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Journal of Medical Systems

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01.10.2018 | Image & Signal Processing

A Methodological Review of 3D Reconstruction Techniques in Tomographic Imaging

verfasst von: Usman Khan, AmanUllah Yasin, Muhammad Abid, Imran Shafi, Shoab A Khan

Erschienen in: Journal of Medical Systems | Ausgabe 10/2018

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Abstract

Computer Vision has provided immense support to medical diagnostics over the past two decades. Analogous to Non Destructive Testing of mechanical parts, advances in medical imaging has enabled surgeons to determine root cause of an illness by consulting medical images particularly 3-D imaging. 3-D modeling in medical imaging has been pursued using surface rendering, volume rendering and regularization based methods. Tomographic reconstruction in 3D is different from camera based scene reconstruction which has been achieved using various techniques including minimal surfaces, level sets, snakes, graph cuts, silhouettes, multi-scale approach, patchwork etc. In tomography limitations of image aquisition method i-e CT Scan, X Rays and MRI as well as non availability of camera parameters for calibration restrict the quality of final reconstruction. In this work, a comprehensive study of related approaches has been carried out with a view to provide a summary of state of the art 3D modeling algorithms developed over the past four decades and also to provide a foundation study for our future work which will include precise 3D reconstruction of human spine.

Dhawan, A.: Radon transform wiley encyclopedia of biomedical engineering, 2006

Weisstein, E.W.: Radon Transform – from Wolfram MathWorld, Mathworld.wolfram.com. [Online]. Available: http://mathworld.wolfram.com/RadonTransform.html. [Accessed: 20- Oct- 2017], 2018

Physics.stackexchange.com, Why Fields? Why do nuclei precess in magnetic fields? [online] Available at: https://physics.stackexchange.com/questions/386863/why-donucleiprecess-in-magnetic-fields [Accessed 3- Jan- 2018], 2018

Mulay, C., AV, Patient Specific Bone Modeling for Minimum Invasive Spine Surgery. Journal of Spine 04:04, 2015.CrossRef

Garutti, E.: Index of / garutti/LECTURES/BioMedical. [online] Desy.de. Available at: http://www.desy.de/garutti/LECTURES/BioMedical/ [Accessed 3 Feb. 2018], 2014

Sato, Y., Shiraga, N., Nakajima, S., Tamura, S., and Kikinis, R., Local maximum intensity projection (LMIP. J. Comput. Assist. Tomogr. 22(6):912–917, 1998.CrossRefPubMed

Creedy, M.: [Online]. Available: https://mipav.cit.nih.gov/pubwiki/index.php/Maximum-Intensity-Projection. [Accessed: 02- Jan- 2018], 2012

Kanitsar, A., Fleischmann, D., Wegenkittl, R., Felkel, P., and Groller, E.: CPR - Curved planar reformation, IEEE Visualization. VIS 2002, 2002

Kanitsar, A., Fleischmann, D., Wegenkittl, R., Felkel, P., and Groller, E.: CPR - curved planar reformation. IEEE Visualization. VIS 2002. [Accessed: 02- Jan- 2018], 2002

10.

Whitted, T., An improved illumination model for shaded display. Commun. of the ACM 23(6):343–349, 1980.CrossRef

11.

Naiwen, l.: Shaded Surface Display Technique, Csee.umbc.edu. [Online]. Available: https://www.csee.umbc.edu/ebert/693/NLiao/node5.html. [Accessed: 23- Nov- 2017], 1996

12.

Heffernan, P., and Robb, R., A new method for shaded surface display of biological and medical images. IEEE Trans. Med. Imaging 4(1):26–38, 1985.CrossRefPubMed

13.

Radiology Imaging: Shaded surface displays of ct scan abdominal, Radiology Imaging. [Online]. Available: http://radiology-information.blogspot.com/2013/03/shaded-surface-displays-of-ct-scan.html. [Accessed: 11- Dec- 2017], 2015

14.

Callahan, S., Callahan, J., Scheidegger, C., and Silva, C., Direct Volume Rendering: A 3D Plotting Technique for Scientific Data. Comput. Sci. Eng. 10(1):88–92, 2008.CrossRef

15.

Blinn, J.F.: Models of light reflection for computer synthesized pictures. In: Proceedings of the 4th annual conference on Computer graphics and interactive techniques - SIGGRAPH 77, 1977.

16.

Kajiya, J.T.: New techniques for ray tracing procedurally defined objects. In: Proceedings of the 10th annual conference on Computer graphics and interactive techniques - SIGGRAPH 83, 1983.

17.

Levoy, M., A hybrid ray tracer for rendering polygon and volume data. IEEE Comput. Graph. Appl. 10(2): 33–40, 1990.CrossRef

18.

Li, G., Xie, H., Ning, H., Citrin, D., Capala, J., Maass-Moreno, R., Guion, P., Arora, B., Coleman, N., Camphausen, K., and Miller, R., Accuracy of 3D volumetric image registration based on CT, MR and PET/CT phantom experiments. J. Appl. Clin. Med. Phys. 9(4):17–36, 2008.CrossRefPubMedCentral

19.

