Abstract
BackgroundConventional MRI sequences are often affected in neuropediatric imaging by unavoidable movements. Therefore, children younger than 6 years usually have to be examined under sedation/anesthesia. A new real-time MRI technique with automatic slice advancement allows for motion-robust T2-weighted volume coverage of the whole brain within a few seconds in adults.ObjectiveTo evaluate to which extent the new volume coverage method can be used to visualize cerebrospinal fluid and reduce the need for anesthesia in children.Materials and methodsWe assessed 30 children ages 6 years and younger with suspected or proven hydrocephalus, hygroma or macrocephalus using volume coverage sequences with 20 slices per second in three planes. If necessary, a parent was placed in the bore together with the child for calming and gentle immobilization. We compared visualization of cerebrospinal fluid spaces and course of the shunt catheter in volume coverage sequences vs. fast spin-echo sequences.ResultsThe clinical issue could be sufficiently assessed in all children with use of volume coverage sequences, whereas conventional fast spin-echo sequences performed moderately to poorly. Visualization of the tip of a shunt failed in 16% of volume coverage scans and 27% of turbo spin-echo scans. A subsequent examination under anesthesia was never necessary. None of the examinations had to be stopped prematurely.ConclusionThe motion-robust volume coverage sequences with T2-type contrast can be used to avoid sedation of children in the evaluation of cerebrospinal fluid spaces, even in the presence of vigorous motion. For other indications and contrasts, the technique must still be evaluated.
Highlights
The evaluation of changes in the internal and external cerebrospinal fluid (CSF) spaces comprises a large portion of pediatric MR studies
The clinical question could be adequately answered without sedation or anesthesia, with volume coverage sequences alone (n=30, success rate 100%)
A shunt catheter was present in 19/30 (63%) children; among these, complete visualization of the catheter through volume coverage sequences was achieved in 84% (n=16) and through turbo spin-echo sequences (TSE) sequences in 27% (n=8)
Summary
The evaluation of changes in the internal and external cerebrospinal fluid (CSF) spaces comprises a large portion of pediatric MR studies. US imaging is the method of choice for children through age 1 year. The usability of US imaging is, limited in time by the closure of the large fontanel toward the first birthday, and limited in space by the acoustic window by the parenchyma areas close to the cranial vault and by the decreasing image quality at necessarily lower acoustic frequencies. To avoid CT with its inherent ionizing radiation, cranial MRI is usually preferred when cross-sectional images are required. MRI sequences are often affected in neuropediatric imaging by unavoidable movements. Children younger than 6 years usually have to be examined under sedation/anesthesia. A new real-time MRI technique with automatic slice advancement allows for motion-robust T2-weighted volume coverage of the whole brain within a few seconds in adults
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