Stephanie A. Giza scite author profile

Background: Despite its many advantages, experience with fetal magnetic resonance imaging (MRI) is limited, as is knowledge of how fetal tissue relaxation times change with gestational age (GA). Quantification of fetal tissue relaxation times as a function of GA provides insight into tissue changes during fetal development and facilitates comparison of images across time and subjects. This, therefore, can allow the determination of biophysical tissue parameters that may have clinical utility. Purpose: To demonstrate the feasibility of quantifying previously unknown T 1 and T 2 * relaxation times of fetal tissues in uncomplicated pregnancies as a function of GA at 1.5 T. Study Type: Pilot. Population: Nine women with singleton, uncomplicated pregnancies (28-38 weeks GA). Field Strength/Sequence: All participants underwent two iterative decomposition of water and fat with echo asymmetry and least-squares estimation (IDEAL-IQ) acquisitions at different flip angles (6 and 20 ) at 1.5 T. Assessment: Segmentations of the lungs, liver, spleen, kidneys, muscle, and adipose tissue (AT) were conducted using water-only images and proton density fat fraction maps. Driven equilibrium single pulse observation of T 1 (DESPOT 1 ) was used to quantify the mean water T 1 of the lungs, intraabdominal organs, and muscle, and the mean water and lipid T 1 of AT. IDEAL T 2 * maps were used to quantify the T 2 * values of the lungs, intraabdominal organs, and muscle. Statistical Tests: F-tests were performed to assess the T 1 and T 2 * changes of each analyzed tissue as a function of GA. Results: No tissue demonstrated a significant change in T 1 as a function of GA (lungs [P = 0.

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Measuring fetal adipose tissue using 3D water-fat magnetic resonance imaging: a feasibility study

Giza

Olmstead

McCooeye

et al. 2018

The Journal of Maternal-Fetal & Neonatal Medicine

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Water-fat magnetic resonance imaging of adipose tissue compartments in the normal third trimester fetus

et al. 2021

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Comparison of modified two‐point dixon and chemical shift encoded MRI water‐fat separation methods for fetal fat quantification

Giza

Miller

Parthasarathy

et al. 2018

Magnetic Resonance Imaging

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Stephanie A. Giza

Altered maternal and placental lipid metabolism and fetal fat development in obesity: Current knowledge and advances in non-invasive assessment

Quantification of 1.5 T T₁ and T₂^* Relaxation Times of Fetal Tissues in Uncomplicated Pregnancies

Measuring fetal adipose tissue using 3D water-fat magnetic resonance imaging: a feasibility study

Water-fat magnetic resonance imaging of adipose tissue compartments in the normal third trimester fetus

Comparison of modified two‐point dixon and chemical shift encoded MRI water‐fat separation methods for fetal fat quantification

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Stephanie A. Giza

Altered maternal and placental lipid metabolism and fetal fat development in obesity: Current knowledge and advances in non-invasive assessment

Quantification of 1.5 T T1 and T2* Relaxation Times of Fetal Tissues in Uncomplicated Pregnancies

Measuring fetal adipose tissue using 3D water-fat magnetic resonance imaging: a feasibility study

Water-fat magnetic resonance imaging of adipose tissue compartments in the normal third trimester fetus

Comparison of modified two‐point dixon and chemical shift encoded MRI water‐fat separation methods for fetal fat quantification

Contact Info

Product

Resources

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Quantification of 1.5 T T₁ and T₂^* Relaxation Times of Fetal Tissues in Uncomplicated Pregnancies