compared to baseline and post-cyclosporin values | up to month 18 | |
| Secondary | Change in Tregs values (in %/CD4+) after treatment interruption and post-cyclosporin values at month 24 | Change in Tregs values (in %/CD4+) after treatment interruption compared to baseline and post-cyclosporin values | up to month 24 | |
| Secondary | incidence of adverse events at day 30 | incidence of adverse events throughout the study (according to NCI-CTC AE classification) to the Baseline to month 24 | up to day 30 | |
| Secondary | incidence of adverse events at day 63 | incidence of adverse events throughout the study (according to NCI-CTC AE classification) to the Baseline to month 24 | up to day 63 | |
| Secondary | incidence of adverse events at month 3 | incidence of adverse events throughout the study (according to NCI-CTC AE classification) to the Baseline to month 24 | up to month 3 | |
| Secondary | incidence of adverse events at month 6 | incidence of adverse events throughout the study (according to NCI-CTC AE classification) to the Baseline to month 24 | up to month 6 | |
| Secondary | incidence of adverse events at month 9 | incidence of adverse events throughout the study (according to NCI-CTC AE classification) to the Baseline to month 24 | up to month 9 | |
| Secondary | incidence of adverse events at month 12 | incidence of adverse events throughout the study (according to NCI-CTC AE classification) to the Baseline to month 24 | up to month 12 | |
| Secondary | incidence of adverse events at month 18 | incidence of adverse events throughout the study (according to NCI-CTC AE classification) to the Baseline to month 24 | up to month 18 | |
| Secondary | incidence of adverse events at month 24 | incidence of adverse events throughout the study (according to NCI-CTC AE classification) to the Baseline to month 24 | up to month 24 |
| Status | Clinical Trial | Phase | |
|---|---|---|---|
| Recruiting |
NCT05653518 -
Artificial Pancreas Technology to Reduce Glycemic Variability and Improve Cardiovascular Health in Type 1 Diabetes
|
N/A | |
| Enrolling by invitation |
NCT05515939 -
Evaluating the InPen in Pediatric Type 1 Diabetes
|
||
| Completed |
NCT05109520 -
Evaluation of Glycemic Control and Quality of Life in Adults With Type 1 Diabetes During Continuous Glucose Monitoring When Switching to Insulin Glargine 300 U/mL
|
||
| Recruiting |
NCT04016987 -
Automated Structured Education Based on an App and AI in Chinese Patients With Type 1 Diabetes
|
N/A | |
| Active, not recruiting |
NCT04190368 -
Team Clinic: Virtual Expansion of an Innovative Multi-Disciplinary Care Model for Adolescents and Young Adults With Type 1 Diabetes
|
N/A | |
| Active, not recruiting |
NCT05413005 -
Efficacy of Extracorporeal Photopheresis (ECP) in the Treatment of Type 1 Diabetes Mellitus
|
Early Phase 1 | |
| Active, not recruiting |
NCT04668612 -
Dual-wave Boluses in Children With Type 1 Diabetes Insulin Boluses in Children With Type 1 Diabetes
|
N/A | |
| Recruiting |
NCT05414409 -
The Gut Microbiome in Type 1 Diabetes and Mechanism of Metformin Action
|
Phase 2 | |
| Completed |
NCT02837094 -
Enhanced Epidermal Antigen Specific Immunotherapy Trial -1
|
Phase 1 | |
| Recruiting |
NCT05670366 -
The Integration of Physical Activity Into the Clinical Decision Process of People With Type 1 Diabetes
|
N/A | |
| Recruiting |
NCT05418699 -
Real-life Data From Diabetic Patients on Closed-loop Pumps
|
||
| Completed |
NCT04084171 -
Safety of Artificial Pancreas Therapy in Preschoolers, Age 2-6
|
N/A | |
| Recruiting |
NCT06144554 -
Post Market Registry for the Omnipod 5 System in Children and Adults With Type 1 Diabetes
|
||
| Recruiting |
NCT05281614 -
Immune Effects of Vedolizumab With or Without Anti-TNF Pre-treatment in T1D
|
Early Phase 1 | |
| Recruiting |
NCT05379686 -
Low-Dose Glucagon and Advanced Hybrid Closed-Loop System for Prevention of Exercise-Induced Hypoglycaemia in People With Type 1 Diabetes
|
N/A | |
| Withdrawn |
NCT04259775 -
Guided User-initiated Insulin Dose Enhancements (GUIDE) to Improve Outcomes for Youth With Type 1 Diabetes
|
N/A | |
| Active, not recruiting |
NCT01600924 -
Study on the Assessment of Determinants of Muscle and Bone Strength Abnormalities in Diabetes
|
||
| Completed |
NCT02750527 -
Pediatric Population Screening for Type 1 Diabetes and Familial Hypercholesterolemia in Lower Saxony, Germany
|
||
| Completed |
NCT02914886 -
Beneficial Effect of Insulin Glulisine by Lipoatrophy and Type 1 Diabetes (LAS)
|
Phase 4 | |
| Completed |
NCT02855307 -
Closed-loop Control of Glucose Levels (Artificial Pancreas) During Postprandial Exercise in Adults With Type 1 Diabetes
|
Phase 2 |