Observational study links cutaneous microvascular function to chronic kidney disease severitySkin blood flow changes may link to kidney disease

medRxiv Published April 27, 2026 Study authors: Ahmadi, A.; Rahaman, M.; Harsh, A.; Yang, J.; Ghanim, B.; Dasgupta, S.; Weinreb, R. N.; Rahman, T.; … DOI ↗ Editorial oversight: Dr. Amelia Tan, PhD · Internal Medicine & Chronic Disease

AI-generated summary of the cited source, checked by automated accuracy review. How we work

Key Takeaway

Note the association between impaired cutaneous microvascular reserve and increased severity of chronic kidney disease.

This observational study examined 150 participants with chronic kidney disease (eGFR <90 mL/min/1.73 m2) to assess the relationship between cutaneous microvascular function, measured via Laser Doppler flowmetry, and markers of kidney disease. The researchers utilized multivariable linear regression and clustering to evaluate associations between perfusion units (PU) and renal outcomes.

Key findings indicated that higher baseline perfusion was associated with lower eGFR (beta = -12; 95% CI, -24 to -1). Additionally, a reduced percentage change in PU was associated with lower eGFR (beta = 7; 95% CI, 2 to 13). In a subset of 20 participants with biopsy data, higher baseline PU and lower percent change were associated with greater glomerulosclerosis (GS) and interstitial fibrosis/tubular atrophy (IFTA) severity. No association was observed between these microvascular measures and the urine protein-to-creatinine ratio (uPCR).

The authors noted that the subset used for histopathology analysis was small (n=20). Because this study is observational, the reported associations between cutaneous microvascular function and kidney disease markers do not establish causation.

For clinicians, these data suggest that chronic kidney disease may be characterized by elevated resting cutaneous perfusion and impaired microvascular reserve, which correlate with lower eGFR and histopathologic injury.

Researchers looked at the relationship between skin blood flow and chronic kidney disease (CKD) in a small group of 150 people. The study focused on how blood moves through the tiny vessels in the skin, using a method called Laser Doppler flowmetry to measure perfusion.

The study found that certain patterns in skin blood flow were linked to kidney health. Specifically, higher baseline blood flow in the skin was associated with lower kidney function (eGFR). Additionally, a reduced ability for these skin vessels to respond to changes in temperature was also linked to lower kidney function.

When looking at a smaller group of 20 participants who had kidney biopsies, the researchers found that these skin blood flow patterns were also associated with more severe kidney scarring and damage. However, these skin measurements did not show a link to protein levels in the urine.

Because this was an observational study, it shows a link rather than proving that skin blood flow changes cause kidney disease. The findings are early, and the group of people with biopsy data was quite small. More research is needed to understand what these connections mean for patient care.

What this means for you:

Skin blood flow patterns show a link to kidney function and scarring, but this does not prove a cause-and-effect relationship.

Study Details

Sample sizen = 20

EvidenceLevel 5

PublishedApr 2026

View Original Abstract ↓

Background: Microvascular dysfunction contributes to chronic kidney disease (CKD), but reproducible clinical measures are limited. Laser Doppler flowmetry (LDF) provides a noninvasive assessment of cutaneous microvascular blood flow and may reflect systemic microvascular health. Its relationship with kidney function and histopathology in CKD remains unclear. Methods: We assessed cutaneous microvascular function in 150 participants with CKD (eGFR <90 mL/min/1.73 m2) using a standardized forearm LDF protocol. Baseline perfusion was recorded at ~30{degrees}C, followed by local heating to 44{degrees}C to induce hyperemia. Percent change in perfusion units (PU) defined microvascular functional reserve. Associations of LDF measures with eGFR and urine protein-to-creatinine ratio (uPCR) were evaluated using multivariable linear regression. K-means clustering identified microvascular phenotypes. In a subset (n=20), associations with glomerulosclerosis (GS) and interstitial fibrosis/tubular atrophy (IFTA) were examined. Results: The mean (SD) age was 64 (14) years, 46% were female. The mean eGFR was 42 (21) mL/min/1.73m2 and median uPCR was 0.21 (interquartile range (IQR) 0.11 to 1.20) mg/mg. Higher baseline PU ({beta} = -12; 95% CI, -24 to -1) and reduced percentage change in PU ({beta} = 7; 95% CI, 2 to 13) were associated with lower eGFR, independent of covariates. Neither measure was associated with uPCR. Clustering identified four phenotypes with graded differences in perfusion and reserve. In biopsy participants, higher baseline PU and lower percent change were associated with greater GS and IFTA severity. Conclusion: CKD is characterized by elevated resting perfusion and impaired microvascular reserve, which are associated with lower eGFR and histopathologic injury.

Observational study links cutaneous microvascular function to chronic kidney disease severitySkin blood flow changes may link to kidney disease

Study Details

Systematic review confirms clip anastomosis improves one and two year primary patency rates for arteriovenous fistula creation compared to suture methods

Vascular Clips Outperform Sutures for Dialysis Access Longevity

Clinical research that matters. Delivered to your inbox.

Observational study links cutaneous microvascular function to chronic kidney disease severitySkin blood flow changes may link to kidney disease

More on Chronic Kidney Disease

Study Details

Systematic review confirms clip anastomosis improves one and two year primary patency rates for arteriovenous fistula creation compared to suture methods

Vascular Clips Outperform Sutures for Dialysis Access Longevity

Clinical research that matters. Delivered to your inbox.

Related in Nephrology

From Other Specialties