Fiche publication


Date publication

juillet 2017

Journal

Journal of medical imaging (Bellingham, Wash.)

Auteurs

Membres identifiés du Cancéropôle Est :
Dr DULUC Isabelle , Dr FREUND Jean-Noël


Tous les auteurs :
Dillenseger JP, Goetz C, Sayeh A, Healy C, Duluc I, Freund JN, Constantinesco A, Aubertin-Kirch G, Choquet P

Résumé

We use high-resolution [Formula: see text] data in multiple experiments to estimate the sources of error during coregistration of images acquired on separate preclinical instruments. In combination with experiments with phantoms, we completed in vivo imaging on mice, aimed at identifying the possible sources of registration errors, caused either by transport of the animal, movement of the animal itself, or methods of coregistration. The same imaging cell was used as a holder for phantoms and animals. For all procedures, rigid coregistration was carried out using a common landmark coregistration system, placed inside the imaging cell. We used the fiducial registration error and the target registration error to analyze the coregistration accuracy. We found that moving an imaging cell between two preclinical devices during a multimodal procedure gives an error of about [Formula: see text] at most. Therefore, it could not be considered a source of coregistration errors. Errors linked to spontaneous movements of the animal increased with time, to nearly 1 mm at most, excepted for body parts that were properly restrained. This work highlights the importance of animal intrinsic movements during a multiacquisition procedure and demonstrates a simple method to identify and quantify the sources of error during coregistration.

Mots clés

coregistration, multimodal imaging, x-ray computed tomography

Référence

J Med Imaging (Bellingham). 2017 Jul;4(3):035503