LA UTILIDAD DE REALIZAR MEDICIONES NO INVASIVAS DE LA FUNCION VASCULAR EN LA PRACTICA CLINICA

(especial para SIIC © Derechos reservados)
Se discuten las estrategias disponibles para medir la función arterial y su trascendencia en la práctica clínica.
Autor:
Andrew m Wilson
Columnista Experto de SIIC

Institución:
Stanford University Medical Center, Cardiovascular Medicine Division


Artículos publicados por Andrew m Wilson
Coautor
Marno C Ryan* 
MBBS, MD, Stanford University Medical Center, Cardiovascular Medicine Division, Stanford, EE.UU.*
Recepción del artículo
28 de Abril, 2006
Aprobación
19 de Mayo, 2006
Primera edición
12 de Octubre, 2006
Segunda edición, ampliada y corregida
7 de Junio, 2021

Resumen
Los cambios en la función vascular, como en el funcionamiento endotelial y en la rigidez arterial, son indicadores tempranos fundamentales en la evolución de la enfermedad cardiovascular en los seres humanos, y su medición con métodos no invasivos se utiliza ampliamente en la investigación clínica. Numerosos índices no invasivos se correlacionan adecuadamente con mediciones más directas e invasivas y, por lo tanto, pueden utilizarse en cohortes de gran tamaño, posiblemente fuera del laboratorio. La función arterial puede examinarse por medios no invasivos y está alterada en los sujetos con enfermedad vascular o alto riesgo de padecerla. Se han utilizado diversas mediciones en la detección sistemática en la población, en estudios de casos y controles y en trabajos prospectivos de cohorte debido a que pueden mostrar anormalidades antes de la presentación manifiesta de enfermedad cardiovascular, incluso en las personas con hipercolesterolemia, hipertensión arterial, diabetes e insuficiencia renal crónica. En la presente revisión discutimos una variedad de mediciones de la función arterial que se encuentran disponibles en el contexto de la investigación clínica y su posibilidad de aplicación en el consultorio. Se discute el modo en que las alteraciones en una prueba pueden o no reflejar los cambios observados en otras evaluaciones en el mismo paciente. Finalmente, se mencionan las ventajas y limitaciones de varias técnicas, con especial atención a los factores que actualmente restringen su uso en la práctica diaria.

Palabras clave
Función endotelial, rigidez arterial, riesgo vascular, función arterial


Artículo completo

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Abstract
Changes in vascular function such as endothelial function and arterial stiffness are key early features in the development of human cardiovascular disease, and non-invasive measures of vascular function have been utilized extensively in clinical research. Many non-invasive indices correlate well with more direct and invasive measures and thus can be applied to large cohorts, potentially outside of a laboratory. Arterial function can be assessed non-invasively, and is abnormal in subjects with or at high risk of developing vascular disease. Many measures have been applied to population screening, case control and prospective cohort studies and can be abnormal before overt cardiovascular disease develops including subjects with hypercholesterolemia, hypertension, diabetes, and chronic renal failure. In this review, we discuss a range of arterial function measures that are available in the clinical research setting and the potential for these to be employed in the clinic. We discuss how abnormalities in one measure may or not be reflective of changes seen in other measures in the same patient. Finally, benefits and limitations of various techniques are discussed, particularly focused on factors currently limiting use in a clinical setting.

Key words
Endothelial function, arterial stiffness, vascular risk, arterial function


Full text
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Clasificación en siicsalud
Artículos originales > Expertos del Mundo >
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Especialidades
Principal: Cardiología
Relacionadas: Diagnóstico por Imágenes, Endocrinología y Metabolismo, Medicina Interna



