Fluid-structure interaction effects on sac-blood pressure and wall stress in a stented aneurysm

Journal of Biomechanical Engineering

Volumn 127, Issue 4, 2005, Pages 662-671

  Li, Z ^a   Kleinstreuer, C ^a  

^a North Carolina State University   (United States)

Author keywords

Abdominal aortic aneurysm; Computational fluid structure interaction simulations; Sac pressure; Stented aneurysm; Wall stress

Indexed keywords

COMPUTATIONAL FLUID DYNAMICS; COMPUTER SIMULATION; FLUID STRUCTURE INTERACTION; GRAFTS; HEMODYNAMICS; MATHEMATICAL MODELS; MECHANICAL PROPERTIES; SURGERY;

ABDOMINAL AORTIC ANEURYSM; COMPUTATIONAL FLUID-STRUCTURE INTERACTION SIMULATION; SAC PRESSURE; STENTED ANEURYSM; WALL STRESSES;

BLOOD VESSELS;

ABDOMINAL AORTA ANEURYSM; ANEURYSM RUPTURE; ARTERY WALL; ARTICLE; BLOOD FLOW; BLOOD PRESSURE; COMPUTATIONAL FLUID DYNAMICS; ENDOLEAK; ENDOVASCULAR SURGERY; GEOMETRY; MATHEMATICAL ANALYSIS; MODEL; PARAMETER; PRESSURE; SIMULATION; STENT; STRESS; THROMBUS;

ANIMALS; AORTA, ABDOMINAL; AORTIC ANEURYSM, ABDOMINAL; AORTIC RUPTURE; BLOOD FLOW VELOCITY; BLOOD PRESSURE; BLOOD VESSEL PROSTHESIS; COMPUTER SIMULATION; HUMANS; MODELS, CARDIOVASCULAR; STENTS; STRESS, MECHANICAL;

THROMBUS;

EID: 23644434742     PISSN: 01480731     EISSN: None     Source Type: Journal    
DOI: 10.1115/1.1934040     Document Type: Article

References (41)

