Группа авторов

Interventional Cardiology


Скачать книгу

arteries, because of the wide atrioventricular groove movement between systole and diastole.

      Ring‐down

      Ring‐down artifacts usually appear as a series of parallel bands or halos of variables thickness surrounding the catheter obscuring near field imaging. Phased‐array systems tend to have more ringdown artifacts.

      Non‐uniform rotational distortion

      Non‐uniform rotational distortion (NURD) arises from frictional forces to the rotating elements in mechanical catheters. NURD creates stretched or compacted portions of the images. Because accurate reconstruction of IVUS two‐dimensional images is dependent on uniform rotation of the catheter, non‐uniform rotation can create errors during IVUS measurements.

      Reverberations

      Strong spatial tissue heterogeneity creates acoustic noise and pulse reverberations—multiple echoes reaching the transducer before the next pulse transmission to give rise to multiple copies of the anatomy. Reverberation artifacts are more common from strong echoreflectors such as stents, guidewires, guiding catheters, and calcium (especially after rotational atherectomy).

      Other artifacts

      A few other artifacts can also interfere in IVUS interpretation; side lobes and ghost artifacts also generated from strong echoreflectors such as calcium and stent metal [5]. In longitudinal or L‐mode display, catheter motion artifacts during the pullback results in a “saw tooth” appearance.

      Catheter position also has an important role in image quality. Off axis position of the catheter can alter vessel geometry in an elliptical fashion to mislead the operator to overestimate the lumen and vessel area. Axial (antegrade–retrograde) movement of the IVUS probe during the cardiac cycle scrambles consecutive image slices that can have implications for three‐dimensional reconstruction and attempts to assess coronary artery compliance.

      IVUS is displayed as a tomographic cross‐sectional view. A longitudinal view (L‐mode or long‐view) can be also displayed, but this should be done only when using motorized transducer pullback. Longitudinal representation of IVUS images is useful for lengths measurements, for interpolation of shadowed deep arterial structures (i.e. external elastic membrane behind calcium or stent metal). There are advantages and disadvantages to using manual or motorized pullback; however, motorized pullback is usually preferable. Using motorized transducer pullback allows assessment of lesion length, volumetric measurements, consistent and systematic IVUS image acquisition among different operators, and uniform and reproducible image acquisition for multicenter and serial studies.

      In standard image acquisition after anticoagulation and intracoronary nitroglycerin administration, the IVUS catheter should be placed distal to the segment of interest (aiming for 20 mm of distal reference), and a continuous pullback to the aorta should be recorded. The preferred pullback speed is 0.5 mm/s but 1 mm/s is often used.

Schematic illustration of normal coronary artery morphology in cross-sectional view.

Schematic illustration of IVUS measurements pre-intervention in a non-stented artery.