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E-raamat: OCT Made Easy [Taylor & Francis e-raamat]

Edited by (University Hospitals of Cleveland, Ohio, USA), Edited by (University Hospitals Case Medical Center, Cleveland, Ohio, USA), Edited by (University Hospitals of Cleveland, Ohio, USA)
  • Formaat: 216 pages, 282 Illustrations, color
  • Ilmumisaeg: 18-Oct-2017
  • Kirjastus: CRC Press
  • ISBN-13: 9781315162263
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  • Taylor & Francis e-raamat
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OCT Made EasySuurem pilt
  • Formaat: 216 pages, 282 Illustrations, color
  • Ilmumisaeg: 18-Oct-2017
  • Kirjastus: CRC Press
  • ISBN-13: 9781315162263
Teised raamatud teemal:
Taylor & Francis e-raamatudRohkem infot Taylor & Francis e-raamatute kohta
Raamatu kodulehekülg: https://www.taylorfrancis.com/books/9781315162263
This is the first book on optical coherence tomography OCT for intravascular imaging. OCT has proven a powerful tool for ophthalmologists to make clinical decisions for a wide range of blinding diseases. There are now 20 million ophthalmic OCT patient scans per year. Intravascular OCT is becoming more commonly used by cardiologists. It provides high resolution cross-sectional viewing for atherosclerotic plaque assessment, stent struts coverage and apposition assessment and in stent restenosis evaluation, and PCI guide and optimization.

This book, written by premier authors in the field of OCT intravascular imaging, covers the best practices for using OCT to provide high resolution cross-sectional viewing for atherosclerotic plaque assessment, stent strut coverage and apposition, assessment in stent restenosis evaluation, and PCI guide and optimization. Fully illustrated thorughout in a handy, cath-lab side handbook supplemented by online movie clips, OCT Made Easy includes case studies, angiography, CT correlations, and simple techniques for getting the best image.

 

