Navegar

Colección

Datos Estadísticas

Artículo

Santana Bia, D.; Barra, J.G.; Armentano, R.L.; Zócalo, Y.; Pérez, H.; Saldías, M.; Álvarez, I.; Cabrera Fischer, E.I. "Cryografts implantation in human circulation would ensure a physiological transition in the arterial wall energetics, damping and wave reflection" (2008) Physiological Research. 57(3):351-363
Estamos trabajando para incorporar este artículo al repositorio
Consulte la política de Acceso Abierto del editor

Abstract:

As Each artery conduces blood (conduit function, CF) and smoothes out the pulsatility (buffering function, BF), while keeping its wall protected against the high oscillations of the pulse waves (damping function, ξ). These functions depend on each segment viscoelasticity and capability to store and dissipate energy. When a graft/prosthesis is implanted, the physiological gradual transition in the viscoelasticity and functionality of adjacent arterial segments is disrupted. It remains to be elucidated if the cryografts would allow keeping the physiological biomechanical transition. The aim of this study was to evaluate the cryografts capability to reproduce the functional, energetic and reflection properties of patients' arteries and fresh homografts. Common carotid's pressure, diameter and wall-thickness were recorded in vivo (15 patients) and in vitro (15 cryografts and 15 fresh homografts from donors). Calculus: elastic (Epd) and viscous (Vpd) indexes, CF, BF, dissipated (WD) and stored (WPS) energy and ξ. The graft-patient's artery matching was evaluated using the reflection coefficient (?) and reflected power (W?). Cryografts did not show differences in Epd, Vpd, BF, CF, WD, WPS, and ξ, in respect to fresh homografts and patients' arteries, ensuring a reduced Γ and WΓ. Cryografts could be considered as alternatives in arterial reconstructions since they ensure the gradual transition of patients' arteries biomechanical and functional behavior. © 2008 Institute of Physiology v.v.i., Academy of Sciences of the Czech Republic.

Registro:

Documento: Artículo
Título:Cryografts implantation in human circulation would ensure a physiological transition in the arterial wall energetics, damping and wave reflection
Autor:Santana Bia, D.; Barra, J.G.; Armentano, R.L.; Zócalo, Y.; Pérez, H.; Saldías, M.; Álvarez, I.; Cabrera Fischer, E.I.
Filiación:Departamento de Fisiología, Facultad de Medicina, Universidad de la República, Montevideo, Uruguay
Facultad de Ingeniería, Ciencias Exactas Y Naturales, Universidad Favaloro, Buenos Aires, Argentina
Instituto Nacional de Donación Y Transplante de Células, Órganos Y Tejidos, Ministerio de Salud Pública-Facultad de Medicina, Montevideo, Uruguay
Departamento de Fisiología, Facultad de Medicina, Universidad de la República, General Flores 2125, PC: 11800, Montevideo, Uruguay
Idioma: Inglés
Palabras clave:Arterial wall; Buffer function; Conduit function; Cryopreservation; Viscoelasticity; adult; article; biological model; bioprosthesis; blood pressure; blood vessel prosthesis; blood vessel transplantation; common carotid artery; cryopreservation; echography; elasticity; heart rate; human; instrumentation; male; materials testing; mechanical stress; middle aged; physiology; prosthesis; pulsatile flow; transplantation; Adult; Bioprosthesis; Blood Pressure; Blood Vessel Prosthesis; Blood Vessel Prosthesis Implantation; Carotid Artery, Common; Cryopreservation; Elasticity; Heart Rate; Humans; Male; Materials Testing; Middle Aged; Models, Cardiovascular; Prosthesis Design; Pulsatile Flow; Stress, Mechanical
Año:2008
Volumen:57
Número:3
Página de inicio:351
Página de fin:363
Título revista:Physiological Research
Título revista abreviado:Physiol. Res.
ISSN:08628408
CODEN:PHRSE
Registro:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_08628408_v57_n3_p351_SantanaBia

Referencias:

