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Soman S, Liu Z, Kim G, Nemec U, Holdsworth SJ, Main K, Lee B, Kolakowsky-Hayner S, Selim M, Furst AJ, Massaband P, Yesavage J, Adamson MM, Spincemaille P, Moseley M, Wang Y. Brain Injury Lesion Imaging Using Preconditioned Quantitative Susceptibility Mapping without Skull Stripping. AJNR Am J Neuroradiol 2018; 39:648-653. [PMID: 29472296 DOI: 10.3174/ajnr.a5550] [Citation(s) in RCA: 3] [Impact Index Per Article: 0.5] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/18/2017] [Accepted: 12/04/2017] [Indexed: 11/07/2022]
Abstract
BACKGROUND AND PURPOSE Identifying cerebral microhemorrhage burden can aid in the diagnosis and management of traumatic brain injury, stroke, hypertension, and cerebral amyloid angiopathy. MR imaging susceptibility-based methods are more sensitive than CT for detecting cerebral microhemorrhage, but methods other than quantitative susceptibility mapping provide results that vary with field strength and TE, require additional phase maps to distinguish blood from calcification, and depict cerebral microhemorrhages as bloom artifacts. Quantitative susceptibility mapping provides universal quantification of tissue magnetic property without these constraints but traditionally requires a mask generated by skull-stripping, which can pose challenges at tissue interphases. We evaluated the preconditioned quantitative susceptibility mapping MR imaging method, which does not require skull-stripping, for improved depiction of brain parenchyma and pathology. MATERIALS AND METHODS Fifty-six subjects underwent brain MR imaging with a 3D multiecho gradient recalled echo acquisition. Mask-based quantitative susceptibility mapping images were created using a commonly used mask-based quantitative susceptibility mapping method, and preconditioned quantitative susceptibility images were made using precondition-based total field inversion. All images were reviewed by a neuroradiologist and a radiology resident. RESULTS Ten subjects (18%), all with traumatic brain injury, demonstrated blood products on 3D gradient recalled echo imaging. All lesions were visible on preconditioned quantitative susceptibility mapping, while 6 were not visible on mask-based quantitative susceptibility mapping. Thirty-one subjects (55%) demonstrated brain parenchyma and/or lesions that were visible on preconditioned quantitative susceptibility mapping but not on mask-based quantitative susceptibility mapping. Six subjects (11%) demonstrated pons artifacts on preconditioned quantitative susceptibility mapping and mask-based quantitative susceptibility mapping; they were worse on preconditioned quantitative susceptibility mapping. CONCLUSIONS Preconditioned quantitative susceptibility mapping MR imaging can bring the benefits of quantitative susceptibility mapping imaging to clinical practice without the limitations of mask-based quantitative susceptibility mapping, especially for evaluating cerebral microhemorrhage-associated pathologies, such as traumatic brain injury.
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Affiliation(s)
- S Soman
- From the Departments of Radiology (S.S., G.K., B.L.)
| | - Z Liu
- Department of Biomedical Engineering (Z.L., Y.W.), Cornell University, New York, New York
| | - G Kim
- From the Departments of Radiology (S.S., G.K., B.L.)
| | - U Nemec
- Department of Biomedical Imaging and Image-Guided Therapy (U.N.), Medical University of Vienna, Vienna, Austria
| | | | - K Main
- Research Division, Defense and Veterans Brain Injury Center (K.M.), General Dynamics Health Solutions, Silver Spring, Maryland
| | - B Lee
- From the Departments of Radiology (S.S., G.K., B.L.)
| | - S Kolakowsky-Hayner
- Department of Rehabilitation Medicine (S.K.-H.), Icahn School of Medicine at Mount Sinai, New York, New York
| | - M Selim
- Neurology (M.S.), Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, Massachusetts
| | - A J Furst
- Psychiatry and Behavioral Sciences (A.J.F., J.Y., M.M.A.)
- Departments of Psychiatry (A.J.F., J.Y.)
| | - P Massaband
- Departments of Radiology (S.J.H., P.M., M.M.)
- Radiology (P.M.)
| | - J Yesavage
- Psychiatry and Behavioral Sciences (A.J.F., J.Y., M.M.A.)
- Departments of Psychiatry (A.J.F., J.Y.)
| | - M M Adamson
- Psychiatry and Behavioral Sciences (A.J.F., J.Y., M.M.A.)