1. Chuter, T., Ivancev, K., Malina, M., Resch, T., Brunkwall, J., Lindblad, B., and Risberg, B., 1997, "Aneurysm Pressure Following Endovascular Exclusion," Eur. J. Vasc. Endovasc Surg., 13, pp. 85-87.
2. Fisher, R. K., Brennan, J. A., Gilling-Smith, G. L., and Harris, P. L., 2000, "Continued Sac Expansion in the Absence of a Demonstrable Endoleak is an Indication for Secondary Intervention," Eur. J. Vasc. Endovasc Surg., 20, pp. 96-98.
3. Baum, R. A., Carpenter, J. P., and Cope, C., 2001, "Aneurysm Sac Pressure Measurements After Endovascular Repair of Abdominal Aortic Aneurysms," J. Vasc. Surg., 33, pp. 32-34.
4. Meier, G. H., Parker, F. M., Godziachvili, V., Demasi, R. J., Parent, F. N., and Gayle, R. G., 2001, "Endotension After Endovascular Aneurysm Repair: The Ancure Experience," J. Vasc. Surg., 34, pp. 421-426;
5. 2001, J. Vasc. Surg., 34 426-427.
6. Geoffrey, H. W., 2001, "What Are The Causes of Endotension?," J. Endovasc. Therapy, 8, pp. 454-456.
7. Veith, F. J., Baum, R. A., Ohki, T., Amor, M., Adiseshiah, M., Blankensteijn, J. D., Buth, J., Chuter, T. A. M., Fairman, R. M., Gilling-Smith, G., Harris, P. L., Hodgson, K. J., Hopkinson, B. R., Ivancev, K., Katzen, B. T., Lawrence-Brown, M., Meier, G. H., Malina, M., Makaroun, M. S., Parodi, J. C., Richter, G. M., Rubin, G. D., Stelter, W. J., White, G. H., White, R. A., Wisselink, W., and Zarins, C. K., 2002, "Nature and Significance of Endoleaks and Endotension: Summary of Opinions Expressed at an International Conference," J. Vasc. Surg., 35, pp. 1029-1035.
8. Mehta, M., Veith, F. J., Ohki, T., Lipsitz, E. C., Cayne, N. S., and Darling, R. C., 3rd, 2003, "Significance of Endotension, Endoleak, and Aneurysm Pulsatility After Endovascular Repair," J. Vasc. Surg., 37, pp. 842-846.
9. White, G. H., May, J., Petrasek, P., Waugh, R., Stephen, M., and Harris, J., 1999, "Endotension: An Explanation for Continued Aneurysm Growth After Successful Endoluminal Repair," J. Endovasc Surg., 6, pp. 308-315.
10. Gilling-Smith, G., Brennan, J., Harris, P., Bakran, A., Gould, D., and McWilliams, R., 1999, "Endotension After Endovascular Aneurysm Repair: Definition, Classification, and Strategies for Surveillance and Intervention," J. Endovasc. Surg., 6, pp. 305-307.
11. Gawenda, M., Jaschke, G., Winter, S., Wassmer, G., and Brunkwall, J., 2003, "Endotension as a Result of Pressure Transmission Through the Graft Following Endovascular Aneurysm Repair - An In Vitro Study," Eur. J. Vasc. Endovasc Surg., 26, pp. 501-505.
12. Pacanowski, J. R., Stevens, S. L., Freeman, M. B., Dieter, R. S., Klosterman, L. A., Kirkpatrick, S. S., Ragsdale, J. W., Davis, S. E., and Goldman, M. H., 2002, "Endotension Distribution and the Role of Thrombus Following Endovascular Aneurysm Exclusion," J. Endovasc. Therapy, 9, pp. 639-651.
13. Vallabhaneni, S. R., Gilling-Smith, G. L., Brennan, J. A., Heyes, R. R., Hunt, J. A., How, T. V., and Harris, P. L., 2003, "Can Intrasac Pressure Monitoring Reliably Predict Failure of Endovascular Aneurysm Repair?," J. Endovasc. Therapy, 10, pp. 524-530.
14. Gawenda, M., Heckenkamp, J., Zaehringer, M., and Brunkwall, J., 2002, "Intra-Aneurysm Sac Pressure - The Holy Grail of Endoluminal Grafting of Aneurysm," Eur. J. Vasc. Endovasc Surg., 24, pp. 139-145.
15. Lin, P. H., Bush, R. L., Katzman, J. B., Zemel, G., Puente, O. A., Katzen, B. T., and Lumsden, A. B., 2003, "Delayed Aortic Aneurysm Enlargement Due to Endotension After Endovascular Abdominal Aortic Aneurysm Repair," J. Vasc. Surg., 38, pp. 840-842.
16. Wang, D., Makaroun, M., Webster, M., and Vorp, D. A., 2002, "Effect of Intraluminal Thrombus on Wall Stress in Patient Specific Model of Abdominal Aortic Aneurysm," J. Vasc. Surg., 3, pp. 598-604.
17. Quemada, D., 1978, "Rheology of Concentrated Disperse System III. General Features of Proposed Non-Newtonian Model. Comparison With Experimental Data," Rheol. Acta, 17, pp. 643-653.
18. Buchanan, J. R., Kleinstreuer, C., and Comer, I. K., 2000, "Rheological Effects on Pulsatile Hemodynamics in a Stenosed Tube," Comput. Fluids, 29, pp. 695-724.
19. Thurbrikar, M., Al-Soudi, J., and Robicsek, F., 2001, "Wall Stress Studies of Abdominal Aortic Aneurysm in a Clinical Model," Ann. Vasc. Surg., 3, pp. 355-366.