  • ABBOTT, W.M., MEGERMAN, J., HASSON, J.E., L'ITALIEN, G., WARNOCK, D.F., Effect of compliance mismatch on vascular graft patency (1987) J Vasc Surg, 5, pp. 376-382
  • ADHAM, M., GOURNIER, J.P., FAVRE, J.P., DE LA ROCHE, E., DUCERF, C., BAULIEUX, J., BARRAL, X., POUYET, M., Mechanical characteristics of fresh and frozen human descending thoracic aorta (1996) J Surg Res, 64, pp. 32-34
  • ALBERTINI, J.N., BARRAL, X., BRANCHEREAU, A., FAVRE, J.P., GUIDICELLI, H., MAGNE, J.L., MAGNAN, P.E., Long-term results of arterial allograft below-knee bypass grafts for limb salvage: A retrospective multicenter study (2000) J Vasc Surg, 31, pp. 426-435
  • ARMENTANO, R.L., LEVENSON, J., BARRA, J.G., FISCHER, E.I., BREITBART, G.J., PICHEL, R.H., SIMON, A., Assessment of elastin and collagen contribution to aortic elasticity in conscious dogs (1991) Am J Physiol, 260, pp. H1870-H1877
  • ARMENTANO, R.L., BARRA, J.G., LEVENSON, J., SIMON, A., PICHEL, R.H., Arterial wall mechanics in conscious dogs. Assessment of viscous, inertial, and elastic moduli to characterize aortic wall behavior (1995) Circ Res, 76, pp. 468-478
  • ARMENTANO, R., MEGNIEN, J.L., SIMON, A., BELLENFANT, F., BARRA, J., LEVENSON, J., Effects of hypertension on viscoelasticity of carotid and femoral arteries in humans (1995) Hypertension, 26, pp. 48-54
  • ARMENTANO, R.L., GRAF, S., BARRA, J.G., VELIKOVSKY, G., BAGLIVO, H., SANCHEZ, R., SIMON, A., LEVENSON, J., Carotid wall viscosity increase is related to intima-media thickening in hypertensive patients (1998) Hypertension, 31, pp. 534-539
  • ARMENTANO, R.L., BARRA, J.G., SANTANA, D.B., PESSANA, F.M., GRAF, S., CRAIEM, D., BRANDANI, L.M., SANCHEZ, R.A., Smart damping modulation of carotid wall energetics in human hypertension: Effects of angiotensin-converting enzyme inhibition (2006) Hypertension, 47, pp. 384-390
  • ARMENTANO, R., BARRA, J., PESSANA, F.M., CRAIEM, D.O., GRAF, S., BIA, D., SANCHEZ, R.A., Smart smooth muscle spring-dampers (2007) IEEE Eng Med Biol Mag, 26, pp. 62-70
  • BARRA, J.G., ARMENTANO, R.L., LEVENSON, J., FISCHER, E.I., PICHEL, R.H., SIMON, A., Assessment of smooth muscle contribution to descending thoracic aortic elastic mechanics in conscious dogs (1993) Circ Res, 73, pp. 1040-1050
  • BAUER, R.D., BUSSE, R., SCHABERT, A., SUMMA, Y., WETTERER, E., Separate determination of the pulsatile elastic and viscous forces developed in the arterial wall in vivo (1979) Pflugers Arch, 380, pp. 221-226
  • BIA, D., ARMENTANO, R., CRAIEM, D., GRIGNOLA, J., GINES, F., SIMON, A., LEVENSON, J., Smooth muscle role on pulmonary arterial function during acute pulmonary hypertension in sheep (2004) Acta Physiol Scand, 181, pp. 359-366
  • BIA, D., BARRA, J.G., GRIGNOLA, J.C., GINES, F.F., ARMENTANO, R.L., Pulmonary artery smooth muscle activation attenuates arterial dysfunction during acute pulmonary hypertension (2005) J Appl Physiol, 98, pp. 605-613
  • BIA, D., ZOCALO, Y., PESSANA, F., ARMENTANO, R., PEREZ-CAMPOS, H., SALDIAS, M., ALVAREZ, I., Femoral arteries energy dissipation and filtering function remain unchanged after cryopreservation procedure (2005) Transpl Int, 18, pp. 1346-1355
  • BIA, D., AGUIRRE, I., ZOCALO, Y., DERA, L., CABRERA, E., ARMENTANO, R., Regional differences in viscosity, elasticity and wall buffering function in systemic arteries: Pulse wave analysis of the arterial pressure-diameter relationship (2005) Rev Esp Cardiol, 58, pp. 167-174
  • BLONDEL, W.C.P.M., LEHALLE, B., MAURICE, G., WANG, X., STOLTZ, J.F., Rheological properties of fresh and cryopreserved human arteries tested in vitro (2000) Rheologica Acta, 39, pp. 461-468
  • CABRERA, E.I., ARMENTANO, R.L., PESSANA, F.M., GRAF, S., ROMERO, L., CHRISTEN, A.I., SIMON, A., LEVENSON, J., Endothelium-dependent arterial wall tone elasticity modulated by blood viscosity (2002) Am J Physiol, 282, pp. H389-H394
  • CABRERA, E., BIA, D., CASSANELLO, G., ZOCALO, Y., CRAWFORD, E., CASAS, R., ARMENTANO, R., Reduced elastic mismatch achieved by interposing vein cuff in expanded polytetrafluoroethylene femoral bypass decreases intimal hyperplasia (2005) Artif Organs, 29, pp. 122-130
  • CABRERA, E.I., BIA, D., CAMUS, J.M., ZOCALO, Y., DE FORTEZA, E., ARMENTANO, R.L., Adventitia-dependent mechanical properties of brachiocephalic ovine arteries in in vivo and in vitro studies (2006) Acta Physiol (Oxf), 188, pp. 103-111
  • CHOLLEY, B.P., LANG, R.M., KORCARZ, C.E., SHROFF, S.G., Smooth muscle relaxation and local hydraulic impedance properties of the aorta (2001) J Appl Physiol, 90, pp. 2427-2438
  • DOBSON, G., FLEWITT, J., TYBERG, J.V., MOORE, R., KARAMANOGLU, M., Endografting of the descending thoracic aorta increases ascending aortic input impedance and attenuates pressure transmission in dogs (2006) Eur J Vasc Endovasc Surg, 32, pp. 129-135