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Enviar correspondencia a:
Andrew Wilson, Stanford University Medical Center, 300 Pasteur Drive, Stanford, EE.UU.
Bibliografía del artículo
1. Blacher J, Asmar R, Djane S, London GM, Safar ME. Aortic pulse wave velocity as a marker of cardiovascular risk in hypertensive patients. Hypertension 1999; 33:1111-7.
2. Asmar R, Safar M, Queneau P. Pulse pressure: an important tool in cardiovascular pharmacology and therapeutics. Drugs 2003; 63:927-32.
3. Asmar R, Topouchian J, Pannier B, Benetos A, Safar M. Pulse wave velocity as endpoint in large-scale intervention trial. The Complior study. Scientific, Quality Control, Coordination and Investigation Committees of the Complior Study. J Hypertens 2001; 19:813-8.
4. Williams B, Lacy PS, Thom SM, et al. Differential impact of blood pressure-lowering drugs on central aortic pressure and clinical outcomes: principal results of the Conduit Artery Function Evaluation (CAFE) study. Circulation 2006; 113:1213-25.
5. Cohn JN, Finkelstein S, McVeigh G, et al. Noninvasive pulse wave analysis for the early detection of vascular disease. Hypertension 1995; 26:503-8.
6. Glasser SP, Arnett DK, McVeigh GE, et al. Vascular compliance and cardiovascular disease: a risk factor or a marker? Am J Hypertens 1997; 10:1175-89.
7. Celermajer DS, Sorensen KE, Gooch VM, et al. Non-invasive detection of endothelial dysfunction in children and adults at risk of atherosclerosis. Lancet 1992; 340:1111-5.
8. Karamanoglu M, O'Rourke MF, Avolio AP, Kelly RP. An analysis of the relationship between central aortic and peripheral upper limb pressure waves in man. Eur Heart J 1993; 14:160-7.
9. O'Rourke MF, Staessen JA, Vlachopoulos C, Duprez D, Plante GE. Clinical applications of arterial stiffness; definitions and reference values. Am J Hypertens 2002; 15:426-44.
10. Corretti MC, Anderson TJ, Benjamin EJ, et al. Guidelines for the ultrasound assessment of endothelial-dependent flow-mediated vasodilation of the brachial artery: a report of the International Brachial Artery Reactivity Task Force. J Am Coll Cardiol 2002; 39:257-65.
11. Meeking DR, Cummings MH, Thorne S, et al. Endothelial dysfunction in Type 2 diabetic subjects with and without microalbuminuria. Diabet Med 1999; 16:841-7.
12. Pinkney JH, Downs L, Hopton M, Mackness MI, Bolton CH. Endothelial dysfunction in Type 1 diabetes mellitus: relationship with LDL oxidation and the effects of vitamin E. Diabet Med 1999; 16:993-9.
13. Park JB, Charbonneau F, Schiffrin EL. Correlation of endothelial function in large and small arteries in human essential hypertension. J Hypertens 2001; 19:415-20.
14. Bellamy MF, McDowell IF, Ramsey MW, et al. Hyperhomocysteinemia after an oral methionine load acutely impairs endothelial function in healthy adults. Circulation 1998; 98:1848-52.
15. Simons LA, Sullivan D, Simons J, Celermajer DS. Effects of atorvastatin monotherapy and simvastatin plus cholestyramine on arterial endothelial function in patients with severe primary hypercholesterolaemia. Atherosclerosis 1998; 137:197-203.
16. Woo KS, Chook P, Lolin YI, Sanderson JE, Metreweli C, Celermajer DS. Folic acid improves arterial endothelial function in adults with hyperhomocystinemia. J Am Coll Cardiol 1999; 34:2002-6.
17. Skyrme-Jones RA, O'Brien RC, Berry KL, Meredith IT. Vitamin E supplementation improves endothelial function in type I diabetes mellitus: a randomized, placebo-controlled study. J Am Coll Cardiol 2000; 36:94-102.
18. Kinlay S, Creager MA, Fukumoto M, et al. Endothelium-derived nitric oxide regulates arterial elasticity in human arteries in vivo. Hypertension 2001; 38:1049-53.
