Name: 비디오: Fluid-Attenuated Inversion Recovery Magnetic Resonance Imaging to Visualize Multiple Sclerosis Lesions - 실험
Uploaded: 2025-05-30T09:08:50.000+00:00
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Description: 20 조회수. Fluid-Attenuated Inversion Recovery Magnetic Resonance Imaging to Visualize Multiple Sclerosis Lesions

fluid-attenuated inversion recovery magnetic resonance imaging to visualize multiple sclerosis lesions

Fluid-Attenuated Inversion Recovery Magnetic Resonance Imaging to Visualize Multiple Sclerosis Lesions

Position the head of a patient with multiple sclerosis inside the radiofrequency or RF coil of an MRI machine.Begin fluid-attenuated inversion recovery or FLAIR imaging. Select a brain slice containing lesions near CSF-rich areas.The system generates a strong magnetic field, aligning protons in healthy and lesioned brain tissue and CSF along its direction, creating net magnetization.Apply an inversion RF pulse to flip the magnetization of all protons, aligning them opposite to the magnetic field.Allow an inversion recovery time, during which CSF protons reach zero magnetization, while tissue protons retain some residual magnetization.&#160;Protons in lesioned areas retain higher magnetization than normal tissue due to increased water content.Apply a second RF pulse to excite the protons with residual magnetization, generating detectable signals.CSF, having zero magnetization, produces no signal and appears dark.Lesioned areas, with higher residual magnetization, emit stronger signals and appear brighter than the surrounding tissue.

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Nanyang Technological University

Research

JoVE Encyclopedia of Experiments

Neuroscience

Neuroimaging

Neurodegeneration & Disease Monitoring

20 조회수. Fluid-Attenuated Inversion Recovery Magnetic Resonance Imaging to Visualize Multiple Sclerosis Lesions

비디오: Fluid-Attenuated Inversion Recovery Magnetic Resonance Imaging to Visualize Multiple Sclerosis Lesions - 실험

Brain Infarct Segmentation and Registration on MRI or CT for Lesion-symptom Mapping

In lesion-symptom mapping (LSM), brain function is inferred by relating the location of acquired brain lesions to behavioral or cognitive symptoms in a group of patients. With recent advances in brain imaging and image processing, LSM has become a popular tool in cognitive neuroscience. LSM can provide fundamental insights into the functional architecture of the human brain for a variety of cognitive and non-cognitive functions. A crucial step in performing LSM studies is the segmentation of lesions on brains scans of a large group of patients and registration of each scan to a common stereotaxic space (also called standard space or a standardized brain template). Described here is an open-access, standardized method for infarct segmentation and registration for the purpose of LSM, as well as a detailed and hands-on walkthrough based on exemplary cases. A comprehensive tutorial for the manual segmentation of brain infarcts on CT scans and DWI or FLAIR MRI sequences is provided, including criteria for infarct identification and pitfalls for different scan types. The registration software provides multiple registration schemes that can be used for processing of CT and MRI data with heterogeneous acquisition parameters. A tutorial on using this registration software and performing visual quality checks and manual corrections (which are needed in some cases) is provided. This approach provides researchers with a framework for the entire process of brain image processing required to perform an LSM study, from gathering of the data to final quality checks of the results.

Provided here is a practical tutorial for an open-access, standardized image processing pipeline for the purpose of lesion-symptom mapping. A step-by-step walkthrough is provided for each processing step, from manual infarct segmentation on CT/MRI to subsequent registration to standard space, along with practical recommendations and illustrations with exemplary cases.

병변 증상 매핑을 위한 MRI 또는 CT에 대한 뇌 경색 세분화 및 등록

In lesion-symptom mapping (LSM), brain function is inferred by relating the location of acquired brain lesions to behavioral or cognitive symptoms in a ...

