Skeletal Effects of Type 1 Diabetes on Low-Trauma Fracture Risk

Recruiting

• Conditions: Bone Loss; Type 1 Diabetes; Fractures, Bone; Osteopenia
• Interventions: Procedure: Transilial bone biopsy

• Registration Number: NCT05701254
• Lead Sponsor: Creighton University

Brief Summary

Patients with Type 1 Diabetes Mellitus (T1DM) have a higher risk of low-trauma (osteoporotic) fracture that is 7-12 times higher than non-diabetics. The bone density of people with Type 1 Diabetes is higher at the time of fracture than in non-diabetics. This suggests the presence of underlying bone tissue mechanical defects. The potential benefits to participants would be knowledge gained about their bone density and the results of laboratory tests. On a wider scale, there may be general benefits to society because the knowledge gained from this study may help better understand the effects of diabetes on bone health

Detailed Description

The investigators will enroll 40 female, non-fracturing, postmenopausal, patients with T1DM, who are age 50 and over, and have had diabetes for more than ten years. The investigators will perform 2 transiliac (hip bone) biopsies on each subject, one for mechanical testing, tissue analysis of AGEs, enzymatic crosslinks and bone tissue-bound water in cortical bone, and the other for histomorphometry and high-resolution 3D imaging in trabecular bone. A matched, non-diabetic, healthy control will be enrolled at the time each T1DM is enrolled.

Study Timeline

• Study Start: 2019-06-18
• Study First Submitted: 2022-12-21
• Study First Submitted QC: 2023-01-17
• Study First Posted: 2023-01-27
• Status Verified: 2023-08
• Last Update Submitted: 2023-08-16
• Last Update Posted: 2023-08-18
• Primary Completion: 2023-12-31
• Study Completion: 2024-06-01

Recruitment & Eligibility

• Status: RECRUITING
• Sex: Female
• Target Recruitment: 80

Inclusion Criteria

Criteria for enrollment of female diabetics

1. No chronic disease diagnoses that may affect bone, as confirmed by the PI.
2. Normal clinical history, physical, and clinical laboratory exam (except for usual complications of a 10+-year diabetic, i.e., ~minimal neuropathy or retinopathy, known, but asymptomatic mild vascular disease, etc.)
3. Glomelular Filtration Rate (GFR) >45 ml/min (Renal Association lower limit for "mild" kidney failure).
4. Willingness to sign a consent form.
5. Willingness to undergo a transilial bone biopsy incision that yields 2 bone specimens.
6. No abnormalities in clinical blood chemistry measurements (small, age-related decreases in GFR, will be permitted).
7. Caucasian

Criteria for each non-diabetic subject, compared to their matched diabetic:

1. Dual-energy x-ray absorptiometry (DXA) measures (BMD, gm/cm) must be within +/- 15% in total hip.
2. Body mass index (BMI) must be within +/-10%.
3. Age must be within +/- 5 years.
4. Caucasian

Exclusion Criteria

1. Women who have had Type 1 diabetes for less than 10 years.
2. Non-insulin dependent Type 1 diabetic.
3. Less than 50 years old.
4. Less than 5 post menopausal.nd have had diabetes for at least 10 years. -

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Arm && Interventions

Group	Intervention	Description
Type 1 Diabetics	Transilial bone biopsy	All participants will complete 4 visits over 6-8 weeks. Visit 1 is a screening visit which includes a physical exam, a bone mineral density scan, a blood draw and an EKG. Visit 2 consists of dispensing the Tetracycline antibiotic required for the bone biopsy. Visit 3 is the bone biopsy and includes a blood draw. Visit 4 is to remove the stitches.
Non-Type 1 Diabetics	Transilial bone biopsy	All participants will complete 4 visits over 6-8 weeks. Visit 1 is a screening visit which includes a physical exam, a bone mineral density scan, a blood draw and an EKG. Visit 2 consists of dispensing the Tetracycline antibiotic required for the bone biopsy. Visit 3 is the bone biopsy and includes a blood draw. Visit 4 is to remove the stitches.

Primary Outcome Measures

Name	Time	Method
Compare cortical bone tissue levels of pentosidine (AGE), pyridinoline (normal enzymatic collagen crosslinks), and matrix-bound water between T1DM and controls.	6-8 weeks	For different advance glycation endproducts (AGEs), a) pentosidine (PEN), b) pyrinoline (Pyd), and c) tissue water (TW), will be measured using Raman spectroscopy technique on bone biopsy tissue obtained from study participants. Raman spectra will be obtained from the embedded block surfaces using a confocal Raman spectrometer (Renishaw InVia Qontor, www.renishaw.de). These spectra will be collected at the interstitial, cement lines, and actively bone forming osteons with evident fluorescent labels. A continuous laser beam with an excitation of 785 nm and power of 10 mW will be focused through a Raman microscope (Leica DM2700M), using the 50x objective, down to a micrometer-sized spot on the sample.; 1. Pentosidine (PEN) \[ratio\]. PEN (Pentosidine) from the integrated area ratio of bands 1495 (PEN) cm-1 / 1450 cm-1 (methylene side chains (CH2)).; 2. Pyrinoline (Pyd) \[ratio\]. The pyridinoline (Pyd; enzymatic trivalent collagen cross-link) content is calculated as the absorbance height

Secondary Outcome Measures

Name	Time	Method
Compare cortical bone tissue heterogeneity in nanoindentation measures of modulus and hardness between T1DM and controls.	6- 8 weeks	Bone tissue's hardness and modulus will be quantified by using nanoindentation technique. The nanoindentation is a mechanical/material strength testing technique. The technique has been used in bone tissue from bone biopsies.; 1. Hardness \[GPa-giga-pascal-N/m2\]; 2. Modulus \[GPa-giga-pascal-N/m2\]

Trial Locations

Locations (1)

Creighton University Osteoporosis Research Center; 🇺🇸 Omaha, Nebraska, United States