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| Sponsors and Collaborators: |
University of Florida Juvenile Diabetes Research Foundation National Institutes of Health (NIH) |
|---|---|
| Information provided by: | University of Florida |
| ClinicalTrials.gov Identifier: | NCT00873925 |
Purpose
In this phase 2 study the investigators are trying to see if a single intravenous infusion of autologous (self) cord blood cells followed by 1 year of daily vitamin D and omega 3 fatty acid supplementation can preserve beta cell function (prolong "honeymoon") in children with type 1 diabetes.
All subjects will continue to use insulin therapy as needed to maintain the best possible glucose control.
15 Subjects will be randomized such that 2 of every 3 (10 total) will receive cord blood plus vitamin D and Omega 3 while 1 of 3 (5 total) will serve as controls and will not receive cord blood, vitamin D, or Omega 3 supplementation.
The study will involve 5 visits over 1 year to the University of Florida
This study is a follow-up to our initial study of cord blood infusion alone in which 23 children received autologous cord blood. The initial study was 100% safe but additional studies like the one described above are needed to determine how to improve cord blood based therapy.
| Condition | Intervention | Phase |
|---|---|---|
|
Type 1 Diabetes |
Biological: Autologous Umbilical Cord Blood Dietary Supplement: Omega 3 Fatty Acids Dietary Supplement: Vitamin D |
Phase II |
| Study Type: | Interventional |
| Study Design: | Treatment, Randomized, Open Label, Parallel Assignment, Safety/Efficacy Study |
| Official Title: | Transfusion of Autologous Umbilical Cord Blood Plus Vitamin D and Omega 3 Fatty Acids to Preserve Beta Cell Function in Children With Recent Onset Type 1 Diabetes - A Pilot Study |
| Estimated Enrollment: | 15 |
| Study Start Date: | March 2009 |
| Estimated Primary Completion Date: | March 2012 (Final data collection date for primary outcome measure) |
| Arms | Assigned Interventions |
|---|---|
|
Cord Blood Plus Vit D and Omega 3: Experimental
A single autologous (self) intravenous cord blood infusion followed by 1 year of daily Vitamin D and Omega 3 Fatty Acid supplementation give as liquid drops and gel capsules that can be swallowed or added to food
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Biological: Autologous Umbilical Cord Blood
Umbilical Cord Blood stem cells CAN be collected and frozen immediately after birth in private and public cord blood banks. If a child with recent onset T1D has their OWN cord blood in storage they may qualify for this study. The cells would be released to the University of Florida where we would perform a single IV infusion of the cells once they have been thawed and washed. Depending on how the cells are stored, it may be possible to keep some portion of the cells in storage for future use.
Dietary Supplement: Omega 3 Fatty Acids
Omega 3 Fatty Acids commonly found in fish oil may play an important role in preserving beta cell function via their anti-inflammatory actions. Those subjects randomized to treatment will take a daily supplement supplied as a capsule that can either be swallowed whole or opened so the contents can be mixed with food.
Dietary Supplement: Vitamin D
Vitamin D is important for calcium absorption and bone health but may also play an important role in promoting healthy immune responses. Subjects randomized to intervention will take vitamin D supplied as a liquid in a dropper (1 drop per day added to food) for 1 year.
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Control: No Intervention
Subjects randomized to be controls will continue to use intensive insulin therapy in order to compare c-peptide production at 1 year in those receiving combination therapy vs those who do not
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Hypothesis: We hypothesize that the combination of intensive insulin therapy, autologous umbilical cord blood (UCB), Vitamin D, and Omega 3 fatty acids administered to children with T1D will preserve residual c-peptide when compared to children receiving intensive insulin therapy alone
Specific Aims:
Preliminary Studies: Our group has already performed autologous cord blood infusion in 23 children with T1D and has documented the safety of this approach. While conclusive data regarding the efficacy of the infusion in preserving beta cell function are lacking, our pilot study has demonstrated a potential for cord blood to low the rate of c-peptide decline (a measure of beta cell function/mass) in these young children with T1D. As documented above, considerable work both here and other institutions suggests the potential for a combination of Vitamin D and DHA to further augment the autoimmune response. Given the safety and potential efficacy of such an approach, we feel that a pilot study of the combination of UCB infusion, vitamin D supplementation, and DHA supplementation is warranted.
Screening: Only subjects who are still making at least a small amount of detectable insulin will be eligible for this study. To determine if a child is still making insulin, they will undergo a mixed meal tolerance test. This involves placing an IV in the morning prior to eating. The subject then drinks a "mixed meal" (the nutritional supplement Boost is used)and blood is taken via the IV at timepoints over the next 2 hours to determine if insulin is still being produced.
Randomization: If a potential subject "passes" the screening test, they will then be randomized to either receiving the study intervention or to being a control. Subjects WILL be told what arm of the study they are randomized to.
Infusion: Those randomized to infusion will return to the University of Florida for a single autologous cord blood infusion and will be given vitamin D and Omega 3 supplements
Follow-up: Both Control and Intervention subjects will return at 3, 6, and 12 months after the infusion/screening visit to have blood drawn for a repeat mixed meal tolerance test, measurement of HbA1c, and other immune studies.
Eligibility| Ages Eligible for Study: | 1 Year to 18 Years |
| Genders Eligible for Study: | Both |
| Accepts Healthy Volunteers: | No |
Inclusion Criteria:
Exclusion Criteria:
Contacts and Locations| Contact: Michael J Haller, MD | 352.392.2215 | hallemj@peds.ufl.edu |
| Contact: Miriam Cintron | 352.273.5580 | cintrm@peds.ufl.edu |
| United States, Florida | |
| University of Florida | Recruiting |
| Gainesville, Florida, United States, 32608 | |
| Contact: Michael J Haller, MD hallemj@peds.ufl.edu | |
| Principal Investigator: Michael J Haller, MD | |
| Sub-Investigator: Desmond A Schatz, MD | |
| Sub-Investigator: Mark A Atkinson, PhD | |
| Principal Investigator: | Michael J Haller, MD | University of Florida |
More Information
| Responsible Party: | University of Florida ( Michael Haller, MD / Assistant Professor ) |
| Study ID Numbers: | UF IRB 696-2008, JDRF 4-2007-1065 |
| Study First Received: | April 1, 2009 |
| Last Updated: | April 1, 2009 |
| ClinicalTrials.gov Identifier: | NCT00873925 History of Changes |
| Health Authority: | United States: Food and Drug Administration |
|
Type 1 Diabetes |
|
Metabolic Diseases Autoimmune Diseases Diabetes Mellitus Endocrine System Diseases Trace Elements Diabetes Mellitus Type 1 Bone Density Conservation Agents Calcium, Dietary |
Vitamin D Diabetes Mellitus, Type 1 Vitamins Micronutrients Endocrinopathy Glucose Metabolism Disorders Metabolic Disorder |
|
Metabolic Diseases Autoimmune Diseases Immune System Diseases Growth Substances Physiological Effects of Drugs Diabetes Mellitus Endocrine System Diseases |
Bone Density Conservation Agents Pharmacologic Actions Vitamin D Diabetes Mellitus, Type 1 Vitamins Micronutrients Glucose Metabolism Disorders |
