Application of an adaptive control grid interpolation technique to morphological vascular reconstruction

IEEE Transactions on Biomedical Engineering

Volumn 50, Issue 2, 2003, Pages 197-206

  Frakes, David H ^a   Conrad, Christopher P ^a   Healy, Timothy M ^a   Monaco, Joseph W ^b   Fogel, Mark ^c   Sharma, Shiva ^d   Smith, Mark J T ^b   Yoganathan, Ajit P ^a  

^a GEORGIA INSTITUTE OF TECHNOLOGY   (United States)

^b GEORGIA INSTITUTE OF TECHNOLOGY   (United States)

^c CHILDREN S HOSPITAL OF PHILADELPHIA   (United States)

^d Children's Healthcare of Atlanta at Egleston   (United States)

Author keywords

Cardiovascular; Fontan; Imaging; Interpolation; Motion estimation; MRI; Reconstruction; Signal processing; Surgical planning

Indexed keywords

BLOOD VESSELS; COMPUTATIONAL COMPLEXITY; COMPUTATIONAL FLUID DYNAMICS; MAGNETIC RESONANCE;

VASCULAR MORPHOLOGY;

BIOCHEMISTRY;

ADAPTIVE CONTROL GRID INTERPOLATION; ALGORITHM; ARTICLE; COMPUTER SIMULATION; DIAGNOSTIC IMAGING; NUCLEAR MAGNETIC RESONANCE IMAGING; SURGICAL TECHNIQUE; TREATMENT PLANNING; VASCULAR SURGERY;

ALGORITHMS; ARTIFACTS; BLOOD VESSELS; FEEDBACK; FONTAN PROCEDURE; HUMANS; IMAGE ENHANCEMENT; IMAGING, THREE-DIMENSIONAL; MAGNETIC RESONANCE IMAGING; MOTION; PHANTOMS, IMAGING; PULMONARY ARTERY; RECONSTRUCTIVE SURGICAL PROCEDURES; SAMPLE SIZE; VASCULAR SURGICAL PROCEDURES;

EID: 0037296276     PISSN: 00189294     EISSN: None     Source Type: Journal    
DOI: 10.1109/TBME.2002.807651     Document Type: Article

References (42)

