Edited by Manasi Talwadekar
December 09, 2024
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TOPLINE:
Increased cutaneous carbonyl stress is linked to slower nerve conduction in patients with metabolically well-controlled, recent-onset type 2 diabetes (T2D) and can predict the development of neuropathic deficits over 5 years.
METHODOLOGY:
- Accumulation of advanced glycation end products (AGEs), which results from endogenous carbonyl stress, may be a potential target for preventing and treating the diabetic sensorimotor polyneuropathy (DSPN) that is a common complication of T2D.
- Researchers investigated novel cutaneous biomarkers for the development and progression of DSPN in 160 individuals with recent-onset T2D (diagnosed within 12 months or less) and 144 individuals with normal glucose tolerance, all recruited consecutively from the German Diabetes Study baseline cohort.
- Peripheral nerve function was assessed through nerve conduction studies, quantitative sensory testing, and clinical neuropathy scores.
- Skin biopsies were used to analyze intraepidermal nerve fiber density, endothelial integrity, cutaneous oxidative stress markers, and cutaneous carbonyl stress markers, including AGE autofluorescence and argpyrimidine area.
- Skin autofluorescence was measured noninvasively using an AGE reader device.
- A subgroup of 80 patients with T2D were reassessed after 5 years to evaluate the progression of neurophysiological deficits.
TAKEAWAY:
- Patients with recent-onset T2D had greater AGE autofluorescence and argpyrimidine area (P ≤ .05 for both) and lower nerve fiber density (P ≤ .05) than individuals with normal glucose tolerance.
- In patients with T2D, AGE autofluorescence was inversely associated with nerve conduction (P = .0002, P = .002, and P = .001 for peroneal motor, median motor, and sural sensory nerve conduction velocity, respectively) and positively associated with AGE reader measurements (P < .05); no such associations were observed in those with normal glucose tolerance.
- In the prospective T2D cohort, associations were noted between cutaneous markers for AGEs and endothelial cells at baseline and changes in nerve function indices over a 5-year period.
IN PRACTICE:
“Prospective analyses revealed some predictive value of cutaneous AGEs and lower endothelial integrity for declining nerve function, supporting the role of carbonyl stress in the development and progression of DSPN, representing a potential therapeutic target,” the authors wrote.
SOURCE:
The study was led by Gidon J. Bönhof, Department of Endocrinology and Diabetology, Medical Faculty, University Hospital Düsseldorf, Heinrich Heine University Düsseldorf, Düsseldorf, Germany. It was published online in Diabetes Care.
LIMITATIONS:
The observational design of the study limited the ability to draw causal conclusions. The groups were not matched for age or body mass index. Various mechanisms related to DSPN were analyzed; however, specific pathways of AGEs were not studied in detail. The relatively low number of individuals with clinically manifested DSPN limited the exploration of different stages of the condition.
DISCLOSURES:
The study was supported by a German Center for Diabetes Research grant. The German Diabetes Study was supported by the German Diabetes Center funded by the German Federal Ministry of Health (Berlin, Germany), the Ministry of Innovation, Science, Research and Technology of North Rhine-Westphalia (Düsseldorf, Germany), and grants from the German Federal Ministry of Education and Research to the German Center for Diabetes Research e.V. No relevant conflicts of interest were reported.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.
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