Développements méthodologiques en imagerie cardiovasculaire par résonance magnétique chez le petit animal / Methodological developments in cardiovascular imaging in small animal using magnetic resonance

Lefrançois, William

26 October 2011

L’imagerie cardiovasculaire du rongeur par RMN est un véritable défi en ce qui concerne la résolution spatiale et temporelle, le contraste et le temps d’expérience. S’il est aujourd’hui admis que l’acquisition 3D doit être privilégiée chez le petit animal, les temps d’acquisition en 3D sont parfois très longs. Ils doivent pourtant rester compatibles avec les temps d’expérience in vivo. L’objectif de cette thèse était donc de développer de nouvelles méthodes d’imagerie cardiovasculaire 3D rapides pour le petit animal à 4.7 et 9.4 T. Tout d’abord, nous avons développé deux méthodes d’IRM cardiaque 4D (3D résolue dans le temps) à contraste «sang noir». La première méthode est basée sur une séquence TrueFISP (Fast Imaging with Steady-state Precession). Elle a permis d’obtenir le contraste sang noir en une heure d’acquisition. La deuxième méthode est basée sur une séquence FLASH (Fast Low Angle Shot). Elle utilise un gradient bipolaire pour supprimer le signal sanguin et le contraste a été rehaussé en Manganèse. Trente minutes d’acquisition ont alors été suffisantes. Ensuite, une méthode d’angiographie temps-de-vol 3D du corps entier de la souris a été développée. Le contraste vasculaire a été amélioré grâce à l’adjonction de motifs de suppression du signal tissulaire. L’imagerie de l’arbre vasculaire entier a pu être réalisé en moins de 10 minutes. Enfin, une nouvelle méthode d’angiographie fonctionnelle ciné temps-de-vol 4D utilisant une acquisition écho-planar a été développée. Les résultats préliminaires montrent qu’il est possible de diviser par quatre les temps d’acquisition de l’angiographie fonctionnelle classique. Tous ces résultats montrent que l’imagerie cardiovasculaire 3D haute résolution est possible dans des temps d’acquisition raisonnables voire rapides / Cardiovascular MRI in rodents is a real challenge in terms of spatial and temporal resolution, contrast and experiment times. Though it is accepted that 3D acquisition should be preferred in small animals, 3D acquisition times can be very long. However, they must remain compatible with in vivo experiment times. The aim of this thesis was therefore to develop new fast 3D methods of cardiovascular imaging in small animals at 4.7 and 9.4 T. First, two 4D cardiac MRI methods (3D time resolved) were developed in «black-blood» contrast. The first method is based on a TrueFISP sequence (Fast Imaging with Steady-state Precession). It allowed to make black blood contrast in one hour acquisition time. The second method is based on a FLASH sequence (Fast Low Angle Shot). It uses a bipolar gradient to suppress the blood signal and the contrast was enhanced by using Manganese. Thirty minutes were then enough. Next, a time-of-flight angiography method for the whole body of mice was developed. The vascular contrast was improved by adding preparation modules to suppress the signal from tissues. The imaging of the whole arterial tree was realized within less than ten minutes. Finally, a new 4D time-of-flight method of functional cine angiography with echo-planar acquisition was developed. Preliminary results showed that acquisition times could be divided by four compared with those in classical functional angiography. All these results show that high resolution 3D cardiovascular imaging is possible in reasonable or even fast acquisition times.

IRM du Petit animal

Imagerie cardiaque

Angiographie

Mesure de flux

Small animal MRI

Cardiac imaging

Angiography

Flow measurement

The MRI Sepsis Score: An Innovative Tool for the Evaluation of Septic Peritonitis in Mice Using 7-Tesla Small Animal MRI

Diedrich, Stephan, van der Linde, Julia, Nielson, Michael, Menges, Pia, Kühn, Jens-Peter, Käding, Andre, Ngyuen Trunga, Dung, Heidecke, Claus-Dieter, Partecke, Lars Ivo, Kessler, Wolfram

19 May 2020

Background: Magnetic resonance imaging (MRI) techniques are rarely used in the context of abdominal sepsis and in sepsis research. This study investigates the impact of MRI for monitoring septic peritonitis in an animal model (colon ascendens stent-induced peritonitis, CASP). The CASP model closely mimics that of human disease and is highly standardized. The most frequently employed readout parameter in mouse CASP studies is prolonged or decreased rate of survival. Monitoring the progression of peritonitis via MRI could provide a helpful tool in the evaluation of severity. The use of alternative readout systems could very well reduce the number of research animals. Perspectively, clinical improvement after certain treatment could be classified. Methods: This study describes for the first time MRI findings following the induction of septic peritonitis in mice using the CASP model. Two sublethal groups of mice with septic peritonitis were investigated. Each had received one of two differing stent diameters in order to control the leakage of feces into the abdominal cavity. Each mouse served as its own control. Imaging and analyses were performed blinded. Gut diameters, stomach volume, abdominal organ wall diameters, and volume of the adrenal glands were measured. Serum corticosterone levels were detected using ELISA. Serum IL-6, TNF-α, IL-1β, and IL-10 levels were screened by cytometric bead array. Statistical analysis was performed using the Mann-Whitney U test for nonparametric probes and the Kruskal-Wallis and t tests. Results: Using a 7-tesla MRI scanner 24 and 48 h after induction of septic peritonitis, interenteric fluid, organ swelling of spleen and adrenal glands, as well as dilatation of the stomach were compared to nonseptic conditions. Swelling of adrenal glands resulted in an increased serum corticosterone level. In addition, the wall of the intestine bowel was thickened. Based upon these findings, an MRI score (MRI sepsis score, MSS) for abdominal sepsis in mice was established. Reduced stent sizes led to reduced severity of the abdominal sepsis, which could be reproduced in the MSS, which is described here for the first time. Conclusions: Intraabdominal variations during septic peritonitis are detectable by MRI techniques. MRI methods should become a more important tool for the evaluation of abdominal peritonitis. MSS could provide an interesting tool for the evaluation of therapeutic strategies.

info:eu-repo/classification/ddc/610

ddc:610

Use of Multiple Imaging Views for Improving Image Quality in Small Animal MR Imaging Studies

Manivannan, Niranchana

13 October 2015

No description available.

Electrical Engineering

super resolution

MRI

motion artifact

sigmoid interpolation

post-processing

orthogonal views

super resolution comparison

streaking artifacts

gradient guided interpolation

small animal MRI

high resolution imaging

isotropic