- Neurosurgery (M.M.A.), Stanford University, Stanford, California
- Defense and Veterans Brain Injury Center (M.M.A.), VA Palo Alto Health Care System, Palo Alto, California
| | - P Spincemaille
- Department of Radiology (P.S., Y.W.), Weil Cornell Medical College, New York, New York
| | - M Moseley
- Departments of Radiology (S.J.H., P.M., M.M.)
| | - Y Wang
- Department of Biomedical Engineering (Z.L., Y.W.), Cornell University, New York, New York
- Department of Radiology (P.S., Y.W.), Weil Cornell Medical College, New York, New York
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Abstract
Fetal magnetic resonance imaging (MRI) has become an established clinical adjunct for the in-vivo evaluation of human brain development. Normal fetal brain maturation can be studied with MRI from the 18th week of gestation to term and relies primarily on T2-weighted sequences. Recently diffusion-weighted sequences have gained importance in the structural assessment of the fetal brain. Diffusion-weighted imaging provides quantitative information about water motion and tissue microstructure and has applications for both developmental and destructive brain processes. Advanced magnetic resonance techniques, such as spectroscopy, might be used to demonstrate metabolites that are involved in brain maturation, though their development is still in the early stages. Using fetal MRI in addition to prenatal ultrasound, morphological, metabolic, and functional assessment of the fetus can be achieved. The latter is not only based on observation of fetal movements as an indirect sign of activity of the fetal brain but also on direct visualization of fetal brain activity, adding a new component to fetal neurology. This article provides an overview of the MRI methods used for fetal neurologic evaluation, focusing on normal and abnormal early brain development.
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Affiliation(s)
- M Mailath-Pokorny
- Medical University of Vienna, Department of Obstetrics and Gynecology, Vienna, Austria.
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Nemec SF, Nemec U, Weber M, Brugger PC, Bettelheim D, Rotmensch S, Krestan CR, Rimoin DL, Graham JM, Prayer D. Penile biometry on prenatal magnetic resonance imaging. Ultrasound Obstet Gynecol 2012; 39:330-335. [PMID: 21484906 DOI: 10.1002/uog.9022] [Citation(s) in RCA: 9] [Impact Index Per Article: 0.8] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 05/30/2023]
Abstract
OBJECTIVE In view of the implementation of magnetic resonance imaging (MRI) as an adjunct to ultrasonography in prenatal diagnosis, this study sought to demonstrate normal penile growth on prenatal MRI. METHODS This was a retrospective study of MRI of 194 male fetuses (18-34 weeks' gestation) with normal anatomy or minor abnormalities. On sagittal T2-weighted MRI sequences, we measured penile length from the glans tip to the scrotal edge (outer length) and from the glans tip to the symphyseal border (total length). Descriptive statistics, as well as correlation and regression analysis, were used to evaluate penile length in relation to gestation. T-tests were calculated to compare mean outer/total length on MRI with published ultrasound data. RESULTS Mean length values, including 95% CIs and percentiles, were defined. Penile length as a function of gestational age was expressed by the following regression equations: outer mean length = - 5.514 + 0.622 × gestational age in weeks; total mean length = - 8.865 + 1.312× gestational age in weeks. The correlation coefficients, r = 0.532 and r = 0.751, respectively, were statistically significant (P < 0.001). Comparison of outer penile length on MRI with published ultrasound penile length data showed no significant differences, while total penile length on MRI was significantly greater than ultrasound penile length (P < 0.001). CONCLUSION Our MRI results provide a reference range of fetal penile length, which, in addition to ultrasonography, may be helpful in the identification of genital anomalies. Outer penile length on MRI is equivalent to penile length measured on ultrasound, whereas total length is significantly greater.
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Affiliation(s)
- S F Nemec
- Department of Radiology, Division of Neuroradiology and Musculoskeletal Radiology, Medical University Vienna, Vienna, Austria.
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Nemec SF, Nemec U, Weber M, Kasprian G, Brugger PC, Krestan CR, Rotmensch S, Rimoin DL, Graham JM, Prayer D. Male sexual development in utero: testicular descent on prenatal magnetic resonance imaging. Ultrasound Obstet Gynecol 2011; 38:688-694. [PMID: 21337441 DOI: 10.1002/uog.8964] [Citation(s) in RCA: 7] [Impact Index Per Article: 0.5] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 05/30/2023]
Abstract
OBJECTIVE To visualize in utero male fetal testicular descent on magnetic resonance imaging (MRI) and to correlate it with gestational age. METHODS This retrospective study included 202 MRI examination results of 199 male fetuses (17-39 gestational weeks) with normal anatomy or minor congenital abnormalities, following suspicion of anomalies on prenatal ultrasound examination. Using a 1.5-Tesla unit, multiplanar T2-weighted sequences were applied using a standard protocol to image and identify the scrotal content. The relative frequencies of unilateral and bilateral testicular descent were calculated and correlated with gestational age. RESULTS Between 17 and 25 gestational weeks, neither unilateral nor bilateral testicular descent was visualized on MRI. Testicular descent was first observed at 25 + 4 weeks, in 7.7% of cases. 12.5% of 27-week fetuses showed unilateral descent and 50% showed bilateral descent. Bilateral descent was observed in 95.7% of cases, on average, from 30 to 39 weeks. CONCLUSIONS Our results chart the time course of testicular descent on prenatal MRI, which may be helpful in the identification of normal male sexual development and in the diagnosis of congenital abnormalities, including the early detection of cryptorchidism.
