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Result : Searchterm 'Cine' found in 5 terms [] and 52 definitions []
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Ferric Ammonium CitrateInfoSheet: - Contrast Agents - 
Intro, Overview, 
Characteristics, 
Types of, 
etc.
 
Ferric ammonium citrate is a complex salt of indefinite composition that contains varying amounts of iron, that is obtained as red crystals or a brownish yellow powder or as green crystals or powder, and that was used formerly in medicine for treating iron-deficiency anaemia.
Solutions (e.g. corn oil emulsion) of ferric ammonium citrate (e.g., FerriSeltz, Geritol) can be used as positive oral contrast agents in MRI. Ferric ammonium citrate is safe and effective in humans, but has minor side effects.

See also Classifications, Characteristics, etc.
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FerumoxtranInfoSheet: - Contrast Agents - 
Intro, Overview, 
Characteristics, 
Types of, 
etc.
 
Short name: Ami 227, generic name: Ferumoxtran, (USPIO)
Ferumoxtran is a substance of the class of ultrasmall superparamagnetic iron oxide used as a lymph node specific contrast agent for MRI.
See also Combidex®, Sinerem® and Ultrasmall Superparamagnetic Iron Oxide.
Partner(s): Cytogen Corporation, National Cancer Institute. An approvable letter was received from the U.S. Food and Drug Administration for Combidex in June 2000. Advanced Magnetics, Inc. has submitted a complete response to the approvable letter received from the U.S. Food and Drug Administration, which was accepted by the FDA and assigned a user fee goal date of March 30, 2005. In Europe, a Dossier (the European equivalent of a NDA) was submitted by Advanced Magnetics' European partner, Guerbet SA, to the European Medicines Evaluations Agency in December 1999. (Sinerem® is the brand name for this USPIO in Europe manufactured by Guerbet, Combidex® by Advanced Magnetics for the U.S. market)
Advanced Magnetics, Inc. changed its name in July 2007 to AMAG Pharmaceuticals Inc.
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Further Reading:
  Basics:
Superparamagnetic Iron Oxide–enhanced MR Imaging of Head and Neck Lymph Nodes1
Comparison of Two Superparamagnetic Viral-Sized Iron Oxide Particles Ferumoxides and Ferumoxtran-10 with a Gadolinium Chelate in Imaging Intracranial Tumors
2002   by www.ajnr.org    
  News & More:
Optimized Labelling of Human Monocytes with Iron Oxide MR Contrast Agents
Sunday, 30 November 2003   by rsna2003.rsna.org    
SPL Medical starts clinical trial with contrast agent ferrotran
Tuesday, 11 February 2020   by www.radboudumc.nl    
SPL Medical receives approval for Clinical Trial with contrast agent Ferrotran® in 10 top radiology centers.
Friday, 15 March 2019   by ferrotran.com    
Ultrasmall Superparamagnetic Particles of Iron Oxide-enhanced in vivo MRI of human atherosclerotic plaques.(.pdf)
MRI Resources 
Stent - Most Wanted - Journals - Quality Advice - Pacemaker - Claustrophobia
 
FlowForum -
related threads
 
Flow phenomena are intrinsic processes in the human body. Organs like the heart, the brain or the kidneys need large amounts of blood and the blood flow varies depending on their degree of activity. Magnetic resonance imaging has a high sensitivity to flow and offers accurate, reproducible, and noninvasive methods for the quantification of flow. MRI flow measurements yield information of blood supply of of various vessels and tissues as well as cerebro spinal fluid movement.
Flow can be measured and visualized with different pulse sequences (e.g. phase contrast sequence, cine sequence, time of flight angiography) or contrast enhanced MRI methods (e.g. perfusion imaging, arterial spin labeling).
The blood volume per time (flow) is measured in: cm3/s or ml/min. The blood flow-velocity decreases gradually dependent on the vessel diameter, from approximately 50 cm per second in arteries with a diameter of around 6 mm like the carotids, to 0.3 cm per second in the small arterioles.

Different flow types in human body:
•
Behaves like stationary tissue, the signal intensity depends on T1, T2 and PD = Stagnant flow
•
Flow with consistent velocities across a vessel = Laminar flow
•
Laminar flow passes through a stricture or stenosis (in the center fast flow, near the walls the flow spirals) = Vortex flow
•
Flow at different velocities that fluctuates = Turbulent flow

See also Flow Effects, Flow Artifact, Flow Quantification, Flow Related Enhancement, Flow Encoding, Flow Void, Cerebro Spinal Fluid Pulsation Artifact, Cardiovascular Imaging and Cardiac MRI.
 
Images, Movies, Sliders:
 MVP Parasternal  Open this link in a new window
    

Courtesy of  Robert R. Edelman
 TOF-MRA Circle of Willis Inverted MIP  Open this link in a new window
    

 Circle of Willis, Time of Flight, MIP  Open this link in a new window
    
SlidersSliders Overview

 
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Further Reading:
  News & More:
The super-fast MRI scan that could revolutionise heart failure diagnosis
Wednesday, 21 September 2022   by www.eurekalert.org    
Searchterm 'Cine' was also found in the following services: 
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G-SCANInfoSheet: - Devices -
Intro, 
Types of Magnets, 
Overview, 
etc.MRI Resource Directory:
 - Devices -
 
www.esaote.de/04_kernspin/gscan/gscan.htm From Esaote S.p.A.; Esaote introduced the new G-SCAN at the RSNA in Dec. 2004. The G-SCAN covers almost all musculoskeletal applications including the spine. The tilting gantry is designed for scanning in weight-bearing positions. This unique MRI scanner is developed in line with the Esaote philosophy of creating high quality MRI systems that are easy to install and that have a low breakeven point.
Device Information and Specification
CLINICAL APPLICATION
CONFIGURATION
Spine, extremity, shoulder, flex coil, knee dual phased array, ankle//foot dual phased array, hand//wrist dual phased array
PULSE SEQUENCES
SE, GE, IR, STIR, TSE, 3D CE, GE-STIR, 3D GE, ME, TME, HSE
IMAGING MODES
Single, multislice, volume study, fast scan, multi slab, cine
FOV
100 up to 350 mm, 25 mm displayed
512 x 512
MEASURING MATRIX
256 x 256 maximum
MAGNET TYPE
Permanent
BORE DIAMETER
or W x H
33 cm H, open
POWER REQUIREMENTS
100/110/200/220/230/240 V
STRENGTH
25 mT/m
5-GAUSS FRINGE FIELD
180 cm
Passive
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Incoherent Gradient Echo (RF Spoiled)InfoSheet: - Sequences - 
Intro, 
Overview, 
Types of, 
etc.
 
A gradient echo is generated by using a pair of bipolar gradient pulses. The gradient field is negatively pulsed, causing the spins of the xy-magnetization to dephase. A second gradient pulse is applied with the opposite polarity. During the pulsing, the spins that dephased begin to rephase and generate a gradient echo.
Spoiling can be accomplished by RF or a gradient. The incoherent RF spoiled type of a gradient echo sequence use a continuous shifting of the RF pulse to spoil the residual transverse magnetization. The phase of the RF excitation and receiver channel are varied pseudo randomly with each excitation cycle to prevent the xy magnetization from achieving steady state. T2* does not dominate image contrast, so T1 and PD weighting is practical. This method is effective and can be used to achieve a shorter TR, due to a lack of additional gradients. Spoiling eliminates the effect of the remaining xy-magnetization and leads to steady state longitudinal magnetization. These sequences can be used for breath hold, dynamic imaging and in cine and volume acquisitions.
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MRI Resources 
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