1. S. G. Carlier, J. P. Marijnissen, V. L. Coen, W. J. ven der Giessen, M. Sabate, J. Ligthart, A. den Boer, L. E. Cespedes, W. Li, A. F. ven der Steen, P. C. Levendag, and P. W. Serruys, "Guidance of intracoronary radiation therapy based on dose-volume histograms derived from quantitative intravascular ultrasound," IEEE Trans. Med. Imag., vol. 5, pp. 772-778, Oct. 1998.
2. I. Vesely, B. Eickemeier, and G. Campbell, "Automated 3-D reconstruction of vascular structures from high-definition casts," IEEE Trans. Biomed. Eng., vol. 11, pp. 1123-1129, Nov. 1991.
3. G. Dubini, M. R. de Leval, R. Pietrabissa, F. M. Montevecchi, and R. Fumero, "A numerical fluid mechanical study of repaired congenital heart defects. Application to the total cavopulmonary connection," J. Biomech., vol. 29, pp. 111-121, Jan. 1996.
4. F. Migliavacca, M. R. de Leval, G. Dubini, and R. Pietrabissa, "A computational pulsatile model of the bidirectional cavopulmonary anastomosis: The influence of pulmonary forward flow," J. Biomech. Eng., vol. 118, pp. 520-528, Nov. 1996.
5. F. Migliavacca, G. Dubini, G. Pennati, R. Pietrabissa, R. Fumero, T. Hsia, and M. R. de Leval, "Computational model of the fluid dynamics in systemic-to-pulmonary shunts," J. Biomech., vol. 33, pp. 549-557, Dec. 2000.
6. O. I. Craciunescu, S. K. Das, J. M. Poulson, and T. V. Samulski, "Three-dimensional tumor perfusion reconstruction using fractal interpolation functions," IEEE Trans. Biomed. Eng., vol. 48, pp. 462-473, Apr. 2001.
7. M. J. Piket-May, A. Taflove, W. Lin, D. S. Katz, V. Sathiaseelan, and B. B. Mittal, "Initial results for automated computational modeling of patient-specific electromagnetic hyperthermia," IEEE Trans. Biomed. Eng., vol. 39, pp. 226-239, Mar. 1992.
8. J. W. Peifer, N. F. Ezquerra, C. D. Cooke, R. Mullick, L. Klein, M. E. Hyche, and E. V. Garcia, "Visualization of multimodality cardiac imagery," IEEE Trans. Biomed. Eng., vol. 37, pp. 744-756, Aug. 1990.
9. G. W. Brodland and J. H. Veldhuis, "Three-dimensional reconstruction of live embryos using robotic macroscope images," IEEE Trans. Biomed. Eng., vol. 45, pp. 1173-1181, Sept. 1998.
10. T. Saito, M. Misaki, K. Shirato, and T. Takishima, "Three-dimensional quantitative coronary angiography," IEEE Trans. Biomed. Eng., vol. 37, pp. 768-777, Aug. 1990.
11. M. E. Legget, D. F. Leotta, E. L. Bolson, J. A. McDonald, R. W. Martin, X. Li, C. M. Otto, and F. H. Sheehan, "System for quantitative three-dimensional echocardiography of the left ventricle based on a magnetic-field position and orientation sensing system," IEEE Trans. Biomed. Eng., vol. 45, pp. 494-504, Apr. 1998.
12. M. Wan, Y. Li, J. Li, Y. Cui, and X. Zhou, "Strain imaging and elasticity reconstruction of arteries based on intravascular ultrasound video images," IEEE Trans. Biomed. Eng., vol. 48, pp. 116-120, Jan. 2001.
13. M.D. Reller, R. W. McDonald, L. M. Gerlis, and K. L. Thornburg, "Cardiac embryology: Basic review and clinical correlations," J. Amer. Soc. Echocardiogr., vol. 4, pp. 519-532, Jan. 1991.
14. C. A. Spicer and C. A. Taylor, "Simulation-based medical planning for cardiovascular disease: Visualization system foundations," Comput. Aided Surg., vol. 2, pp. 82-89, May 2000.
15. T. S. Denney and E. R. McVeigh, "Model-free reconstruction of three-dimensional myocardial strain from planar tagged MR images," J. Magn. Reson. Imag., vol. 7, July 1997.
16. K. C. Wang, R. W. Dutton, and C. A. Taylor, "Improving geometric model construction for blood flow modeling," IEEE Eng. Med. Biol. Mag., vol. 6, pp. 33-39, Nov.-Dec. 1999.
17. N. R. Saber, A. D. Gosman, N. B. Wood, P. J. Kilner, C. L. Charrier, and D. N. Firmin, "Computational flow modeling of the left ventricle based on in vivo MRI data: Initial experience," Ann. Biomed. Eng., vol. 29, pp. 275-283, Jan. 2001.
18. C. A. Taylor, T. J. Hughes, and C. K. Zarins, "Finite element modeling of three-dimensional pulsatile flow in the abdominal aorta: Relevance to atherosclerosis," Ann. Biomed. Eng., vol. 6, pp. 975-987, Nov.-Dec. 1998.
