1.Gradient Optimized Gradient-Echo Gradient Moment Nulling Sequences for Flow Compensation of Brain mages.
Geon Ho JAHNG ; Stephen PICKUP
Journal of the Korean Society of Magnetic Resonance in Medicine 2000;4(1):20-26
Gradient moment nulling techniques require the introduction of an additional gradient on each axis for each order of motion correction to be applied. The additional gradients introduce new constraints on the sequence design and increase the demands on the gradient system. The purpose of this paper is to demonstrate techniques for optimization of gradient echo gradient moment nulling sequences within the constraints of the gradient hardware. Flow compensated pulse sequences were designed and implemented on a clinical magnetic resonance imaging system. The design of the gradient moment nulling sequences requires the solution of a linear system of equations. A Mathematica package was developed that interactively solves the gradient moment nulling problem. The package allows the physicist to specify the desired order of motion compensation and the duration of the gradients in the sequence with different gradient envelopes. The gradient echo sequences with first, second, and third order motion compensation were implemented with minimum echo time. The sequences were optimized to take full advantage of the capabilities of the gradient hardware. The sequences were used to generate images of phantoms and human brains. The optimized sequences were found to have better motion compensation than comparable standard sequences.
Axis, Cervical Vertebra
;
Brain*
;
Compensation and Redress*
;
Humans
;
Magnetic Resonance Imaging
2.Practical Considerations of Arterial Spin Labeling MRI for Measuring the Multi-slice Perfusion in the Human Brain.
Korean Journal of Medical Physics 2007;18(1):35-41
In this work practical considerations of a pulsed arterial spin labeling MRI are presented to reliable multi-slice perfusion measurements in the human brain. Three parameters were considered in this study. First, in order to improve slice profile and inversion efficiency of a labeling pulse a high power inversion pulse of adiabatic hyperbolic secant was designed. A 900o rotation of the flip angle was provided to make a good slice profile and excellent inversion efficiency. Second, to minimize contributions of a residual magnetization between interleaved scans of control and labeling we tested three different conditions which were applied 1) only saturation pulses, 2) only spoiler gradients, and 3) combinations of saturation pulses and spoiler gradients. Applications of both saturation pulses and spoiler gradients minimized the residual magnetization. Finally, to find a minimum gap between a tagged plane and an imaging plane we tested signal changes of the subtracted image between control and labeled images with varying the gap. The optimum gap was about 20 mm. In conclusion, in order to obtain high quality of perfusion images in human brain it is important to use optimum parameters. Before routinely using in clinical studies, we recommend to make optimizations of sequence parameters.
Brain*
;
Humans*
;
Magnetic Resonance Imaging*
;
Perfusion*
3.Perfusion Magnetic Resonance Imaging: A Comprehensive Update on Principles and Techniques.
Geon Ho JAHNG ; Ka Loh LI ; Leif OSTERGAARD ; Fernando CALAMANTE
Korean Journal of Radiology 2014;15(5):554-577
Perfusion is a fundamental biological function that refers to the delivery of oxygen and nutrients to tissue by means of blood flow. Perfusion MRI is sensitive to microvasculature and has been applied in a wide variety of clinical applications, including the classification of tumors, identification of stroke regions, and characterization of other diseases. Perfusion MRI techniques are classified with or without using an exogenous contrast agent. Bolus methods, with injections of a contrast agent, provide better sensitivity with higher spatial resolution, and are therefore more widely used in clinical applications. However, arterial spin-labeling methods provide a unique opportunity to measure cerebral blood flow without requiring an exogenous contrast agent and have better accuracy for quantification. Importantly, MRI-based perfusion measurements are minimally invasive overall, and do not use any radiation and radioisotopes. In this review, we describe the principles and techniques of perfusion MRI. This review summarizes comprehensive updated knowledge on the physical principles and techniques of perfusion MRI.
Arteries/chemistry
;
Brain Neoplasms/radiography
;
Contrast Media/diagnostic use
;
Humans
;
Magnetic Resonance Imaging/standards/*trends
;
Spin Labels
;
Stroke/radiography
4.Investigation of Varied MR Spectra by TE and Metabolite Amount in the Localized Voxel using the MR Cone-shape Phantom.
Dong Cheol WOO ; Sang Soo KIM ; Hyang Shuk RHIM ; Geon Ho JAHNG ; Bo Young CHOE
Korean Journal of Medical Physics 2007;18(3):179-185
The purpose of this study is to investigate the spectra of a magnetic resonance spectroscopy (MRS) in accordance with the variance of TE and the volumes of metabolites in a localized voxel for the quality assurance using a designed single voxel spectroscopy QA phantom. Because a cone-shape phantom is designed as the volume of metabolite in a localized voxel is changeable, we try to analyze the peaks of each metabolite (NAA, Cr, Cho, Lac, etc.) in accordance with metabolite volume in a localized voxel as well as echo time (TE). All data were obtained using a 3T MRI/MRS machine and analyzed using jMRUI(R). The results of this study show that TE is in inverse proportion to the noise of MRS and the longer TE and the less metabolite volume in the localized voxel, the peak intensities of each metabolite decrease. In case of the lactate, its peak was observed on the all TE only if the greatest metabolite is included in the localized voxel. Then, the intensity of a metabolite is more sensitive to the metabolite volume in the localized voxel than the TE. These obtained in vitro MRS data is provide the guideline that is important for in vivo metabolite quantification. But, in the edge of cone-shape vial air bubbles were observed and spectrum could not obtained. Therefore our cone-shape MRS phantom needs to be modified in order to solve these problems.