Westover, L.A., Splatting: a parallel, feed-forward volume rendering algorithm. Chapel Hill: University of North Carolina at Chapel Hill, 1992.

20.

Celebi Tutorial, Volume Rendering, Byclb.com. [Online]. Available: https://www.byclb.com/TR/Tutorials/volume-rendering/ch1-1.htm. [Accessed: 11- Dec- 2017], 2014

21.

Lacroute, P., and Levoy, M.: Fast volume rendering using a shear-warp factorization of the viewing transformation. In: Proceedings of the 21st annual conference on Computer graphics and interactive techniques - SIGGRAPH 94, 1994.

22.

Lorensen, W.E., and Cline, H.E., Marching cubes: a high resolution 3D surface construction algorithm. ACM SIGGRAPH Comput. Graph. 21(4):163–169, 1987.CrossRef

23.

Naiwen, L.: Shaded surface display technique. [Online]. Available: https://www.csee.umbc.edu/ebert/693/NLiao/node5.html. [Accessed: 15-Nov-2017], 1996

24.

Anderson, B.: Marching Cubes, Cs.carleton.edu. [Online]. Available: http://www.cs.carleton.edu/cs-comps/0405/shape/marching-cubes.html. [Accessed: 07- Nov- 2017]

25.

Lun, Z., Gadelha, M., Kalogerakis, E., Maji, S., and Wang, R.: 3D Shape Reconstruction from Sketches via Multi-view Convolutional Networks. In: Proceedings of the International Conference on 3D Vision (3DV) 2017, 2017.

26.

Kuklisova-Murgasova, M., Quaghebeur, G., Rutherford, M.A., Hajnal, J.V., and Schnabel, J.A., Reconstruction of fetal brain MRI with intensity matching and complete outlier removal. Med. Image Anal. 16(8): 1550–1564, 2012.CrossRefPubMedPubMedCentral

27.

Alansary, A., Rajchl, M., Mcdonagh, S.G., Murgasova, M., Damodaram, M., Lloyd, D.F.A., Davidson, A., Rutherford, M., Hajnal, J.V., Rueckert, D., and Kainz, B., PVR: Patch-to-volume reconstruction for large area motion correction of fetal MRI. IEEE Trans. Med. Imaging 36(10):2031–2044, 2017.CrossRefPubMed

28.

Cai, Y., Osman, S., Sharma, M., Landis, M., and Li, S., Multi-Modality Vertebra recognition in arbitrary views using 3D deformable hierarchical model. IEEE Trans. Med. Imaging 34(8):1676–1693, 2015.CrossRefPubMed

29.

Hines, T.: Spine Anatomy, Anatomy of the Human Spine. [online] Available at: https://www.mayfieldclinic.com [Accessed 15 Jan. 2018], 2016

30.

An, G., Hong, L., Zhou, X. -B., Yang, Q., Li, M. -Q., and Tang, X. -Y., Accuracy and efficiency of computer-aided anatomical analysis using 3D visualization software based on semi-automated and automated segmentations. Ann. Anat. Anat. Anz. 210:76–83, 2017.CrossRef

31.

Mimics 5 Edit Mask in 3D pt2, YouTube. [Online]. Available: https://www.youtube.com/watch?v=xxw2klImERM. [Accessed: 10- Jan- 2018]

32.

Syngo.via for Cardiovascular Care - Siemens Healthineers Global, Healthcare.siemens.com. [Online]. Available: https://www.healthcare.siemens.com/medical-imaging-it/syngoviaspecialtopics/syngo-via-for-sustainable-cardiovascular-care/coronary-artery-disease. [Accessed: 09- Jan- 2018]

33.

Boileau, P., Cheval, D., Gauci, M., Holzer, N., Chaoui, J., and Walch, G., Automated Three-Dimensional measurement of glenoid version and inclination in arthritic shoulders. J. Bone Joint Surg. 100 (1):57–65, 2018.CrossRefPubMed

34.

Lee, S., Kim, H., Kim, H., Choi, J., and Cho, J., Comparison of image enlargement according to 3D reconstruction in a CT scan: Using an aneurysm phantom. J. Korean Phys. Soc. 72(7):805–810, 2018.CrossRef

Titel: A Methodological Review of 3D Reconstruction Techniques in Tomographic Imaging
verfasst von: Usman Khan
AmanUllah Yasin
Muhammad Abid
Imran Shafi
Shoab A Khan
Publikationsdatum: 01.10.2018
Verlag: Springer US
Erschienen in: Journal of Medical Systems / Ausgabe 10/2018
Print ISSN: 0148-5598
Elektronische ISSN: 1573-689X
DOI: https://doi.org/10.1007/s10916-018-1042-2

Live-Webinar: Aktuelle Leitlinien bei Herz-Kreislauf-Erkrankungen

Springer Medizin

A Methodological Review of 3D Reconstruction Techniques in Tomographic Imaging

Abstract

Live-Webinar: Aktuelle Leitlinien bei Herz-Kreislauf-Erkrankungen

Springer Medizin

Abstract

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