Assessing the use of corneal confocal microscopy to evaluate for early neuropathy changes in subjects with Type 1 Diabetes.
Rationale: Poorly controlled diabetes mellitus is associated with microvascular complications, which includes peripheral neuropathy. Peripheral neuropathy associated with diabetes is a painful condition. Its diagnosis is hampered by painful and long nerve conduction studies which fail to diagnose small nerve neuropathy. It is important to study methods of noninvasive methods of early detection, which are sensitive and specific in diagnosing early neuropathy and we propose a novel study that this can be detected in the cornea of the eye. Aims: * Estimate corneal small nerve fiber damage in young T1DM subjects (corneal fiber density, nerve branch density, and fiber length) and compare the results to healthy controls using corneal confocal microscopy (CCM). * Estimate corneal nerve fiber damage in subjects with diabetes, with peripheral neuropathy and subjects with diabetes without peripheral neuropathy, diagnosed by skin biopsies and nerve conduction studies * Obtain much needed normative values for CCM in adolescents and intraepidermal nerve fiber density from skin biopsies in subjects with type 1 diabetes. * As a secondary outcome measure, to compare serum biomarkers including leptin, TNF alpha, and fibrinogen in patients with diabetes in those with neuropathy Vs. without neuropathy.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
SCREENING
Masking
NONE
Confocal miscroscopy will be used to assess corneal nerve changes due to hyperglycemia.
Skin biopsy will be used to assess the appearance of nerve fibers in subjects with type 1 diabetes.
Nerve conduction studies will be use to assess for neuropathy.
Corneal small nerve fiber damage
Estimate corneal small nerve fiber damage in young T1DM subjects and compare the results to healthy controls using corneal confocal microscopy (CCM). This will be done by examining the cornea via confocal microscopy and obtaining images. These images will be evaluated looking at how many nerves there are, how they branch, and how long they are).
Time frame: Assessed one time per subject during study (study completed over 3 years)
Normative values for corneal confocal microscopy (CCM)
Obtain much needed normative values for CCM in adolescents and intraepidermal nerve fiber density from skin biopsies in subjects with type 1 diabetes. This will be done by obtaining a small biopsy of skin and looking at the number of nerve fibers in the outer layer of the skin.
Time frame: Assessed one time per subject during study (study completed over 3 years)
Serum biomarkers - leptin
Measuring serum biomarkers (blood levels) leptin. In participants with diabetes, comparing the blood level measurements of those with neuropathy vs. those without neuropathy.
Time frame: Assessed one time per subject during study (study completed over 3 years)
Serum biomarkers - TNF Alpha
Measuring serum biomarkers (blood levels) Tumor Necrosis Factor (TNF) Alpha. In participants with diabetes, comparing the blood level measurements of those with neuropathy vs. those without neuropathy.
Time frame: Assessed one time per subject during study (study completed over 3 years)
Serum biomarkers - fibrinogen
Measuring serum biomarkers (blood levels) fibrinogen. In participants with diabetes, comparing the blood level measurements of those with neuropathy vs. those without neuropathy.
Time frame: Assessed one time per subject during study (study completed over 3 years)
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Subjects will undergo a one time blood draw for biomarkers.