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Journal of Medical Engineering & Technology Volume 27, 2003 - Issue 2
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Research Article

Measurement of the symmetry of in vitro stent expansion: a stereo-photogrammetric approach

A. J. Narracott Department of Medical Physics, University of Sheffield, UK
,
D. R. Hose Department of Medical Physics, University of Sheffield, UK
,
P. V. Lawford Department of Medical Physics, University of Sheffield, UK
&
J. Gunn Department of Clinical Sciences, University of Sheffield, UK
Pages 59-70 | Published online: 09 Jul 2009

  • SQUIRE, J. C., ROGERS, C., and EDELMAN, E. R., 1996, Stent geometry during inflation influences later restenosis. Circulation, 94 (8), 1514.
  • GARASIC, J. M., EDELMAN, E. R., SQUIRE, J. C., SEIFERT, P., WILLIAMS, M. S., and ROGERS, C., 2000, Stent and artery geometry determine intimai thickening independent of arterial injury. Circulation, 101, 812-818.
  • ROGERS, C., and EDELMANN, E. R., 1995, Endovascular stent design dictates experimental restenosis and thrombosis. Circulation, 91, 2995-3001.
  • ALBRECHT, D., KASPERS, S., FUSSL, R., HOPP, H. W., and SECHTEM, U., 1996, Coronary plaque morphology affects stent deployment. Catheterization and Cardiovascular Diagnosis, 38, 229-235.
  • HOFFMANN, R., MINTZ, G. S., KENT, K. M., PICHARD, A. D., SATLER, L. F., POPMA, J. J., DONOVAN, K. M., MORGAN, K., WEAVER, T., DEFORTY, D., HAYNER, P. J., and LEON, M. B., 1997, The impact of target lesion calcium distribution on the magnitude and pattern of Palmaz-Schatz stent expansion. Journal of the American College of Cardiology, 29, 99446.
  • HENNEKE, K. H., REGAR, E., KÖNIG, A., WERNER, F., KLAUSS, V., METZ, J., THEISEN, K., and MUDRA, H., 1999, Impact of target lesion calcification on coronary stent expansion after rotational atherectomy. American Heart Journal, 137, 93-99.
  • NARRACOTT, A. J., 2001, Balloon folding affects the symmetry of stent expansion: experimental and computational evidence. PhD thesis, University of Sheffield, Sheffield, UK.
  • GAO, B. Z., PANDYA, S., HOSEIN, N., SACKS, M. S., and HWANG, N. H. C., 2000, Bioprosthetic heart valve leaflet motion monitored by dual camera stereo photogrammetry. Journal of Biomechanics, 33, 199-207.
  • HEIKKILA, J., and SILVEN, O., 1996, Calibration procedure for short focal length off the shelf CCD cameras. IEEE Proceedings of the 13th International Conference on Pattern Recognition, August 25-30, 1996 (IEEE Computer Society Press), pp. 166-170.
  • WOOD, G. A., and MARSHALL, R. N., 1986, The accuracy of DLT extrapolation in three-dimensional film analysis. Journal of Biomechanics, 19, 781-785.
  • MORTON, R. (ed.), 1984, Photography for the Scientist, 2nd edition (New York: Academic Press).
  • HATZE, H., 1988, High-precision three-dimensional photo grammetric calibration and object-space reconstruction using a modified DLT-approach. Journol of Biamechanics, 21, 533-538.
  • MILLER, N. R., SHAPIRO, R., and MCLAUGHUN, T. M., 1980, A technique for obtaining spatial kinematic parameters of segments of biomechanical systems from cinematographic data. Journal of Biamechanics, 13, 535-547.
  • DAPENA, J., EVERETT, A. H., and MILLER, J. A., 1982, Three dimensional cinematography with control object of unknown shape. Journal of Biamechanics, 15, 11-19.
  • HINRICHS, R. N., and McLEAN, S. P., 1995, NLT and extrapolated DLT: 3-D cinematography alternatives for enlarging the volume of calibration. Journal of Biomechanics, 28, 1219-1223.