19. C. C. Moore, W. G. O'dell, E. R. McVeigh, and E. A. Zerhouni, "Calculation of three-dimensional left ventricular strains from biplanar tagged MR images," J. Magn. Reson. Imag., vol. 2, pp. 165-175, Feb. 1992.
20. J. He, H. Zha, and Q. Shi, "Reconstruction of surfaces from medical slices using a multi-scale strategy," in Proc. IEEE Int. Conf. Systems, Man, and Cybernetics, 2000, pp. 1993-1998.
21. Y. Wen-Xue, L. Li-Min, F. Yao, S. Hua-Zhong, and B. Giband, "Intermediate contour interpolation for computed atlas surface reconstruction of the 3-D human brain," Actua Electronica Sinica, vol. 28, pp. 52-54, Feb. 2000.
22. S. Morita and H. Takata, "Surface generation of interpolative images by determining elasticity of active contour model," Syst. Comput. Japan, vol. 30, pp. 493-500, 1999.
23. S. Chen, W. Lin, C. Liang, and C. Chen, "Improvement on dynamic elastic interpolation technique for reconstructing 3-D objects from serial cross sections," IEEE Trans. Med. Imag., vol. 9, pp. 71-83, Mar. 1990.
24. T. Lee and W. Wang, "Morphology-based three-dimensional interpolation," IEEE Trans. Med. Imag., vol. 19, pp. 711-721, July 2000.
25. W. E. Higgins, C. Morice, and E. L. Ritman, "Shape-based interpolation of tree-like structures in three-dimensional images," IEEE Trans. Med. Imag., vol. 12, pp. 439-450, Sept. 1993.
26. G. M. Treede, R. W. Prager, A. H. Gee, and L. Berman, "Surface interpolation from sparse cross sections using region correspondence," IEEE Trans. Med. Imag., vol. 19, pp. 1106-1114, Nov. 2000.
27. G. J. Grevera and J. K. Udupa, "Shape-based interpolation of multidimensional grey-level images," IEEE Trans. Med. Imag., vol. 15, pp. 881-892, Dec. 1996.
28. S. P. Raya and J. K. Udupa, "Surface shape-based interpolation of multidimensional objects," IEEE Trans. Med. Imag., vol. 9, pp. 32-42, Mar. 1990.
29. G. J. Grevera and J. K. Udupa, "An objective comparison of 3-D image interpolation methods," IEEE Trans. Med. Imag., vol. 17, pp. 642-652, Aug. 1998.
30. A. G. Bors, L. Kechagias, and I. Pitas, "Binary morphological shape-based interpolation applied to 3-D tooth reconstruction," IEEE Trans. Med. Imag., vol. 21, pp. 100-108, Feb. 2002.
31. J. A. Moore, B. K. Rutt, S. J. Karlik, K. Yin, and C. R. Ethier, "Computational blood flow modeling based on in vivo measurements," Ann. Biomed. Eng., vol. 27, pp. 627-640, Oct. 1999.
32. J. W. Monaco, "Motion models for video applications," Ph.D. dissertation, Georgia Inst. Technol., Atlanta, Nov. 1997.
33. B. Horn, Robot Vision. Cambridge, MA: The MIT Press, 1968, pp. 280-292.
34. J. W. Monaco and M. J. T. Smith, "Video coding using image warping within variable size blocks," in Proc. ISCAS, 1996, pp. 794-797.
35. A. M. Tekalp, Digital Video Processing. Englewood Cliffs, NJ: Prentice-Hall, 1995.
36. M. J. Black and P. Anandan, "The Robust Estimation of Multiple Motions: Affine and Piecewise-Smooth Flow Fields," Xerox Systems and Practices Laboratory, 〈Location?〉, 1993.
37. R. Szeliski and H. Y. Shum, "Motion estimation with quadtree splines," IEEE Trans. Pattern Anal. Machine Intell., vol. 18, pp. 1199-1210, Dec. 1996.
38. MATERIALISE, MI. Mimics. [Online]. Available: http://www.materialise.com/mt.asp?mp=mm_main.
39. P. N. Werahera, G. J. Miller, G. D. Taylor, T. Brubaker, F. Daneshgari, and E. D. Crawford, "A 3-D reconstruction algorithm for interpolation and extrapolation of planar cross sectional data," IEEE Trans. Med. Imag., vol. 14, pp. 765-771, Dec. 1995.
40. D. H. Frakes, T. M. Healy, S. Sharma, J. W. Monaco, M. J. T. Smith, and A. P. Yoganathan, "Application of an adaptive control gird interpolation technique to total cavopulmonary connection blood flow image reconstruction," in Proc. ASME Summer Bioengineering Conf., 2001, pp. 561-562.
41. K. Shung, M. Smith, and B. Tsui, Principles of Medical Imaging. New York: Academic, 1992, pp. 213-267.
42. T. M. Healy, C. Lucas, and A. P. Yoganathan, "Non-invasive fluid dynamic power loss assessments for total cavopulmonary connections using the viscous dissipation function: A feasibility study," J. Biomech. Eng., 2001, to be published.