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Affiliation(s)
- S F Nemec
- Department of Radiology, Division of Neuroradiology and Musculoskeletal Radiology, Medical University Vienna, Vienna, Austria.
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Nemec SF, Nemec U, Weber M, Rotmensch S, Brugger PC, Kasprian G, Krestan CR, Rimoin DL, Graham JM, Prayer D. Female external genitalia on fetal magnetic resonance imaging. Ultrasound Obstet Gynecol 2011; 38:695-700. [PMID: 21584884 DOI: 10.1002/uog.8973] [Citation(s) in RCA: 7] [Impact Index Per Article: 0.5] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 05/30/2023]
Abstract
OBJECTIVES To characterize the normal development of the female external genitalia on fetal magnetic resonance imaging (MRI). METHODS This retrospective study included MRI examinations of 191 female fetuses (20-36 gestational weeks) with normal anatomy or minor abnormalities, following suspicion of anomalies on prenatal ultrasound examination. Using a 1.5-Tesla unit, the bilabial diameter was measured on T2-weighted sequences. Statistical description, as well as correlation and regression analyses, was used to evaluate bilabial diameter in relation to gestational age. MRI measurements were compared with published ultrasound data. The morphological appearance and signal intensities of the external genitalia were also assessed. RESULTS Mean bilabial diameters, with 95% CIs and percentiles, were defined. The bilabial diameter as a function of gestational age was expressed by the regression equation: bilabial diameter = - 11.336 + 0.836 × (gestational age in weeks). The correlation coefficient, r = 0.782, was statistically significant (P < 0.001). Bilabial diameter on MRI was not significantly different from that on ultrasound (P < 0.001). In addition, on MRI we observed changes in morphology of the external genitalia and in signal intensities with increasing gestational age. CONCLUSIONS We have provided a reference range of fetal bilabial diameter on MRI, which, in addition to ultrasound findings, may be helpful in the identification of genital anomalies.
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Affiliation(s)
- S F Nemec
- Department of Radiology, Division of Neuroradiology and Musculoskeletal Radiology, Medical University Vienna, Vienna, Austria.
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Nemec SF, Kasprian G, Brugger PC, Bettelheim D, Amann G, Nemec U, Rotmensch S, Graham JM, Rimoin DL, Lachman RS, Prayer D. Abnormalities of the upper extremities on fetal magnetic resonance imaging. Ultrasound Obstet Gynecol 2011; 38:559-567. [PMID: 21308835 DOI: 10.1002/uog.8949] [Citation(s) in RCA: 11] [Impact Index Per Article: 0.8] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 05/30/2023]
Abstract
OBJECTIVE In view of the increasing use of fetal magnetic resonance imaging (MRI) as an adjunct to prenatal ultrasonography, we sought to demonstrate the visualization of upper extremity abnormalities and associated defects on MRI, with regard to fetal outcomes and compared with ultrasound imaging. METHODS This retrospective study included 29 fetuses with upper extremity abnormalities visualized with fetal MRI following suspicious ultrasound findings and confirmed by postnatal assessment or autopsy. On a 1.5-Tesla unit, dedicated sequences were applied to image the extremities. Central nervous system (CNS) and extra-CNS anomalies were assessed to define extremity abnormalities as isolated or as complex, with associated defects. Fetal outcome was identified from medical records. MRI and ultrasound findings, when available, were compared. RESULTS Isolated upper extremity abnormalities were found in three (10.3%) fetuses. In 26 (89.7%) fetuses complex abnormalities, including postural extremity disorders (21/26) and structural extremity abnormalities (15/26), were demonstrated. Associated defects involved: face (15/26); musculoskeletal system (14/26); thorax and cardio/pulmonary system (12/26); lower extremities (12/26); brain and skull (10/26); and abdomen (8/26). Of the 29 cases, 18 (62.1%) pregnancies were delivered and 11 (37.9%) were terminated. MRI and US findings were compared in 27/29 cases: the diagnosis was concordant in 14 (51.9%) of these cases, and additional findings were made on MRI in 13/27 (48.1%) cases. CONCLUSIONS Visualization of upper extremity abnormalities on fetal MRI enables differentiation between isolated defects and complex ones, which may be related to poor fetal prognosis. MRI generally confirms the ultrasound diagnosis, and may provide additional findings in certain cases.
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Affiliation(s)
- S F Nemec
- Medical Genetics Institute, Cedars Sinai Medical Center, Los Angeles, CA, USA.
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