The clinical utility of magnetic resonance imaging according to field strength, specifically addressing the breadth of current state-of-the-art systems, which include 0.55 …
VM Runge, JT Heverhagen - Investigative radiology, 2022 - journals.lww.com
This review provides a balanced perspective regarding the clinical utility of magnetic
resonance systems across the range of field strengths for which current state-of-the-art units …
resonance systems across the range of field strengths for which current state-of-the-art units …
Advocating the development of next-generation, advanced-design low-field magnetic resonance systems
VM Runge, JT Heverhagen - Investigative radiology, 2020 - journals.lww.com
New next-generation low-field magnetic resonance imaging systems (operating in the range
of 0.5 T) hold great potential for increasing access to clinical diagnosis and needed health …
of 0.5 T) hold great potential for increasing access to clinical diagnosis and needed health …
1.5 vs 3 Tesla magnetic resonance imaging: a review of favorite clinical applications for both field strengths—part 1
F Schick, CC Pieper, P Kupczyk… - Investigative …, 2021 - journals.lww.com
Whole-body magnetic resonance imaging (MRI) systems with a field strength of 3 T have
been offered by all leading manufacturers for approximately 2 decades and are increasingly …
been offered by all leading manufacturers for approximately 2 decades and are increasingly …
Accessible magnetic resonance imaging: A review
S Geethanath, JT Vaughan Jr - Journal of Magnetic Resonance …, 2019 - Wiley Online Library
The role of MRI in diagnostics, prognostics, and discoveries in basic sciences has been well
established. However, access to this life‐saving technology is largely restricted to countries …
established. However, access to this life‐saving technology is largely restricted to countries …
[图书][B] clinical low field strength magnetic resonance imaging: a practical guide to accessible MRI
HM Klein - 2015 - books.google.com
This book covers all aspects of low field MRI, describing its advantages, problems and
prerequisites. Individual chapters are devoted to site planning, safety considerations, coils …
prerequisites. Individual chapters are devoted to site planning, safety considerations, coils …
Low‐field MRI: clinical promise and challenges
Modern MRI scanners have trended toward higher field strengths to maximize signal and
resolution while minimizing scan time. However, high‐field devices remain expensive to …
resolution while minimizing scan time. However, high‐field devices remain expensive to …
Approach to abdominal imaging at 1.5 Tesla and optimization at 3 Tesla
DR Martin, HT Friel, R Danrad… - Magnetic …, 2005 - mri.theclinics.com
The magnetic field strength of choice that is used currently for body MR imaging has been
based on the 1.5 T systems. At the current state of development, this field strength has …
based on the 1.5 T systems. At the current state of development, this field strength has …
MR equipment acquisition strategies: low-field or high-field scanners
L Marti-Bonmati, M Kormano - European Radiology, 1997 - Springer
Magnetic resonance (MR) field strength is one of the key aspects to consider when
purchasing MR equipment. Other aspects include the gradient system, coil design, computer …
purchasing MR equipment. Other aspects include the gradient system, coil design, computer …
Practical consideration for 3T imaging
In the past 10 to 15 years, 1.5 T has been one of the most commonly used field strengths for
dayto-day clinical operations. However, recent advances in high field technology and the …
dayto-day clinical operations. However, recent advances in high field technology and the …
Low-field magnetic resonance imaging: a new generation of breakthrough technology in clinical imaging
Magnetic resonance imaging (MRI) plays a pivotal role in diagnostic imaging. In today's
clinical environment, scanners with field strengths of 1.5 to 3 T are most commonly used …
clinical environment, scanners with field strengths of 1.5 to 3 T are most commonly used …