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Result : Searchterm 'Ultra' found in 4 terms [] and 80 definitions []
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Magnetization Transfer Contrast
 
(MTC) This MRI method increases the contrast by removing a portion of the total signal in tissue. An off resonance radio frequency (RF) pulse saturates macromolecular protons to make them invisible (caused by their ultra-short T2* relaxation times). The MRI signal from semi-solid tissue like brain parenchyma is reduced, and the signal from a more fluid component like blood is retained.
E.g., saturation of broad spectral lines may produce decreases in intensity of lines not directly saturated, through exchange of magnetization between the corresponding states; more closely coupled states will show a greater resulting intensity change. Magnetization transfer techniques make demyelinated brain or spine lesions (as seen e.g. in multiple sclerosis) better visible on T2 weighted images as well as on gadolinium contrast enhanced T1 weighted images.
Off resonance makes use of a selection gradient during an off resonance MTC pulse. The gradient has a negative offset frequency on the arterial side of the imaging volume (caudally more off resonant and cranially less off resonant). The net effect of this type of pulse is that the arterial blood outside the imaging volume will retain more of its longitudinal magnetization, with more vascular signal when it enters the imaging volume. Off resonance MTC saturates the venous blood, leaving the arterial blood untouched.
On resonance has no effect on the free water pool but will saturate the bound water pool and is the difference in T2 between the pools. Special binomial pulses are transmitted causing the magnetization of the free protons to remain unchanged. The z-magnetization returns to its original value. The spins of the bound pool with a short T2 experience decay, resulting in a destroyed magnetization after the on resonance pulse.

See also Magnetization Transfer.
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Further Reading:
  News & More:
MRI of the Human Eye Using Magnetization Transfer Contrast Enhancement
   by www.iovs.org    
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Mallinckrodt, Inc.MRI Resource Directory:
 - Manufacturers -
 
www.mallinckrodt.com Mallinckrodt, a Tyco Healthcare company makes and distributes products for respiratory care; bulk and dosage pharmaceuticals, primarily for pain relief and addiction therapy; and imaging agents for magnetic resonance, ultrasound, X-ray, and nuclear medicine applications. With worldwide manufacturing and distribution facilities, as well as worldwide sales offices, Mallinckrodt sells its products worldwide.
GastroMARK® is marketed in the United States by Mallinckrodt, Inc.

In June 2007 Tyco International Ltd. completed the separation of its healthcare business, which is named Covidien. Mallinckrodt, Inc. is now part of Covidien Ltd.

MRI Contrast Agents:
Contact Information
MAIL
Mallinckrodt, Inc.
675 McDonnell Blvd.
Hazelwood, MO 63042
USA
PHONE
US: (888)744-1414
International: +1-314-654-3177
FAX
+1-314-654-5380
E-MAIL
Imaging Products Customer Service:
US: Imaging Customer Service
International: icsstl@mkg.com
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Further Reading:
  Basics:
Guerbet Completes Acquisition of Mallinckrodt’s Contrast Media and Delivery Systems Business
Sunday, 29 November 2015   by www.itnonline.com    
  News & More:
Covidien Completes Spin Off, Mallinckrodt Starts Trading On NYSE
Monday, 1 July 2013   by www.rttnews.com    
MRI Resources 
Supplies - Calculation - Jobs - Safety Training - MRI Reimbursement - MRA
 
Molecular Imaging
 
Molecular Imaging is a new diagnostic discipline to visualize biological processes.
Molecular magnetic resonance imaging (mMRI) offers the potential to image tissues at the cellular and subcellular level. Targeted MR contrast agents enhance the diagnostic specificity and range of molecular magnetic resonance imaging.
Other modalities that can be used for noninvasive molecular imaging:
Ultrasound;
optical imaging;
positron emission tomography (PET);
single photon emission computed tomography (SPECT).