  • GRAF, S., GARIEPY, J., MASSONNEAU, M., ARMENTANO, R.L., MANSOUR, S., BARRA, J.G., SIMON, A., LEVENSON, J., Experimental and clinical validation of arterial diameter waveform and intimal media thickness obtained from B-mode ultrasound image processing (1999) Ultrasound Med Biol, 25, pp. 1353-1363
  • HANSEN, F., MANGELL, P., SONESSON, B., LANNE, T., Diameter and compliance in the human common carotid artery: Variations with age and sex (1995) Ultrasound Med Biol, 21, pp. 1-9
  • HIRAYAMA, H., NISHIMURA, T., FUKUYAMA, Y., An impedance matching of femoral-popliteal arterial grafts: A theoretical study (1997) Artif Organs, 21, pp. 379-390
  • JACOT, J., ABDULLAH, I., BELKIN, M., GERHARD-HERMAN, M., GACCIONE, P., POLAK, J.F., DONALDSON, M., CONTE, M., Early adaptation of human lower extremity vein grafts: Wall stiffness changes accompany geometric remodeling (2004) J Vasc Surg, 39, pp. 547-555
  • KREIENBERG, P.B., DARLING 3RD, R.C., CHANG, B.B., CHAMPAGNE, B.J., PATY, P.S., RODDY, S.P., LLOYD, W.E., SHAH, D.M., Early results of a prospective randomized trial of spliced vein versus polytetrafluoroethylene graft with a distal vein cuff for limb-threatening ischemia (2002) J Vasc Surg, 35, pp. 299-306
  • LANGERAK, S., GROENINK, M., DER, W.E., WASSENAAR, C., VANBAVEL, E., VAN BAAL, M., SPAAN, J., Impact of current cryopreservation procedures on mechanical and functional properties of human aortic homografts (2001) Transpl Int, 14, pp. 248-255
  • (2000) The Arterial Circulation. Physical Principles and Clinical Applications, , LI JKJ:, Humana Press, Towota, NJ
  • MORITA, S., ASOU, T., KUBOYAMA, I., HARASAWA, Y., SUNAGAWA, K., YASUI, H., Inelastic vascular prosthesis for proximal aorta increases pulsatile arterial load and causes left ventricular hypertrophy in dogs (2002) J Thorac Cardiovasc Surg, 124, pp. 768-774
  • NICHOLS, W.W., O'ROURKE, M.F., Properties of the arterial wall (1998) McDonald's Blood Flow in Arteries. Theoretical, Experimental and Clinical Principles, , NICHOLS W, MICHAEL F eds, Edward Arnold, London
  • PASCUAL, G., MARTINEZ, S., GARCIA-HONDUVILLA, N., CORRALES, C., BELLON, J.M., BUJAN, J., Long-term behaviour of cryopreserved arterial grafts versus prosthetic micrografts (2004) Eur J Vasc Endovasc Surg, 27, pp. 423-431
  • PEGG, D.E., WUSTEMAN, M.C., BOYLAN, S., Fractures in cryopreserved elastic arteries (1997) Cryobiology, 34, pp. 183-192
  • PEPINE, C.J., NICHOLS, W.W., Aortic input impedance in cardiovascular disease (1982) Prog Cardiovasc Dis, 24, pp. 307-318
  • PUKACKI, F., JANKOWSKI, T., GABRIEL, M., OSZKINIS, G., KRASINSKI, Z., ZAPALSKI, S., The mechanical properties of fresh and cryopreserved arterial homografts (2000) Eur J Vasc Endovasc Surg, 20, pp. 21-24
  • RECCHIA, F.A., BYRNE, B.J., KASS, D.A., Sustained vessel dilation induced by increased pulsatile perfusion of porcine carotid arteries in vitro (1999) Acta Physiol Scand, 166, pp. 15-21
  • RIGOL, M., HERAS, M., MARTINEZ, A., ZURBANO, M.J., AGUSTI, E., ROIG, E., POMAR, J.L., SANZ, G., Changes in the cooling rate and medium improve the vascular function in cryopreserved porcine femoral arteries (2000) J Vasc Surg, 31, pp. 1018-1025
  • ROSSET, E., FRIGGI, A., NOVAKOVITCH, G., ROLLAND, P.H., RIEU, R., PELLISSIER, J.F., MAGNAN, P.E., BRANCHEREAU, A., Effects of cryopreservation on the viscoelastic properties of human arteries (1996) Ann Vasc Surg, 10, pp. 262-272
  • SEIFALIAN, A.M., TIWARI, A., HAMILTON, G., SALACINSKI, H.J., Improving the clinical patency of prosthetic vascular and coronary bypass grafts: The role of seeding and tissue engineering (2002) Artif Organs, 26, pp. 307-320
  • SHADWICK, R.E., Mechanical design in arteries (1999) J Exp Biol, 202, pp. 3305-3313
  • TAI, N.R., GIUDICEANDREA, A., SALACINSKI, H.J., SEIFALIAN, A.M., HAMILTON, G., In vivo femoropopliteal arterial wall compliance in subjects with and without lower limb vascular disease (1999) J Vasc Surg, 30, pp. 936-945
  • TAI, N.R., SALACINSKI, H.J., EDWARDS, A., HAMILTON, G., SEIFALIAN, A.M., Compliance properties of conduits used in vascular reconstruction (2000) Br J Surg, 87, pp. 1516-1524
  • THAKRAR, R.R., PATEL, V.P., HAMILTON, G., FULLER, B.J., SEIFALIAN, A.M., Vitreous cryopreservation maintains the viscoelastic property of human vascular grafts (2006) FASEB J, 20, pp. 874-881
  • VISCHJAGER, M., VAN GULIK, T.M., VAN MARLE, J., PFAFFENDORF, M., JACOBS, M.J., Function of cryopreserved arterial allografts under immunosuppressive protection with cyclosporine A (1996) J Vasc Surg, 24, pp. 876-882
  • WELLS, S.M., LANGILLE, B.L., LEE, J.M., ADAMSON, S.L., Determinants of mechanical properties in the developing ovine thoracic aorta (1999) Am J Physiol, 277, pp. H1385-H1391
  • WESTERHOF, N., NOORDERGRAAF, A., Arterial viscoelasticity: A generalized model. Effect on input impedance and wave travel in the systematic tree (1970) J Biomech, 3, pp. 357-379
  • ZOCALO, Y., PESSANA, F., BIA, D., ARMENTANO, R., Regional differences in vein wall dynamics under arterial hemodynamic conditions: Comparison with arteries (2006) Artif Organs, 30, pp. 265-275

