O slideshow foi denunciado.
Utilizamos seu perfil e dados de atividades no LinkedIn para personalizar e exibir anúncios mais relevantes. Altere suas preferências de anúncios quando desejar.

059 can oct catheter see plaque macrophages

131 visualizações

Publicada em

SHAPE Society

Publicada em: Saúde e medicina
  • Seja o primeiro a comentar

  • Seja a primeira pessoa a gostar disto

059 can oct catheter see plaque macrophages

  1. 1. Editorial Slides VP Watch, January 15, 2003, Volume 1, Issue 2 Can OCT Catheter See Plaque Macrophages?!
  2. 2. –Optical coherence tomography (OCT) is analogous to ultrasound, measuring the intensity of back- reflected light (near infrared light) rather than sound (acoustical waves). –An OCT image represents a cross sectional picture of the optical reflectance properties of tissue. 4 –OCT originally developed to image the transparent tissue of the eye with unprecedented resolution.
  3. 3.  Brezinski, Tearney, Bouma, Fujimoto, and colleagues in 1997 discussed the advantages of OCT as following: • High resolution, • Broad dynamic range, and • Ability to be delivered through intravascular catheters 2
  4. 4. –In vitro studies have shown that the resolution of OCT (10-20 micron) can resolve the thin fibrous caps thought to be responsible for plaque vulnerability. 1 –Catheter-based diagnostic techniques can provide structural information with higher resolution than non-invasive methods. OCT achieves at least 10 times higher resolution than IVUS, and can be adapted for catheter-based imaging of vulnerable plaque. 3
  5. 5. IVUS OCT Coronary IVUS vs Coronary OCT Tearney, Boma, Chang et
  6. 6.  Tearney, Jang, and colleagues showed that in vivo OCT imaging of normal coronary arteries, intimal dissections, and deployed stents in swine is feasible, and allows identification of clinically relevant coronary artery morphology with high- resolution and contrast. 4
  7. 7. • As highlighted in VP Watch of this week, Tearney and colleagues showed OCT can characterize structure of atherosclerotic plaque ex-vivo.5 • They further showed that macrophage content of plaque cap can be identified by OCT. 5
  8. 8. • Ex vivo studies – Plaque characterization – Cap thickness – Macrophage density • In vivo studies – Feasibility – Post-MI Fibrous Calcific LIPID Yabushita, Tearney et al. Circulation, 2002
  9. 9. Plaque Characterization Study • Evaluate diagnostic potential (lipid pools) • Methods – 357 diseased arterial segments from 90 cadavers • 78 Coronary; 86 Carotid; 143 Aorta – OCT imaging, histology processing, registration – Correlation of OCT with histology – Develop OCT criteria for characterization (training set, n=50) – Prospectively test OCT criteria (validation set, n = 307) – Two OCT readers and two pathologists Yabushita, Tearney et al. Circulation, 2002
  10. 10. Plaque Characterization lp lp Homogeneous, Signal-rich Fibrous Lipid pool Echolucent, Diffuse Borders Echolucent, Sharp Borders Calcific OCT Criteria, training set (n=50) 500 µm
  11. 11. Plaque Characterization Results SENS .79 SPEC .97 SENS .95 SPEC .97 SENS .90 SPEC .92 • Accuracy Statistics • Fibrous • Calcific • Lipid pool Interobserver κ = 0.88, Intraobserver κ = 0.91 Yabushita, Tearney et al. Circulation, 2002
  12. 12. • Technology development • Ex vivo studies – Plaque characterization – Cap thickness – Macrophage density • In vivo studies – Feasibility – Post-MI – Epidemiology – Prospective trials *Mφ produce proteases Degrade collagen and matrix Impair structural integrity of cap CD68 Immunoperoxidase Cap Lipid Tearney, Bouma et al. Circulation, 2003
  13. 13. Macrophage Study • Can OCT quantify macrophage content? • Methods – 26 diseased arterial segments from 17 cadavers • 7 Carotid; 19 Aorta – OCT imaging – Histology processing - CD68, SMA, trichrome – Correlation of OCT with histology – 500x125 µm ROI – Histology - automatic segmentation - % area staining – OCT - quantitative image analysis NSD= σ Smax−Smin( ) Tearney, Bouma et al. Circulation, 2003
  14. 14. Macrophage Study 250 µm OCT CD68 Low Mφ High Mφ Tearney, Bouma et al. Circulation, 2003
  15. 15. Linear NSD vs. CD68 CD68 % area > 10 % - NSD cutoff 6.2% R = 0.84 P < 0.0001 Tearney, Bouma et al. Circulation, 2003
  16. 16. Human Coronary Artery In Vivo P G L F G 2x m a i ieleel F OCT IVUS Tearney, Bouma et al. Circulation, 2003
  17. 17. Calcified Plaques In Vivo OCT IVUS Tearney, Bouma et al. Circulation, 2003
  18. 18. Lipid-rich Plaque In Vivo OCT IVUS Tearney, Bouma et al. Circulation, 2003
  19. 19. Thrombus In Vivo OCT IVUS Tearney, Bouma et al. Circulation, 2003
  20. 20. Conclusion: • Intracoronary OCT represents a new technology for microscale imaging of atherosclerotic plaque. • In exvivo studies OCT can identify macrophage intensity in plaque cap. • Given above, OCT can be an important addition to cardiovascular cat labs, may completely replace IVUS catheter.
  21. 21. Questions: I. Presence of blood induces artifacts for OCT imaging, knowing the time constraint in cath labs, the question is how practically OCT catheter can be utilized for screening vulnerable plaques throughout total coronary arteries?
  22. 22. Questions: • Assuming the limited use of IVUS (<20%) for plaque characterization in cath labs is due to cost issue, would OCT with equal price be cost effective? • With the trend towards non-invasive diagnosis, and using invasive procedure only for therapy, how will OCT be greeted by interventional cardiologists?
  23. 23. ReferencesReferences 1- Fujimoto JG, Boppart SA, Tearney GJ, Bouma BE, Pitris C, Brezinski ME.; High resolution in vivo intra-arterial imaging with optical coherence tomography.; Heart. 1999 Aug;82(2):128-33. 2- Brezinski ME, Tearney GJ, Weissman NJ, Boppart SA, Bouma BE, Hee MR, Weyman AE, Swanson EA, Southern JF, Fujimoto JG.; Assessing atherosclerotic plaque morphology: comparison of optical coherence tomography and high frequency intravascular ultrasound. Heart. 1997 May;77(5):397-403. 3- Ik-Kyung Jang, Brett E. Bouma, Dong-Heon Kang, Seung-Jung Park, Seong-Wook Park, Ki- Bae Seung, Kyu-Bo Choi, Milen Shishkov, Kelly Schlendorf, Eugene Pomerantsev et al.; Visualization of coronary atherosclerotic plaques in patients using optical coherence tomography: comparison with intravascular ultrasound, Pages 604-609 ; Journal of the American College of Cardiology 2002; Volume 39(4): 604-609 4- Tearney GJ, Jang IK, Kang DH, Aretz HT, Houser SL, Brady TJ, Schlendorf K, Shishkov M, BoumaBE. Porcine coronary imaging in vivo by optical coherence tomography. Acta Cardiol. 2000 Aug;55(4):233-7. 5- Quantification of Macrophage Content in Atherosclerotic Plaques by Optical Coherence Tomography Tearney Guillermo , Yabushita Hiroshi , Houser Stuart , Aretz H , Jang Ik-kyung , Schlendorf Kelly , Kauffman Christopher , Shishkov Milen , Halpern Elkan , Bouma Brett , Circulation. 2003;107:113