Lactic Acid
;
Magnetic Resonance Spectroscopy
;
Noise
;
Spectrum Analysis
5.Value of Perfusion Weighted Magnetic Resonance Imaging in the Diagnosis of Supratentorial Anaplastic Astrocytoma.
Kyung Mi LEE ; Eui Jong KIM ; Geon Ho JAHNG ; Bong Jin PARK
Journal of Korean Neurosurgical Society 2014;56(3):261-264
We report perfusion weighted imaging (PWI) findings of nonenhanced anaplastic astrocytoma in a 30-year-old woman. Brain magnetic resonance imaging showed a nonenhanced brain tumor with mild peritumoral edema on the right medial frontal lobe and right genu of corpus callosum, suggesting a low-grade glioma. However, PWI showed increased relative cerebral blood volume, relative cerebral blood flow, and permeability of nonenhanced brain tumor compared with contralateral normal brain parenchyma, suggesting a high-grade glioma. After surgery, final histopathological analysis revealed World Health Organization grade III anaplastic astrocytoma. This case demonstrates the importance of PWI for preoperative evaluation of nonenhanced brain tumors.
Adult
;
Astrocytoma*
;
Blood Volume
;
Brain
;
Brain Neoplasms
;
Corpus Callosum
;
Diagnosis*
;
Edema
;
Female
;
Frontal Lobe
;
Glioma
;
Humans
;
Magnetic Resonance Angiography
;
Magnetic Resonance Imaging*
;
Perfusion*
;
Permeability
;
World Health Organization
6.Value of Perfusion Weighted Magnetic Resonance Imaging in the Diagnosis of Supratentorial Anaplastic Astrocytoma.
Kyung Mi LEE ; Eui Jong KIM ; Geon Ho JAHNG ; Bong Jin PARK
Journal of Korean Neurosurgical Society 2014;56(3):261-264
We report perfusion weighted imaging (PWI) findings of nonenhanced anaplastic astrocytoma in a 30-year-old woman. Brain magnetic resonance imaging showed a nonenhanced brain tumor with mild peritumoral edema on the right medial frontal lobe and right genu of corpus callosum, suggesting a low-grade glioma. However, PWI showed increased relative cerebral blood volume, relative cerebral blood flow, and permeability of nonenhanced brain tumor compared with contralateral normal brain parenchyma, suggesting a high-grade glioma. After surgery, final histopathological analysis revealed World Health Organization grade III anaplastic astrocytoma. This case demonstrates the importance of PWI for preoperative evaluation of nonenhanced brain tumors.
Adult
;
Astrocytoma*
;
Blood Volume
;
Brain
;
Brain Neoplasms
;
Corpus Callosum
;
Diagnosis*
;
Edema
;
Female
;
Frontal Lobe
;
Glioma
;
Humans
;
Magnetic Resonance Angiography
;
Magnetic Resonance Imaging*
;
Perfusion*
;
Permeability
;
World Health Organization
7.Multi-slice Multi-echo Pulsed-gradient Spin-echo (MePGSE) Sequence for Diffusion Tensor Imaging MRI: A Preliminary Result.
Geon Ho JAHNG ; Stephen PICKUP
Korean Journal of Medical Physics 2007;18(2):65-72
An echo planar imaging (EPI)-based spin-echo sequence is often used to obtain diffusion tensor imaging (DTI) data on most of the clinical MRI systems. However, this sequence is confounded with the susceptibility artifacts, especially on the temporal lobe in the human brain. Therefore, the objective of this study was to design a pulse sequence that relatively immunizes the susceptibility artifacts, but can map diffusion tensor components in a single-shot mode. A multi-slice multi-echo pulsed-gradient spin-echo (MePGSE) sequence with eight echoes wasdeveloped with selective refocusing pulses for all slices to map the full tensor. The first seven echoes in the train were diffusion-weighted allowing for the observation of diffusion in several different directions in a single experiment and the last echo was for crusher of the residual magnetization. All components of diffusion tensor were measured by a single shot experiment. The sequence was applied in diffusive phantoms. The preliminary experimental verification of the sequence was illustrated by measuring the apparent diffusion coefficient (ADC) for tap water and by measuring diffusion tensor components for watermelon. The ADC values in the series of the water phantom were reliable. The MePGSE sequence, therefore, may be useful in human brain studies.
