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Result : Searchterm 'brain' found in 3 terms [] and 54 definitions []
| 1 - 5 (of 57) nextResult Pages : [1] [2 3 4 5 6 7 8 9 10 11 12] | | | | Searchterm 'brain' was also found in the following services: | | | | |
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Brain imaging, magnetic resonance imaging of the head or skull, cranial magnetic resonance tomography (MRT), neurological MRI - they describe all the same radiological imaging technique for medical diagnostic.
Magnetic resonance imaging of the human brain includes the anatomic description and the detection of lesions. Special techniques like diffusion weighted imaging, functional magnetic resonance imaging ( fMRI) and spectroscopy provide also information about the function and chemical metabolites of the brain.
MRI provides detailed pictures of brain and nerve tissues in multiple planes without obstruction by overlying bones. Brain MRI is the procedure of choice for most brain disorders. It provides clear images of the brainstem and posterior brain, which are difficult to view on a CT scan. It is also useful for the diagnosis of demyelinating disorders (disorders such as multiple sclerosis (MS) that cause destruction of the myelin sheath of the nerve).
With this noninvasive procedure also the evaluation of blood flow and the flow of cerebrospinal fluid (CSF) is possible. Different MRA methods, also without contrast agents can show a venous or arterial angiogram. MRI can distinguish tumors, inflammatory lesions, and other pathologies from the normal brain anatomy. However, MRI scans are also used instead other methods to avoid the dangers of interventional procedures like angiography (DSA - digital subtraction angiography) as well as of repeated exposure to radiation as required for computed tomography (CT) and other X-ray examinations.
A ( birdcage) bird cage coil achieves uniform excitation and reception and is commonly used to study the brain. Usually a brain MRI procedure includes FLAIR, T2 weighted and T1 weighted sequences in two or three planes. See also Fetal MRI, Fluid Attenuation Inversion Recovery ( FLAIR), Perfusion Imaging and High Field MRI. See also Arterial Spin Labeling. | | | | | | | | | • Share the entry 'Brain MRI': | | | | | | | | Further Reading: | | Basics:
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MRI Reveals Significant Brain Abnormalities Post-COVID Monday, 21 November 2022 by neurosciencenews.com | | |
Combining genetics and brain MRI can aid in predicting chances of Alzheimer's disease Wednesday, 29 June 2022 by www.sciencedaily.com | | |
Roundup: How Even Mild COVID Can Affect the Brain; This Many Daily Steps Improves Longevity; and More Friday, 11 March 2022 by baptisthealth.net | | |
A low-cost and shielding-free ultra-low-field brain MRI scanner Tuesday, 14 December 2021 by www.nature.com | | |
Large International Study Reveals Spectrum of COVID-19 Brain Complications Tuesday, 9 November 2021 by www.itnonline.com | | |
Brain MRI-Based Subtypes of MS Predict Disability Progression, Treatment Response Thursday, 13 May 2021 by www.neurologyadvisor.com | | |
New MRI method improves detection of disease changes in the brain's network Thursday, 11 June 2020 by www.compute.dtu.dk | | |
New NeuroCOVID Classification System Uses MRI to Categorize Patients Friday, 12 June 2020 by www.diagnosticimaging.com | | |
New MRI technique can 'see' molecular changes in the brain Thursday, 5 September 2019 by medicalxpress.com | | |
Talking therapy or medication for depression: Brain scan may help suggest better treatment Monday, 27 March 2017 by www.newsnation.in | | |
MRI identifies brain abnormalities in chronic fatigue syndrome patients Wednesday, 29 October 2014 by www.eurekalert.org | | |
MRIs Useful in Tracking Depression in MS Patients Tuesday, 1 July 2014 by www.hcplive.com | | |
Contrast agent linked with brain abnormalities on MRI Tuesday, 17 December 2013 by www.sciencecodex.com | | |
MRIs Reveal Signs of Brain Injuries Not Seen in CT Scans Tuesday, 18 December 2012 by www.sciencedaily.com | | |
Iron Deposits in the Brain May Be Early Indicator of MS Wednesday, 13 November 2013 by www.healthline.com | | |
Migraine Sufferers Have Thicker Brain Cortex Tuesday, 20 November 2007 by www.medicalnewstoday.com |
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The brain tissue is provided with a tight endothelial layer on vessels that acts as a filter for substances that reach the brain through the blood stream. This filter is called the blood brain barrier.
