Relationship between media-to-lumen ratio of subcutaneous small arteries and wall-to-lumen ratio of retinal arterioles evaluated noninvasively by scanning laser Doppler flowmetry

Background: Structural alterations of subcutaneous small resistance arteries, as indicated by an increased media-to-lumen ratio, are frequently present in hypertensive and/or diabetic patients, and may represent the earliest alteration observed. Furthermore, media-to-lumen ratio of small arteries evaluated by micromyography has a strong prognostic significance; however, its extensive evaluation is limited by the invasivity of the assessment, since a biopsy of subcutaneous fat is needed. Noninvasive measurement of wall-to-lumen of retinal arterioles using scanning laser Doppler flowmetry (SLDF) has recently been introduced. However, this new technique has not yet been compared to micromyographic measurement, generally considered the gold standard approach. Methods and results: We investigated 40 individuals and patients, 24 of them were hypertensive patients and 16 normotensive individuals. All patients underwent a biopsy of subcutaneous fat during an elective surgical intervention. Subcutaneous small resistance arteries were dissected and mounted on a wire myograph, and media-to-lumen ratio was measured. In addition, an evaluation of wall-to-lumen ratio of retinal arterioles by SLDF was performed (Heidelberg Retina Flowmeter, Heidelberg Engineering). A close correlation was observed between media-to-lumen ratio of subcutaneous small arteries and wall-to-lumen ratio of retinal arterioles (r = 0.76, P < 0.001; P < 0.001, r2 = 0.57). Conclusion: A noninvasive and easily repeatable procedure (intraobserver and interobserver variation coefficient <13%) such as an evaluation of the arterioles in the fundus oculi by SLDF may provide similar information regarding microvascular morphology compared with an invasive, accurate and prognostically relevant micromyographic measurement of media-to-lumen ratio of subcutaneous small arteries.

[1]  R. Schmieder,et al.  New software analyses increase the reliability of measurements of retinal arterioles morphology by scanning laser Doppler flowmetry in humans , 2011, Journal of hypertension.

[2]  R. Schmieder,et al.  Wall-to-lumen ratio of retinal arterioles is related with urinary albumin excretion and altered vascular reactivity to infusion of the nitric oxide synthase inhibitor N-monomethyl-L-arginine , 2009, Journal of hypertension.

[3]  A. Dominiczak,et al.  Reappraisal of European guidelines on hypertension management: a European Society of Hypertension Task Force document. , 2009, Journal of hypertension.

[4]  R. Schmieder,et al.  Wall-to-lumen ratio of retinal arterioles and arteriole-to-venule ratio of retinal vessels in patients with cerebrovascular damage. , 2009, Investigative ophthalmology & visual science.

[5]  Roland E Schmieder,et al.  Wall-to-Lumen Ratio of Retinal Arterioles as a Tool to Assess Vascular Changes , 2009, Hypertension.

[6]  A. Heagerty,et al.  Eutrophic Remodeling of Small Arteries in Type 1 Diabetes Mellitus Is Enabled by Metabolic Control: A 10-Year Follow-Up Study , 2009, Hypertension.

[7]  Giuseppe Mancia,et al.  Is retinal arteriolar–venular ratio associated with cardiac and extracardiac organ damage in essential hypertension? , 2009, Journal of hypertension.

[8]  D. Rizzoni,et al.  Effects of antihypertensive treatment on small artery remodelling , 2009, Journal of hypertension.

[9]  C. Cuspidi,et al.  Retinal changes and cardiac remodelling in systemic hypertension , 2009, Therapeutic advances in cardiovascular disease.

[10]  C. de Ciuceis,et al.  Altered structure of small cerebral arteries in patients with essential hypertension , 2009, Journal of hypertension.

[11]  M. E. Martínez-Pérez,et al.  Effect of antihypertensive treatment on retinal microvascular changes in hypertension , 2008, Journal of hypertension.

[12]  R. Schmieder,et al.  Analysis of retinal arteriolar structure in never-treated patients with essential hypertension , 2008, Journal of hypertension.

[13]  R. Schmieder,et al.  Increased Wall: Lumen Ratio of Retinal Arterioles in Male Patients With a History of a Cerebrovascular Event , 2007, Hypertension.

[14]  M. Mulvany Small artery structure: time to take note? , 2007, American journal of hypertension.

[15]  C. de Ciuceis,et al.  Structural alterations of subcutaneous small-resistance arteries may predict major cardiovascular events in patients with hypertension. , 2007, American journal of hypertension.