Contributors ix
1 Optical coherence tomography imaging for stent planning
1(28)
Daniel Chamie
Emile Mehanna
1.1 Introduction
1(1)
1.2 General outline
2(1)
1.3 Preintervention OCT imaging
3(11)
1.4 Postintervention OCT imaging
14(7)
1.5 Potential clinical impact of OCT use for PCI planning and guidance
21(8)
References
23(6)
2 OCT imaging for assessment of plaque modification
29(14)
Ruben Ramos
Lino Patricio
2.1 Introduction
29(1)
2.2 Plain ordinary balloon and drug-eluting balloon angioplasty
29(14)
References
42(1)
3 OCT for plaque modification
43(16)
Andrejs Erglis
3.1 Plaque modification before coronary artery stenting using cutting/scoring balloon
43(1)
3.2 Cutting and scoring balloons
43(2)
3.3 Trial results with cutting or scoring balloon plaque pretreatment
45(1)
3.4 Patient's clinical cases using cutting and scoring plaque pretreatment
46(13)
References
58(1)
4 OCT for stent optimization
59(16)
Satoko Tahara
Yusuke Fujino
Sunao Nakamura
4.1 Introduction
59(1)
4.2 Utilization of OCT for vessel preparation
59(1)
4.3 OCT for defining stent length and diameter
60(4)
4.4 OCT for side branch protection
64(8)
4.5 Conclusion
72(3)
References
72(3)
5 OCT for left main assessment
75(10)
Yusuke Fujino
5.1 Introduction
75(1)
5.2 Safety of FD-OCT for ULM Disease
75(2)
5.3 FD-OCT Measurements for ULM Disease
77(1)
5.4 Feasibility of FD-OCT for ULM Disease
78(4)
5.5 Conclusions
82(3)
References
82(3)
6 Optical coherence tomography for late stent failure
85(12)
Tej Sheth
Anthony Fung
Catalin Toma
6.1 Introduction
85(1)
6.2 Restenosis
85(4)
6.3 Case report: In-stent restenosis
89(2)
6.4 Stent thrombosis
91(6)
References
94(3)
7 OCT assessment in spontaneous coronary artery dissection
97(14)
Christopher Franco
Lim Eng
Jacqueline Saw
7.1 Spontaneous coronary artery dissection
97(5)
7.2 Role of OCT in the diagnosis and management of spontaneous coronary artery dissection
102(3)
7.3 Management of SCAD
105(2)
7.4 Future directions
107(1)
7.5 Conclusions
107(4)
References
107(4)
8 Optical coherence tomography assessment for cardiac allograft vasculopathy after heart transplantation
111(12)
Sameer J. Khandhar
Guilherme Oliveira
8.1 Introduction
111(1)
8.2 Screening and diagnosing CAV
112(1)
8.3 CAV Pathophysiology
112(3)
8.4 OCT utilization post-heart transplantation
115(4)
8.5 Treatment of CAV
119(1)
8.6 Conclusion
119(4)
References
119(4)
9 OCT assessment out of the coronary arteries
123(12)
Jun Li
Daniel Kendrickj
Vikram S. Kashyap
Sahil A. Parish
9.1 Introduction
123(1)
9.2 History of intravascular imaging
123(1)
9.3 Optical coherence tomography
124(2)
9.4 Clinical applications of OCT in the peripheral vasculature
126(6)
9.5 Future directions
132(3)
References
133(2)
10 Optical coherence tomography for the assessment of bioresorbable vascular scaffolds
135(10)
Yohei Ohno
Alessio La Manna
Corrado Tamburino
10.1 Introduction
135(1)
10.2 Optical coherence tomography assessment before BVS implantation
136(2)
10.3 Optical coherence tomography assessment after BVS implantation
138(1)
10.4 Optical coherence tomography assessment for BVS follow-up
139(6)
Disclosures
142(1)
References
142(3)
11 ILUMIEN OPTIS Mobile and OPTIS Integrated Technology Overview
145(18)
Tsung-Han Tsai
Desmond Adler
11.1 Platform overview
145(3)
11.2 ILUMIEN OPTIS Mobile System
148(2)
11.3 OPTIS Integrated System
150(5)
11.4 OCT application software
155(3)
11.5 Angio coregistration software
158(2)
11.6 Conclusion
160(3)
References
160(3)
12 Terumo OFDI system
163(18)
Kenji Kanekp
Tetsuya Fusazakj
Takayuki Okamura
12.1 Introduction
163(1)
12.2 FastView imaging catheter
163(3)
12.3 LUNAWAVE OFDI imaging console
166(6)
12.4 Case report: Usefulness of OFDI-guided PCI for the separated proximal and mid-left anterior descending artery lesions
172(5)
Tetsuya Fusazaki
12.5 Case report: Usefulness of 3D OFDI for bifurcation PCI
177(4)
Takayuki Okpmura
Videos
179(1)
Acknowledgment
179(1)
Disclosures
179(1)
References
180(1)
13 OCT imaging acquisition
181(8)
Manabu Kashiwagi
Takashi Kubo
Hironori Kitabata
Takashi Akasaka
13.1 Introduction
181(1)
13.2 System of OCT
181(1)
13.3 Imaging procedure
182(1)
13.4 Flushing parameters: Recommended injection setting
183(1)
13.5 Pitfalls and limitations
183(4)
13.6 Conclusions
187(2)
References
187(2)
Appendix: Intravascular bioresorbable vascular scaffold optimization technique 189(8)
Jun Li
Hiram Bezerra
Index 197
Guilherme F. Attizzani, MD

Interventional Cardiology/Structural Heart Disease Intervention

Assistant Professor of Medicine, University Hospitals, Cleveland Medical Center

"John C. Haugh" Valve Fellow

Co-Director Cardiovascular Imaging Core Laboratory, Harrington HVI

Co-Director The Valve and Structural Heart Disease Center, Harrington HVI

Hiram Grando Bezerra, MD, PhD

Associate Professor of Medicine Case Western School of Medicine

Director Cardiac Catherization Laboratory University Hospitals Cleveland Medical Center

Marco A. Costa, MD

Director of Interventional Cardiovascular Center and Director of the Research and Innovation Center, Harrington Heart & Vascular Institute, University Cleveland Medical Center. Professor of Medicine at Case Western Reserve University
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