Citas:

---------- APA ----------
Santana Bia, D., Barra, J.G., Armentano, R.L., Zócalo, Y., Pérez, H., Saldías, M., Álvarez, I.,..., Cabrera Fischer, E.I. (2008) . Cryografts implantation in human circulation would ensure a physiological transition in the arterial wall energetics, damping and wave reflection. Physiological Research, 57(3), 351-363.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_08628408_v57_n3_p351_SantanaBia [ ]
---------- CHICAGO ----------
Santana Bia, D., Barra, J.G., Armentano, R.L., Zócalo, Y., Pérez, H., Saldías, M., et al. "Cryografts implantation in human circulation would ensure a physiological transition in the arterial wall energetics, damping and wave reflection" . Physiological Research 57, no. 3 (2008) : 351-363.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_08628408_v57_n3_p351_SantanaBia [ ]
---------- MLA ----------
Santana Bia, D., Barra, J.G., Armentano, R.L., Zócalo, Y., Pérez, H., Saldías, M., et al. "Cryografts implantation in human circulation would ensure a physiological transition in the arterial wall energetics, damping and wave reflection" . Physiological Research, vol. 57, no. 3, 2008, pp. 351-363.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_08628408_v57_n3_p351_SantanaBia [ ]
---------- VANCOUVER ----------
Santana Bia, D., Barra, J.G., Armentano, R.L., Zócalo, Y., Pérez, H., Saldías, M., et al. Cryografts implantation in human circulation would ensure a physiological transition in the arterial wall energetics, damping and wave reflection. Physiol. Res. 2008;57(3):351-363.
Available from: https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_08628408_v57_n3_p351_SantanaBia [ ]