[16]  A. Dominiczak,et al.  2007 Guidelines for the Management of Arterial Hypertension: The Task Force for the Management of Arterial Hypertension of the European Society of Hypertension (ESH) and of the European Society of Cardiology (ESC) , 2007, European heart journal.

[17]  A. Heagerty Predicting hypertension complications from small artery structure. , 2007, Journal of hypertension.

[18]  K. Thygesen,et al.  Small artery structure is an independent predictor of cardiovascular events in essential hypertension , 2006, Journal of hypertension.

[19]  G. Grassi,et al.  Assessment of retinal vascular changes in hypertension: new perspectives. , 2006, Journal of hypertension.

[20]  Neil Chapman,et al.  Quantification of topological changes in retinal vascular architecture in essential and malignant hypertension , 2006, Journal of hypertension.

[21]  E. Schiffrin Remodeling of resistance arteries in essential hypertension and effects of antihypertensive treatment. , 2004, American journal of hypertension.

[22]  E. Schiffrin,et al.  From bedside to bench to bedside: role of renin-angiotensin-aldosterone system in remodeling of resistance arteries in hypertension. , 2004, American journal of physiology. Heart and circulatory physiology.

[23]  F. Magrini,et al.  High prevalence of retinal vascular changes in never‐treated essential hypertensives: an inter‐ and intra‐observer reproducibility study with non‐mydriatic retinography , 2004, Blood pressure.

[24]  C. de Ciuceis,et al.  Prognostic Significance of Small-Artery Structure in Hypertension , 2003, Circulation.

[25]  R. Klein,et al.  Retinal arteriolar narrowing and risk of coronary heart disease in men and women. The Atherosclerosis Risk in Communities Study. , 2002, JAMA.

[26]  R. Klein,et al.  Retinal microvascular abnormalities and incident stroke: the Atherosclerosis Risk in Communities Study , 2001, The Lancet.

[27]  E. Schiffrin,et al.  Small artery remodeling is the most prevalent (earliest?) form of target organ damage in mild essential hypertension , 2001, Journal of hypertension.

[28]  E. Porteri,et al.  Structural Alterations in Subcutaneous Small Arteries of Normotensive and Hypertensive Patients With Non–Insulin-Dependent Diabetes Mellitus , 2001, Circulation.

[29]  G Michelson,et al.  Automatic full field analysis of perfusion images gained by scanning laser Doppler flowmetry , 1998, The British journal of ophthalmology.

[30]  E. Schiffrin,et al.  How to assess vascular remodelling in small and medium‐sized muscular arteries in humans , 1997, Journal of hypertension.

[31]  E. Porteri,et al.  Vascular hypertrophy and remodeling in secondary hypertension. , 1996, Hypertension.

[32]  E. Schiffrin,et al.  Structure and function of resistance arteries of hypertensive patients treated with a p-blocker or a calcium channel antagonist , 1996, Journal of hypertension.

[33]  M. Mulvany,et al.  Structure and function of small arteries. , 1990, Physiological reviews.

[34]  A. Heagerty,et al.  Evidence for increased media thickness, increased neuronal amine uptake, and depressed excitation--contraction coupling in isolated resistance vessels from essential hypertensives. , 1987, Circulation research.

[35]  M. Mulvany,et al.  Direct Evidence that the Greater Contractility of Resistance Vessels in Spontaneously Hypertensive Rats is Associated with a Narrowed Lumen, a Thickened Media, and an Increased Number of Smooth Muscle Cell Layers , 1978, Circulation research.

[36]  H G SCHEIE,et al.  Evaluation of ophthalmoscopic changes of hypertension and arteriolar sclerosis. , 1953, A.M.A. archives of ophthalmology.

[37]  N. M. Keith,et al.  Some Different Types Of Essential Hypertension: Their Course And Prognosis , 1939, The American journal of the medical sciences.

[38]  D. Rizzoni,et al.  Chapter 47 – The Effects of Hypertension on the Structure of Human Resistance Vessels , 2007 .

[39]  H. Iwao,et al.  [Vascular remodeling]. , 2000, Nihon rinsho. Japanese journal of clinical medicine.

[40]  E. Schiffrin,et al.  Effects of a beta-blocker or a converting enzyme inhibitor on resistance arteries in essential hypertension. , 1994, Hypertension.

[41]  J. Singh,et al.  Hypertensive retinopathy. , 1983, Indian journal of ophthalmology.