See also Nanoparticle, Monocrystalline Iron Oxide Nanoparticle, Polycrystalline Iron Oxide Nanoparticles, Liposomes, Monoclonal Antibodies, Bimodal Imaging, Tumor Specific Agents, and Intracellular Contrast Agents.
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• View the DATABASE results for 'Molecular Imaging' (10).Open this link in a new window


• View the NEWS results for 'Molecular Imaging' (28).Open this link in a new window.
 
Further Reading:
  Basics:
Multimodal Nanoparticles for Quantitative Imaging(.pdf)
Tuesday, 13 December 2011   by alexandria.tue.nl    
Molecular Magnetic Resonance Imaging(.pdf)
2005   by www.medical.siemens.com    
  News & More:
Smarter MRI diagnosis with nano MRI lamp
Monday, 6 February 2017   by www.eurekalert.org    
Molecular MRI technique gives early indication of cancer treatment effectiveness
Monday, 11 April 2016   by www.healthimaging.com    
Molecular imaging and radiochemistry: the importance of instrumentation. An interview with Professor Bjorn Wangler
Thursday, 4 February 2016   by www.news-medical.net    
Positron Emission Tomographic Imaging in Stroke
Monday, 28 December 2015   by www.ncbi.nlm.nih.gov    
Potential and Limitations of Oxygen-17 MR Perfusion Measurements
Monday, 1 March 2004   by www.case.edu    
Searchterm 'Ultra' was also found in the following services: 
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Multiple Echo Single ShotInfoSheet: - Sequences - 
Intro, 
Overview, 
Types of, 
etc.
 
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Myocardial Late Enhancement
 
(LE) Myocardial late enhancement in contrast enhanced cardiac MRI has the ability to precisely delineate myocardial scar associated with coronary artery disease. Viability imaging implies evaluating infarcted myocardium to see whether there is enough viable tissue available for revascularization. The reversal of myocardial dysfunction is particularly relevant in patients with depressed ventricular function because revascularization improves long-term survival. In comparison to SPECT and PET imaging, myocardial late enhancement MRI demonstrates areas of delayed enhancement exactly in correlation with the infarcted region.
Viability on cardiac MRI (CMR) is based on the fact that all infarcts enhance vividly 10-15 minutes after the administration of intravenous paramagnetic contrast agents. This enhancement represents the accumulation of gadolinium in the extracellular space, due to the loss of membrane integrity in the infarcted tissue. This phenomenon of delayed hyperenhancement has been proven to correlate with the actual extent of the infarct.
MRI myocardial late enhancement can quantify the size, location and transmural extent of the infarct. If the transmural extent of the infarct (region of enhancement on MRI) is less than 50% of the wall thickness, there will be improved contractility in that segment following revascularization. In areas of hypokinesia, if there is a rim of "black" or non-infarcted myocardium that is not contracting well, it indicates the presence of hibernating myocardium, which is likely to improve after revascularization of the artery supplying that particular territory.
The total duration of a myocardial late enhancement MR imaging protocol for viability is approximately 30 minutes, including scout images, first-pass images, cine images in two planes, and delayed myocardial enhancement images. In order to assess viable myocardium, the gadolinium contrast agent is injected at a dose of 0.15 to 0.2 mmol/kg. After about 10 minutes, short axis and long axis views (see cardiac axes) of the heart are obtained using an inversion prepared ECG gated gradient echo sequence. The inversion pulse is adjusted to suppress normal myocardium. Areas of nonviable myocardium retain extremely high signal intensity, black areas show normal tissue.

For Ultrasound Imaging (USI) see Myocardial Contrast Echocardiography at Medical-Ultrasound-Imaging.com.
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• View the DATABASE results for 'Myocardial Late Enhancement' (6).Open this link in a new window

 
Further Reading:
  Basics:
A Guide To Cardiac Imaging
   by www.simplyphysics.com    
  News & More:
Prediction of Myocardial Viability by MRI
1999   by circ.ahajournals.org    
Geron Demonstrates hESC-derived cardiomyocytes improve heart function after myocardial infarction
Monday, 27 August 2007   by www.brightsurf.com    
MRI Resources 
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