Saved in:
Bibliographic Details
Main Authors: Dmitrij Kravchenko, Muhammad Taha Hagar, Milan Vecsey‐Nagy, Giuseppe Tremamunno, Bálint Szilveszter, Borbála Vattay, Emese Zsarnóczay, Sámuel Beke, Pál Maurovich‐Horvat, Tilman Emrich, Akos Varga‐Szemes
Format: Artículo Open Access
Published: Wiley 2025
Subjects:
Online Access:https://onlinelibrary.wiley.com/doi/10.1111/echo.70100
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1867010333901586432
author Dmitrij Kravchenko
Muhammad Taha Hagar
Milan Vecsey‐Nagy
Giuseppe Tremamunno
Bálint Szilveszter
Borbála Vattay
Emese Zsarnóczay
Sámuel Beke
Pál Maurovich‐Horvat
Tilman Emrich
Akos Varga‐Szemes
author_facet Dmitrij Kravchenko
Muhammad Taha Hagar
Milan Vecsey‐Nagy
Giuseppe Tremamunno
Bálint Szilveszter
Borbála Vattay
Emese Zsarnóczay
Sámuel Beke
Pál Maurovich‐Horvat
Tilman Emrich
Akos Varga‐Szemes
Dmitrij Kravchenko
Muhammad Taha Hagar
Milan Vecsey‐Nagy
Giuseppe Tremamunno
Bálint Szilveszter
Borbála Vattay
Emese Zsarnóczay
Sámuel Beke
Pál Maurovich‐Horvat
Tilman Emrich
Akos Varga‐Szemes
collection Wiley Open Access
contents Value of Ultrahigh‐Resolution Photon‐Counting Detector Computed Tomography in Cardiac Imaging Dmitrij Kravchenko Muhammad Taha Hagar Milan Vecsey‐Nagy Giuseppe Tremamunno Bálint Szilveszter Borbála Vattay Emese Zsarnóczay Sámuel Beke Pál Maurovich‐Horvat Tilman Emrich Akos Varga‐Szemes Echocardiography ABSTRACT It was only fitting that when computed tomography (CT) was celebrating its 50th birthday since its maiden scan in 1971, it was also entering into a new generation in 2021 with the Food and Drug Administration's approval of the first photon‐counting detector (PCD)‐CT. As non‐invasive cardiac imaging is evolving into an ever more important medical field, the introduction of this new technology promises a slew of improvements over energy‐integrating detector (EID)‐CTs, most importantly improved spatial resolution in the form of ultrahigh‐resolution (UHR) imaging, reduced radiation exposure, and routinely acquired spectral information. Spatial resolution has historically been a key hurdle for cardiac CT, especially for coronary imaging where structures in the realm of 2 mm need to be assessed. Initial reports on the use of PCD‐CT in cardiac imaging so far have been promising, but many questions ranging from standardized scan protocols to evidence‐based recommendations remain. The aim of this review is to discuss the currently available literature regarding the use of UHR PCD‐CT for cardiac imaging and explore if it has led to changes in guidelines or patient workflows. 10.1111/echo.70100 http://creativecommons.org/licenses/by/4.0/
doi_str_mv 10.1111/echo.70100
format Artículo Open Access
id wiley_oa_10_1111_echo_70100
institution Wiley Open Access
license_str_mv http://creativecommons.org/licenses/by/4.0/
publishDate 2025
publisher Wiley
record_format wiley_oa
spellingShingle Value of Ultrahigh‐Resolution Photon‐Counting Detector Computed Tomography in Cardiac Imaging
Dmitrij Kravchenko
Muhammad Taha Hagar
Milan Vecsey‐Nagy
Giuseppe Tremamunno
Bálint Szilveszter
Borbála Vattay
Emese Zsarnóczay
Sámuel Beke
Pál Maurovich‐Horvat
Tilman Emrich
Akos Varga‐Szemes
Echocardiography
Value of Ultrahigh‐Resolution Photon‐Counting Detector Computed Tomography in Cardiac Imaging Dmitrij Kravchenko Muhammad Taha Hagar Milan Vecsey‐Nagy Giuseppe Tremamunno Bálint Szilveszter Borbála Vattay Emese Zsarnóczay Sámuel Beke Pál Maurovich‐Horvat Tilman Emrich Akos Varga‐Szemes Echocardiography ABSTRACT It was only fitting that when computed tomography (CT) was celebrating its 50th birthday since its maiden scan in 1971, it was also entering into a new generation in 2021 with the Food and Drug Administration's approval of the first photon‐counting detector (PCD)‐CT. As non‐invasive cardiac imaging is evolving into an ever more important medical field, the introduction of this new technology promises a slew of improvements over energy‐integrating detector (EID)‐CTs, most importantly improved spatial resolution in the form of ultrahigh‐resolution (UHR) imaging, reduced radiation exposure, and routinely acquired spectral information. Spatial resolution has historically been a key hurdle for cardiac CT, especially for coronary imaging where structures in the realm of 2 mm need to be assessed. Initial reports on the use of PCD‐CT in cardiac imaging so far have been promising, but many questions ranging from standardized scan protocols to evidence‐based recommendations remain. The aim of this review is to discuss the currently available literature regarding the use of UHR PCD‐CT for cardiac imaging and explore if it has led to changes in guidelines or patient workflows. 10.1111/echo.70100 http://creativecommons.org/licenses/by/4.0/
title Value of Ultrahigh‐Resolution Photon‐Counting Detector Computed Tomography in Cardiac Imaging
topic Echocardiography
url https://onlinelibrary.wiley.com/doi/10.1111/echo.70100