First-pass Entry of Nonionic Contrast Agent into the Myocardial Extravascular Space. Effects on Radiographic Estimates of Transit Time and Blood Volume
Overview
Authors
Affiliations
Background: Almost all x-ray-based techniques intended to assess regional myocardial perfusion from myocardial concentration-time curves following the administration of soluble contrast agents assume that these agents behave as intravascular indicators and can therefore provide measurements of intravascular transit time and intramyocardial blood volume.
Methods And Results: We tested this assumption by comparing a conventional nonionic contrast agent (ioversol) to a particulate emulsion (ethiodol) that remained in the vascular space in closed-chest dogs during pharmacological vasodilation. Using fast computed tomography (CT), pairs of myocardial CT intensity-time curves were obtained following sequential bolus aortic administration of the two contrast agents. The emulsion (particle size less than 3 microns) was almost completely washed out of the myocardial region of interest within a few seconds, as would be anticipated for a vascular indicator. At the onset of recirculation, CT intensity for ethiodol fell to 5 +/- 1% (SEM) of peak values in normally perfused areas and to 10 +/- 4% of peak values in an area in which flow had been reduced by 50% by a chronically implanted coronary artery occluder (p = NS). In comparison, the diffusible nonionic contrast agent ioversol showed substantial intramyocardial retention at the onset of recirculation. At the time of recirculation, CT intensities for ioversol averaged 36 +/- 2% of peak values in normally perfused nonstenotic areas and 54 +/- 4% of peak values in stenotic areas (p less than 0.01). Using residue function analysis for a diffusible indicator, first-pass extractions of the conventional nonionic agent averaged 33 +/- 2% in normally perfused areas and 50 +/- 3% in stenotic areas (p less than 0.01). Because of the significant first-pass myocardial retention of ioversol, both mean myocardial appearance time and intramyocardial blood volume were consistently overestimated.
Conclusions: Soluble radiographic contrast agents, like other small molecules, enter the interstitial space to a degree, which is important because it affects estimates of myocardial perfusion based on transit time and intramyocardial blood volume. Indicator dilution models intended to quantify myocardial perfusion with conventional radiographic contrast agents need to account for this extravascular exchange.
Neilio J, Ginat D Diagnostics (Basel). 2024; 14(15).
PMID: 39125542 PMC: 11311342. DOI: 10.3390/diagnostics14151666.
Coronary Microvascular Dysfunction and the Role of Noninvasive Cardiovascular Imaging.
Ayub M, Kalra D Diagnostics (Basel). 2020; 10(9).
PMID: 32916881 PMC: 7555249. DOI: 10.3390/diagnostics10090679.
Cardiovascular Imaging Techniques to Assess Microvascular Dysfunction.
Mathew R, Bourque J, Salerno M, Kramer C JACC Cardiovasc Imaging. 2019; 13(7):1577-1590.
PMID: 31607665 PMC: 7148179. DOI: 10.1016/j.jcmg.2019.09.006.
Yoneyama F, Osaka M, Sato F, Sakamoto H, Hiramatsu Y Ann Vasc Dis. 2018; 11(2):248-251.
PMID: 30116421 PMC: 6094036. DOI: 10.3400/avd.hdi.17-00137.
Gaikwad H, Tsvirkun D, Ben-Nun Y, Merquiol E, Popovtzer R, Blum G Nano Lett. 2018; 18(3):1582-1591.
PMID: 29470072 PMC: 6192665. DOI: 10.1021/acs.nanolett.7b03813.