19. Parvathaneni L, Harp J, Zelinger A, Silver MA. Relation between brachial artery reactivity and noninvasive large and small arterial compliance in healthy volunteers. Am J Cardiol 2002; 89:894-5.
20. Chambless LE, Folsom AR, Clegg LX, et al. Carotid wall thickness is predictive of incident clinical stroke: the Atherosclerosis Risk in Communities (ARIC) study. Am J Epidemiol 2000; 151:478-87.
21. Abbott RD, Rodriguez BL, Petrovitch H, et al. Ankle-brachial blood pressure in elderly men and the risk of stroke: the Honolulu Heart Program. J Clin Epidemiol 2001; 54:973-8.
22. Franklin SS, Gustin Wt, Wong ND, et al. Hemodynamic patterns of age-related changes in blood pressure. The Framingham Heart Study. Circulation 1997; 96:308-15.
23. Kelly R, Hayward C, Avolio A, O'Rourke M. Noninvasive determination of age-related changes in the human arterial pulse. Circulation 1989; 80:1652-9.
24. Finkelstein SM, Cohn JN. First- and third-order models for determining arterial compliance. J Hypertens Suppl 1992; 10:S11-4.
25. McVeigh GE, Allen PB, Morgan DR, Hanratty CG, Silke B. Nitric oxide modulation of blood vessel tone identified by arterial waveform analysis. Clin Sci (Lond) 2001; 100:387-93.
26. Liang YL, Teede H, Kotsopoulos D, et al. Non-invasive measurements of arterial structure and function: repeatability, interrelationships and trial sample size. Clin Sci (Lond) 1998; 95:669-79.
27. Monnink SH, van Haelst PL, van Boven AJ, et al. Endothelial dysfunction in patients with coronary artery disease: a comparison of three frequently reported tests. J Investig Med 2002; 50:19-24.
28. Feskens EJ, Kromhout D. Glucose tolerance and the risk of cardiovascular disease: the Zutphen Study. J Clin Epidemiol 1992; 45:1327-34.
29. Wilkinson IB, Qasem A, McEniery CM, Webb DJ, Avolio AP, Cockcroft JR. Nitric oxide regulates local arterial distensibility in vivo. Circulation 2002; 105:213-7.
30. Klemsdal TO, Andersson TL, Matz J, Ferns GA, Gjesdal K, Anggard EE. Vitamin E restores endothelium dependent vasodilatation in cholesterol fed rabbits: in vivo measurements by photoplethysmography. Cardiovasc Res 1994; 28:1397-402.
31. Dawes M, Chowienczyk PJ, Ritter JM. Effects of inhibition of the L-arginine/nitric oxide pathway on vasodilation caused by beta-adrenergic agonists in human forearm. Circulation 1997; 95:2293-7.
32. Teragawa H, Kato M, Kurokawa J, Yamagata T, Matsuura H, Chayama K. Usefulness of flow-mediated dilation of the brachial artery and/or the intima-media thickness of the carotid artery in predicting coronary narrowing in patients suspected of having coronary artery disease. Am J Cardiol 2001; 88:1147-51.
33. Franklin SS, Khan SA, Wong ND, Larson MG, Levy D. Is pulse pressure useful in predicting risk for coronary heart Disease? The Framingham heart study. Circulation 1999; 100:354-60.
34. Benetos A, Rudnichi A, Safar M, Guize L. Pulse pressure and cardiovascular mortality in normotensive and hypertensive subjects. Hypertension 1998; 32:560-4.
35. Franklin SS, Larson MG, Khan SA, et al. Does the relation of blood pressure to coronary heart disease risk change with aging? The Framingham Heart Study. Circulation 2001; 103:1245-9.
36. Wilkinson IB, Franklin SS, Hall IR, Tyrrell S, Cockcroft JR. Pressure Amplification Explains Why Pulse Pressure Is Unrelated to Risk in Young Subjects. Hypertension 2001; 38:1461-1466.
37. Wilson AM, O'Neal D, Nelson CL, Prior DL, Best JD, Jenkins AJ. Comparison of arterial assessments in low and high vascular disease risk groups. Am J Hypertens 2004; 17:285-91.

 
 
 
 
 
 
 
 
 
 
 
 
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