Artifacts
;
Brain
;
Citrullus
;
Diffusion Tensor Imaging*
;
Diffusion*
;
Echo-Planar Imaging
;
Humans
;
Magnetic Resonance Imaging*
;
Temporal Lobe
;
Water
8.A Unified Gradient Shape on the Slice-Selection Axis for Flow Compensation.
Geon Ho JAHNG ; Stephen PICKUP
Journal of the Korean Society of Magnetic Resonance in Medicine 2006;10(2):70-80
Spin echo gradient moment nulling pulse sequences were designed and implemented on a clinical magnetic resonance imaging system. A new technique was introduced for flow compensation that minimized echo time and effectively suppresses unwanted echoes on the slice selection gradient axis in spin echo sequences. A unified gradient shape was used in all orders of flow compensation up to the third order. A dual-purpose gradient was applied for flow compensation and to reduce unwanted artifacts. The sequences were used to generate images of phantoms and/or human brains. This technique was especially good at reducing eddy currents and artifacts related to imperfection of the refocusing pulse. The developed sequences were found to have shorter echo times and better flow compensation in through-plane flow than those of the previous models that were used by other investigators.
Artifacts
;
Axis, Cervical Vertebra*
;
Brain
;
Compensation and Redress*
;
Humans
;
Magnetic Resonance Imaging
;
Research Personnel
9.Development of a Korean Standard Structural Brain Template in Cognitive Normals and Patients with Mild Cognitive Impairment and Alzheimer's Disease.
Min Ji KIM ; Geon Ho JAHNG ; Hack Young LEE ; Sun Mi KIM ; Chang Woo RYU ; Won Chul SHIN ; Soo Yeol LEE
Journal of the Korean Society of Magnetic Resonance in Medicine 2010;14(2):103-114
PURPOSE: To generate a Korean specific brain template, especially in patients with Alzheimer's disease (AD) by optimizing the voxel-based analysis. MATERIALS AND METHODS: Three-dimensional T1-weighted images were obtained from 123 subjects who were 43 cognitively normal subjects and patients with 44 mild cognitive impairment (MCI) and 36 AD. The template and the corresponding aprior maps were created by using the matched pairs approach with considering differences of age, gender and differential diagnosis (DDX). We measured several characteristics in both our and the MNI templates, including in the ventricle size. Also, the fractions of gray matter and white matter voxels normalized by the total intracranial were evaluated. RESULTS: The high resolution template and the corresponding aprior maps of gray matter, white matter (WM) and CSF were created with the voxel-size of 1 x 1 x 1 mm. Mean distance measures and the ventricle sizes differed between two templates. Our brain template had less gray matter and white matter areas than the MNI template. There were volume differences more in gray matter than in white matter. CONCLUSION: Gray matter and/or white matter integrity studies in populations of Korean elderly and patients with AD are needed to investigate with this template.
Aged
;
Alzheimer Disease
;
Brain
;
Diagnosis, Differential
;
Humans
;
Mild Cognitive Impairment
10.Changes of Motor Deactivation Regions in Patients with Intracranial Lesions.
Seung Hwan LEE ; Jun Seok KOH ; Chang Woo RYU ; Geon Ho JAHNG
Journal of Korean Neurosurgical Society 2013;54(6):453-460
OBJECTIVE: There is a rich literature confirming the default mode network found compatible with task-induced deactivation regions in normal subjects, but few investigations of alterations of the motor deactivation in patients with intracranial lesions. Therefore, we hypothesized that an intracranial lesion results in abnormal changes in a task-induced deactivation region compared with default mode network, and these changes are associated with specific attributes of allocated regions. METHODS: Blood oxygenation level dependent (BOLD) functional magnetic resonance imaging (fMRI) during a motor task were obtained from 27 intracranial lesion patients (mean age, 57.3 years; range 15-78 years) who had various kinds of brain tumors. The BOLD fMRI data for each patient were evaluated to obtain activation or deactivation regions. The distinctive deactivation regions from intracranial lesion patients were evaluated by comparing to the literature reports. RESULTS: There were additive deactivated regions according to intracranial lesions: fusiform gyrus in cavernous hemangioma; lateral occipital gyrus in meningioma; crus cerebri in hemangiopericytoma; globus pallidus, lateral occipital gyrus, caudate nucleus, fusiform gyrus, lingual gyrus, claustrum, substantia nigra, subthalamic nucleus in GBM; fusiform gyrus in metastatic brain tumors. CONCLUSION: There is increasing interest in human brain function using fMRI. The authors report the brain function migrations and changes that occur in patients with intracranial lesions.
Basal Ganglia
;
Brain
;
Brain Neoplasms
;
Caudate Nucleus
;
Globus Pallidus
;
Hemangioma, Cavernous
;
Hemangiopericytoma
;
Humans
;
Magnetic Resonance Imaging
;
Meningioma
;
Oxygen
;
Substantia Nigra
;
Subthalamic Nucleus