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Magnetic Resonance Imaging (MRI) of Ventriculomegaly: Morphology and Outcome

National Institutes of Health (NIH) logo

National Institutes of Health (NIH)

Status

Completed

Conditions

Ventriculomegaly

Study type

Observational

Funder types

Other
NIH

Identifiers

NCT00870675
2001-P-00842/6
NIH NIBIB 01998

Details and patient eligibility

About

This study compares the accuracy of fast magnetic resonance imaging (MRI) using the half Fourier single shot rapid acceleration with relaxation enhancement technique to ultrasound in the diagnosis of fetal abnormalities. The investigators' specific aim is to perform MRI examinations with ultrafast MRI on fetuses with sonographic morphologic abnormalities. The investigators' hypotheses are that 1) MRI will demonstrate fetal morphologic abnormalities; and 2) MRI will add additional information to the sonographic diagnosis which may directly affect maternal and/or neonatal care.

Full description

  1. Study Design: This is a descriptive study looking at the potential for MRI to aid in the diagnosis of fetal ventriculomegaly. It will also compare the specificity of MRI and ultrasound in diagnosing additional morphologic abnormalities.

450 pregnant women in the second and third trimester with ventriculomegaly will be asked to participate. Sonograms will be performed according the American Institute of Ultrasound in Medicine/American College of Radiology guidelines. In addition, views will be obtained of the fetal face, lips, outflow tracts, hands, and feet.

The gestational age of the fetus, interpretation of the sonogram, with sonographic abnormality and specific diagnosis will be prospectively recorded. Other data collected will be age and ethnicity of the patient, results of chromosomal analysis during the current pregnancy, and gestational age at the time of original diagnosis of abnormality during this pregnancy.

After screening for contraindications to MRI examination patients will undergo a 20 minute MRI examination. MRI examinations will be performed with a 1.5 T superconductive system (SIEMENS VISION, Erlangen, Germany or General Electric Twin, Milwaukee) using a 4-8 element body phased-array coil and/or body coil. The minimum rise time will be 600 microseconds (for a 25 milliTesla preset gradient amplitude). The whole body specific absorption rate will be kept under 1.5 watt/kilogram. Patients will be positioned supine with their feet entering the magnet bore first to minimize feelings of claustrophobia. A scout view will be obtained, and fetal images will be obtained with half Fourier single shot fast spin echo imaging imaging in the fetal sagittal, coronal, and axial planes (echo spacing of 4.2 msec, echo time=60 msec, echo train length=72, 1 acquisition, 3-5 mm section thickness, 26 x 35 cm field of view, 128 x 256 acquisition matrix). The refocusing flip angle will be minimized to decrease the amount of radiofrequency power deposition. Fetal anomalies seen with MRI will be recorded prospectively with knowledge of the sonographic findings.

Interpretation of the sonograms will be performed independently of the MR results. Interpretation of MRI examinations will be performed by reviewers with knowledge of the results of the ultrasound. The principal investigator will then combine the results from the two modalities. When the diagnosis differs between the modalities, the images will be reviewed by three radiologists and a consensus will be reached. The results of the sonogram and MRI will be communicated to the referring physician. Affect of any change in patient care will be assessed.

Comparison of MR diagnoses will be made to sonographic diagnoses. Clinical and pathologic follow-up will be obtained postnatally on all fetuses enrolled in the study.

After the baby is born, at 3 months of age, the patients will be contacted by phone by one of the investigators at Beth Israel Deaconess Medical Center to see if they want to enroll their baby in the neonatal follow-up portion of the study. This involves cognitive and motor testing of the child at Boston's Children's Hospital at age 6 months, 1 year, 2 years and 3 years of age. If a head MR or head ultrasound has not been obtained for clinical indications, it will be offered to the patient at that time.

Timeline of postnatal follow-up Number of patient for postnatal follow-up at specified age* Patients Enrolled Peripartum follow-up 6 months 18 months 24 months 36 month Any age Year 1 90 68 18 18 Year 2 90 90 54 51 105 Year 3 90 90 54 51 49 154 Year 4 90 90 54 51 49 46 200 Year 5 90 90 54 51 49 46 200 Total 450 428 234 205 146 93 678

b. Data Analysis: This is primarily a descriptive study, comparing ultrasound and MR findings. Sonographic, MR, and postnatal diagnoses will be compared. Since this is a highly selected population, we cannot calculate sensitivity and specificity of each modality, but we can describe the type of findings visualized on one prenatal imaging modality that were not visualized on the other.

Data will be stored in an access database created specifically for this project

Enrollment

434 patients

Sex

Female

Ages

18+ years old

Volunteers

No Healthy Volunteers

Inclusion criteria

  • Sonographic finding of ventriculomegaly
  • Ability and willingness of the patient to provide informed consent and cooperate for the examination
  • Absence of contraindications for MRI (claustrophobia, pacemaker, intracranial clips, intra-articular ocular debris)
  • All patients must be greater than 18 years old and must be in the second or third trimester of pregnancy

Exclusion criteria

  • Contraindications to MRI
  • Age less than 18
  • First trimester of pregnancy

Trial design

434 participants in 1 patient group

ventriculomegaly
Description:
Pregnant women carrying a fetus with the ultrasound finding of enlarged ventricles (ventriculomegaly).

Trial contacts and locations

1

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Data sourced from clinicaltrials.gov

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