The blood brain barrier is responsible for the absence of contrast agent enhancement in normal brain tissue after administration of the iodinated or paramagnetic contrast media used in brain MRI and computed tomography (CT) diagnostic. The absence of contrast uptake in normal tissue provides the basis for differentiation from pathological brain tissue, which is conversely characterized by a disruption of the blood brain barrier.
See also Contrast Enhanced MRI, MRI Safety, Adverse Reaction. | | | | | | • View the DATABASE results for 'Blood Brain Barrier' (7).
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The use of MR spectroscopy for acquiring functional activation of the brain. There are two possible approaches:
In the first, localized spectra of brain water are acquired and subtle changes in these spectra reflect the biophysical water environment. Changes in T2 due to deoxyhaemoglobin concentration may be detected in this way.
The disadvantages of poor spatial resolution are to some extent offset by the high signal to noise ratio SNR of the spectroscopic data.
An alternative approach is to use MR spectroscopy directly to detect metabolites that are altered by brain activation. These include lactate and glucose. Such experiments have inherently poor spatial and temporal resolution, but do give a direct indication of the metabolic response of the brain to functional activation. | | | | | |
| | | Searchterm 'brain' was also found in the following services: | | | | |
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(fMRI) Functional magnetic resonance imaging is a technique used to determine the dynamic brain function, often based on echo planar imaging, but can also be performed by using contrast agents and observing their first pass effects through brain tissue. Functional magnetic resonance imaging allows insights in a dysfunctional brain as well as into the basic workings of the brain.
The in functional brain MRI most frequently used effect to assess brain function is the blood oxygenation level dependent contrast ( BOLD) effect, in which differential changes in brain perfusion and their resultant effect on the regional distribution of oxy- to deoxyhaemoglobin are observable because of the different 'intrinsic contrast media' effects of the two haemoglobin forms. Increased brain activity causes an increased demand for oxygen, and the vascular system actually overcompensates for this, increasing the amount of oxygenated haemoglobin. Because deoxygenated haemoglobin attenuates the MR signal, the vascular response leads to a signal increase that is related to the neural activity.
Functional imaging relates body function or thought to specific locations where the neural activity is taking place. The brain is scanned at low resolution but at a fast rate (typically once every 2-3 seconds). Structural MRI together with fMRI provides an anatomical baseline and best spatial resolution.
Interactions can also be seen from the motor cortex to the cerebellum or basal ganglia in the case of a movement disorder such as ataxia. For example: by a finger movement the briefly increase in the blood circulation of the appropriate part of the brain controlling that movement, can be measured. | | | | • View the DATABASE results for 'Functional Magnetic Resonance Imaging' (8).
| | | • View the NEWS results for 'Functional Magnetic Resonance Imaging' (15).
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Special imaging primarily means advanced MRI techniques used for qualitative and quantitative measurement of biological metabolism as e.g., spectroscopy, perfusion imaging (PWI, ASL), diffusion weighted imaging ( DWI, DTI, DTT) and brain function ( BOLD, fMRI). This physiological magnetic resonance techniques offer insights into brain structure, function, and metabolism.
Spectroscopy provides functional information related to identification and quantification of e.g. brain metabolites.
MR perfusion imaging has applications in stroke, trauma, and brain neoplasm. MRI provides the high spatial and temporal resolution needed to measure blood flow to the brain. arterial spin labeling techniques utilize the intrinsic protons of blood and brain tissue, labeled by special preparation pulses, rather than exogenous tracers injected into the blood.
MR diffusion tensor imaging characterizes the ability of water to spread across the brain in different directions. Diffusion parallel to nerve fibers has been shown to be greater than diffusion in the perpendicular direction. This provides a tool to study in vivo fiber connectivity in brain MRI.
FMRI allows the detection of a functional activation in the brain because cortical activity is intimately related to local metabolism changes. See also Diffusion Tensor Tractography. | | | | • View the NEWS results for 'Special Imaging' (14).
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