연구

JoVE Journal

행동분석학

Whole-brain Segmentation and Change-point Analysis of Anatomical Brain MRI&#8212;Application in Premanifest Huntington's Disease

Recent advances in MRI offer a variety of useful markers to identify neurodegenerative diseases. In Huntington&#39;s disease (HD), regional brain atrophy begins many years prior to the motor onset (during the &#34;premanifest&#34; period), but the spatiotemporal pattern of regional atrophy across the brain has not been fully characterized. Here we demonstrate an online cloud-computing platform, &#34;MRICloud&#34;, which provides atlas-based whole-brain segmentation of T1-weighted images at multiple granularity levels, and thereby, enables us to access the regional features of brain anatomy. We then describe a regression model that detects statistically significant inflection points, at which regional brain atrophy starts to be noticeable, i.e. the &#34;change-point&#34;, with respect to a disease progression index. We used the CAG-age product (CAP) score to index the disease progression in HD patients. Change-point analysis of the volumetric measurements from the segmentation pipeline, therefore, provides important information of the order and pattern of structural atrophy across the brain. The paper illustrates the use of these techniques on T1-weighted MRI data of premanifest HD subjects from a large multicenter PREDICT-HD study. This design potentially has wide applications in a range of neurodegenerative diseases to investigate the dynamic changes of brain anatomy.

This paper describes a statistical model for volumetric MRI data analysis, which identifies the &#34;change-point&#34; when brain atrophy begins in premanifest Huntington&#39;s disease. Whole-brain mapping of the change-points is achieved based on brain volumes obtained using an atlas-based segmentation pipeline of T1-weighted images.

전체 두뇌 세분화 및 해 부 뇌 MRI의 변화 포인트 분석-Premanifest Huntington의 질병에 응용

Recent advances in MRI offer a variety of useful markers to identify neurodegenerative diseases. In Huntington&#39;s disease (HD), regional brain atrophy ...

의학

Magnetic Resonance Imaging of Multiple Sclerosis at 7.0 Tesla

The overall goal of this article is to demonstrate a state-of-the-art ultrahigh field (UHF) magnetic resonance (MR) protocol of the brain at 7.0 Tesla in multiple sclerosis (MS) patients. MS is a chronic inflammatory, demyelinating, neurodegenerative disease that is characterized by white and gray matter lesions. Detection of spatially and temporally disseminated T2-hyperintense lesions by the use of MRI at 1.5 T and 3 T represents a crucial diagnostic tool in clinical practice to establish accurate diagnosis of MS based on the current version of the 2017 McDonald criteria. However, the differentiation of MS lesions from brain white matter lesions of other origins can sometimes be challenging due to their resembling morphology at lower magnetic field strengths (typically 3 T). Ultrahigh field MR (UHF-MR) benefits from increased signal-to-noise ratio and enhanced spatial resolution, both key to superior imaging for more accurate and definitive diagnoses of subtle lesions. Hence, MRI at 7.0 T has shown encouraging results to overcome the challenges of MS differential diagnosis by providing MS-specific neuroimaging markers (e.g., central vein sign, hypointense rim structures and differentiation of MS grey matter lesions). These markers and others can be identified by other MR contrasts other than T1 and T2 (T2*, phase, diffusion) and substantially improve the differentiation of MS lesions from those occurring in other neuroinflammatory conditions such as neuromyelitis optica and Susac syndrome. In this article, we describe our current technical approach to study cerebral white and grey matter lesions in MS patients at 7.0 T using different MR acquisition methods. The up-to-date protocol includes the preparation of the MR setup including the radio-frequency coils customized for UHF-MR, standardized screening, safety and interview procedures with MS patients, patient positioning in the MR scanner and acquisition of dedicated brain scans tailored for examining MS.

Here, we present a protocol to acquire magnetic resonance (MR) images of multiple sclerosis (MS) patient brains at 7.0 Tesla. The protocol includes preparation of the setup including the radio-frequency coils, standardized interview procedures with MS patients, subject positioning in the MR scanner and MR data acquisition.

7.0 테슬라에서 다발성 경화증의 자기 공명 화상 진찰

The overall goal of this article is to demonstrate a state-of-the-art ultrahigh field (UHF) magnetic resonance (MR) protocol of the brain at 7.0 Tesla in ...

Fluid-Attenuated Inversion Recovery Magnetic Resonance Imaging to Visualize Multiple Sclerosis Lesions

내레이션 대본

병변 증상 매핑을 위한 MRI 또는 CT에 대한 뇌 경색 세분화 및 등록

전체 두뇌 세분화 및 해 부 뇌 MRI의 변화 포인트 분석-Premanifest Huntington의 질병에 응용

7.0 테슬라에서 다발성 경화증의 자기 공명 화상 진찰