20. Di Martino, E. S., Guadagni, G., Fumero, A., Ballerini, G., Spirito, R., Biglioli, P., and Redaelli, A., 2001, "Fluid-Structure Interaction Within Realistic Three-Dimensional Models of the Aneurysmatic Aorta as a Guidance to Assess the Risk of Rupture of the Aneurysm," Med. Eng. Phys., 23, pp. 647-655.
21. Vorp, D. A., Raghavan, M. L., and Webster, M. W., 1998, "Mechanical Wall Stress in Abdominal Aortic Aneurysm: Influence of Diameter and Asymmetry," J. Vasc. Surg., 27, pp. 632-639.
22. Hua, J., and Mower, R., 2001, "Simple Geometric Characteristics Fail to Reliable Predict Abdominal Aortic Aneurysm Wall Stress," J. Vasc. Surg., 34, pp. 308-315.
23. Mower, W. R., Quinones, W. J., and Gambhir, S. S., 1997, "Effect of Intraluminal Thrombus on Abdominal Aortic Aneurysm Wall Stress," J. Vasc. Surg., 26, pp. 602-608.
24. Inzoli, F., Boschetti, F., Zzppa, M., Longo, T., and Fumera, R., 1993, "Biomechanical Factors in Abdominal Aortic-Aneurysrn Rupture," Eur. J. Vasc. Surg., 7, pp. 667-674.
25. Suzuki, K., Ishiguchi, T., Kawatsu, S., Iwai, H., Maruyama, K., and Ishigaki, T., 2001, "Dilatation of EVGs by Luminal Pressures: Experimental Evaluation of Polytetrafluorothylene (PTFE) and Woven Polyester Grafts," Cardiovasc. Intervent Radiol., 24, pp. 94-98.
26. Meter, O., 2000, "Numerical Simulation and Experimental Validation of Blood Flow in Arteries With Structured-Tree Outflow Conditions," Ann. Biomed. Eng., 28, pp. 1281-1299.
27. ANSYS Inc., 2003, "ANSYS Release 7.1 Documentation," ANSYS Company, Pittsburgh, PA.
28. Raghavan, M. L., and Vorp, D. A., 2000, "Toward a Biomechanical Tool to Evaluate Rupture Potential of Abdominal Aortic Aneurysm: Identification of a Finite Strain Constitutive Model and Evaluation of its Applicability," J. Biomech., 33, pp. 475-482.
29. Nichols, W. W., and O'Rourke, M. F., 1998, McDonald's Blood Flow in Arteries, LEA & FEBIGER, Philadelphia, London, UK, pp. 81-85.
30. Malina, M., Länne, T., Ivancev, K., Lindblad, B., and Brunkwall, J., 1998, "Reduced Pulsatile Wall Motion of Abdominal Aortic Aneurysms After Endovascular Repair," J. Vasc. Surg., 27, pp. 624-631.
31. Blankensteijn, J. D., and Prinssen, M., 2002, "Does Fresh Clot Shrink Faster Than Preexistent Mural Thrombus After Endovascular AAA Repair?," J. Endovasc. Therapy, 9, pp. 458-463.
32. Sonesson, B., Dias, N., Malina, M., Olofsson, P., Griffin, D., Lindblad, B., and Ivancev, K., 2003, "Intra-Aneurysm Pressure Measurements in Successfully Excluded Abdominal Aortic Aneurysm After Endovascular Repair," J. Vasc. Surg., 37, pp. 733-738.
33. Womersley, J., 1957, "Oscillatory Flow in Arteries: The Constrained Elastic Tube as a Model of Arterial Flow and Pulse Transmission," Phys. Med. Biol., 2, pp. 178-187.
34. Gawenda, M., Knez, P., Winter, S., Jaschke, G., Wassmer, G., Schmitz-Rixen, T., and Brunkwall, J., 2004, "Endotension is Influenced By Wall Compliance in a Latex Aneurysm Model," Eur. J. Vasc. Endovasc Surg., 27, pp. 45-50.
35. Parodi, J. C., Berguer, R., Ferreira, L., Mura, R., and Schermerhorn, M., 2001, "Intra-Aneurysmal Pressure After Incomplete Endovascular Exclusion," J. Vasc. Surg., 33, pp. 909-914.
36. Dias, N., Ivancev, K., Malina, M., Resch, T., Lindblad, B., and Sonesson, B., 2004, "Intra-Aneurysm Sac Pressure Measurements After Endovascular Aneurysm Repair: Differences Between Shrinking, Unchanged, and Expanding Aneurysms With and Without Endoleaks," J. Vasc. Surg., 39, pp. 1229-1235.
37. Gawenda, M., Winter, S., Jaschke, G., Wassmer, G., and Brunkwall, J., 2003, "Endotension is Influenced by Aneurysm Volume: Experimental Findings," J. Endovasc. Therapy, 10, pp. 1091-1096.
38. Brunkwall, J., Gawenda, M., Winter, S., Jaschke, G., and Wassmer, G., 2004, "Effect of Aneurysm Volume on Pressure Measurement in the Aneurysm Sac," J. Endovasc. Therapy, 11, pp. 11-11.
39. Harter, L. P., Gross, B. H., Gallen, R. A., and Barm, R. A., 1983, "Ultrasonic Evaluation Of Abdominal Arotic Thrombus," J. Ultrasound Med., 1, pp. 315-318.
40. Skillern, C. S., Stevens, S. L., Piercy, K. T., Donnell, R. L., Freeman, M. B., and Goldman, M. H., 2002, "Endotension in an Experimental Aneurysm Model," J. Vasc. Surg., 36, pp. 814-817.
41. Vorp, D. A., Lee, P. C., Wang, D. H., Makaroun, M. S., Nemoto, E. M., Ogawa, S., and Webster, M. W., 2001, "Association of Intraluminal Thrombus in Abdominal Aortic Aneurysm with Local Hypoxia and Wall Weakening," J. Vasc. Surg., 34, pp. 291-299.