University of Montreal Hospital Center (CHUM)
Remi Rabasa-Loret
Bone damage is frequently observed in type 1 diabetes, and hyperglycemia is associated with an increased risk of fracture. This pilot study in 25 people living with type 1 diabetes aims to determine whether the introduction of an automated insulin delivery (AID) system improves bone markers through rapide optimization of glycemic control. Measurements will be taken before the start of AID, 2 months and 4 months afterwards.
Type 1 Diabetes
AID
Background: Bone damage is a frequently overlooked complication of type 1 diabetes (T1D), but significantly increases the risk of fractures as early as childhood. Fractures in individuals with T1D increase the risk of delayed healing, postoperative complications, loss of autonomy, reduced quality of life and even mortality. The pathophysiology of bone alterations in T1D probably differs from that of primary osteoporosis. Studies show lower bone mineral density in T1D, but this is not sufficient to fully explain the risk of fractures. T1D is also characterized by low bone remodeling and altered bone microarchitecture. Although chronic hyperglycemia is a risk factor for fracture in T1DM, the effect of improved glycemic control on bone markers remains unclear. The main hypothesis is that rapid optimization of the glycemic profile (hyperglycemia and variability) may improve bone remodeling in people living with T1DM who have suboptimal glycemic control. Aim: The primary objective of this pilot study is to quantify the proportion of participants significantly increasing at least one of the serum markers of bone remodeling post-installation of an automated insulin delivery system. Secondary objectives are to quantify: 1) the magnitude of change in each of the serum markers of bone remodeling pre-intervention and at 2 and 4 months post-intervention; 2) the efficacy of the automated insulin delivery system in terms of glycemic control and variability (mean change in HbA1c and glycemic parameters derived from the continuous glucose monitoring system). Methods: method: This is a prospective pilot study involving 25 adults aged 18 and over living with T1DM or latent autoimmune diabetes of adults (LADA) who are interested in starting an automated insulin delivery system (artificial pancreas). This study will involve 3 visits: 1. Visit 1: before installation of the automated insulin delivery system, 2. Visit 2: follow-up at 2 months after installation of the automated insulin delivery system, 3. Visit 3: follow-up at 4 months after installation of the automated insulin delivery system. During visits 1 and 3, participants will take a blood sample, perform a brief physical examination and complete questionnaires. During visit 1, participants will also undertake a urine sample, and the research team will conduct a brief interview to obtain information on their diabetes diagnosis, associated complications, and medication use. During Visit 2: blood sample only. The project will not interfere with the participant's diabetes management. They will be asked to share a copy of their 14-day continuous glucose monitoring profile during the visit periods.
| Study Type : | OBSERVATIONAL |
| Estimated Enrollment : | 25 participants |
| Official Title : | GLYcemic COntrol and OSTEOhealth: Impact of Short-Term Glycemic Control on Skeletal Outcomes in Adults with Type 1 Diabetes |
| Actual Study Start Date : | 2025-02-01 |
| Estimated Primary Completion Date : | 2026-12-31 |
| Estimated Study Completion Date : | 2027-06-30 |
Information not available for Arms and Intervention/treatment
| Ages Eligible for Study: | 18 Years to 100 Years |
| Sexes Eligible for Study: | ALL |
| Accepts Healthy Volunteers: |
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RECRUITING
CHUM
Montréal, Quebec, Canada, H2X 3E4
RECRUITING
University of Montreal hospital center
Montreal, Canada,