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In vivo quantification of blood mixing in single ventricle patients with Fontan circulation using 4D flow MRI
Journal of Cardiovascular Magnetic Resonance volume 15, Article number: E88 (2013)
Background
Single ventricle physiology (SVP) is one of the most severe forms of complex congenital heart disease (CHD). Patients undergo multiple surgical interventions including the Fontan procedure (caval venous return is routed directly to the pulmonary arteries). Despite the apparent success of the procedure, it is unclear why some patients develop ‘failing Fontan physiology' while others remain asymptomatic. However, there is growing evidence that underlying hemodynamics in the Fontan circulation may play an important role [1]. Uneven distribution of blood from the caval to the pulmonary system has been suspected to influence patient outcome through the delivery of protein-rich venous return [2]. Therefore, the aim of this study was to employ whole heart 4D flow MRI to visualize and quantify ‘blood mixing at the Fontan connection' (upper and lower venous blood distribution to the LPA and RPA).
Methods
4D flow MRI (spatial resolution = 2.5-3.8 x 2.5-3.3 x 2.5-3.3 mm3, temporal resolution = 37.6-40.8 ms) with whole heart coverage was performed at 1.5T and 3T systems (Trio, Avanto, Siemens, Germany) in 8 patients (3 females 5 males, age 17 +/- 6, range 5-26) with Fontan circulation. Time-averaged 3D phase contrast angiograms (PC-MRAs) were calculated using 4D flow MRI data to depict the Fontan vascular geometry. Time-resolved particle pathlines were generated from analysis planes in the caval veins to illustrate the spatial distribution and dynamics of blood flow to the left and right lungs (EnSight, CEI, USA). Blood mixing was quantified by counting the number of pathlines reaching analysis planes in the RPA and LPA (Matlab, The MathWorks, USA). In addition, SVC-IVC offsets were estimated as a measure of Fontan geometry.
Results
3D visualization and quantification results for blood mixing at the Fontan connection varied substantially between patients (Figure 1, Table 1). Linear regression analysis revealed a strong correlation between the asymmetry of flow distributions to the RPA and LPA (% difference in pathline distributions to RPA and LPA) and SVC-IVC offsets for both the SVC (r=0.72, p=0.04) and IVC (r=0.79, p=0.02).
Conclusions
Using 4D flow MRI, blood flow distribution was shown to vary between patients with Fontan circulation, indicating non-uniformity in the distribution of protein-rich hepatic blood carried in the IVC to the lungs and demonstrating the value of 4D flow MRI for the individual assessment of complex Fontan hemodynamics. These findings also indicate a relationship between Fontan geometry (SVC-IVC offset) and blood distribution to the left and right lungs. This study was limited by the number of subjects and the spatial and temporal resolution. In addition, SVC-IVC offsets are estimates and represent a simplified depiction of the Fontan geometry.
Funding
Grant support by NIH R01HL115828, NUCATS Dixon Award.
References
Leyvi G, et al: JCVA. 2009, 23: 54-61.
Shah MJ, et al: Ann Thorac Surg. 1997, 63: 960-963. 10.1016/S0003-4975(96)00961-7.
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This article is published under license to BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Jarvis, K.B., Schnell, S., Gabbour, M. et al. In vivo quantification of blood mixing in single ventricle patients with Fontan circulation using 4D flow MRI. J Cardiovasc Magn Reson 15 (Suppl 1), E88 (2013). https://doi.org/10.1186/1532-429X-15-S1-E88
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DOI: https://doi.org/10.1186/1532-429X-15-S1-E88