  • WOLTRING, H. J., 1980, Planar control in multi-camera calibration for 3-d gait studies. Journal of Biamechanics, 13, 39-48.
  • HARTLEY, R., and ZISSERMAN, A., 2000, Multiple View Geometry in Computer Vision (Cambridge: Cambridge University Press), Chap. 5.
  • CHEN, L., ARMSTRONG, C. W., and RAFTOPOULOS, D. D., 1994, An investigation on the accuracy of three-dimensional space reconstruction using the direct linear transformation technique. Journal of Biomechanics, 27, 493-500.
  • KLETTE, R., SCHLUNS, K., and KOSCHAN, A., 1998, Computer Vision: Three-dimensional Data from Images (Berlin: Springer-Verlag), p. 55.
  • FAUGERAS, O., 1993, Three-dimensional Computer Vision: a Geometric Viewpoint (Cambridge, MA: The MIT Press), p. 61.
  • DAPENA, J., 1985, Correction for 'Three dimensional cinematography with control object of unknown shape'. Journal of Biomechanics, 18, 163.
  • DAPENA, J., 1985, Systematic error in three-dimensional coordinates within a large object-space when using the DLT and NLT methods of three-dimensional cinematography. Journal of Biomechanics, 18, 230.
  • LINDFIELD, G., and PENNY, J., 1995, Numerical Methods Using Madab (Prentice Hall PTR), pp. 62-64, section 2.12.
  • HARTLEY, R., and ZISSERMAN, A., 2000, Multiple View Geometry in Computer Vision (Cambridge: Cambridge University Press), p. 153.
  • HILDEBRAND, F. B., 1956, Introduction to Numerical Analysis (New York: McGraw-Hill), p. 450.
  • YUAN, X., and RYD, L., 2000, Accuracy analysis for RSA: a computer simulation study on 3D marker reconstruction. Journal of Biomechanics, 33, 493-498.
  • HARTLEY, R., and ZISSERMAN, A., 2000, Multiple View Geometry in Computer Vision (Cambridge: Cambridge University Press), p. 156.
  • NALWA, V. S., 1993, A Guided Tour of Computer Vision (Reading, MA: Addison-Wesley), Chap. 3.
  • WHITCHER, F. D., 1997, Simulation of in vivo loading conditions of nitinol vascular stent structures. Computers and Structures, 64, 1005-1011.
  • DOUMOUUN, C., BERTOLOTTI, C., COCHELIN, B., GARTTEY, V., RIEU, R., and THERIN, M., 2000, Determination of forces undergone by a stent via finite element modelling -- in vitro feasibility study. Proceedings of the 12th Conference of the European Society of Biomechanics, pp. 300-301.
  • AL-HASSANI, S. T. S., BURLEY, S. J., and KORMI, K., 1999, A finite element simulation of angioplasty stent expansion in a partially closed artery. Abaqus Users Conference, 26-28 May 1999, Stent Research Centre, Mechanical Engineering Department, UMIST, Hibbit Karlsson and Sorenson, Inc, ABAQUS Europe BV, Maastricht, The Netherlands.
  • ROGERS, C., TSENG, D. Y., SQUIRE, J. C., and EDELMAN, E. R., 1999, Balloon-artery interactions during stent placement. A finite element analysis approach to pressure, compliance, and stent design as contributors to vascular injury. Circulation Research, 84, 378-383.
  • DUMOULIN, C., and COCHELIN, B., 2000, Mechanical behaviour modelling of balloon-expandable stents. Journal of Biomechanics, 33, 1461-1470.
  • ETAVE, F., FINET, G., BOIVIN, M., BOVER, J.-C., RIOUFOL, G., and THOLLET, G., 2001, Mechanical properties of coronary stents determined by using finite element analysis. Journal of Biomechanics, 34, 1065-1075.
  • MIGLIAVACCA, F., PETRINI, L., COLOMBO, M., AURICCHIO, F., and PIETRABISSA, R., 2002, Mechanical behavior of coronary stents investigated through the finite element method. Journal of Biomechanics, 35, 803-811.

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