Real-Time Magnetic Resonance Imaging (MRI) during Active Wrist Motion—Initial Observations

Boutin, Robert D.; Buonocore, Michael H.; Immerman, Igor; Ashwell, Zachary R.; Sonico, Gerald J.; Szabo, Robert M.; Chaudhari, Abhijit J.

doi:10.1371/journal.pone.0084004

Cited by 45 publications

(68 citation statements)

References 37 publications

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“…This type of analysis will require the definition of a robust and elegant coordinate system such as that developed by Coburn et al (Coburn et al 2007) and the ability to perform dynamic imaging of the hand during active motion (Crisco et al 1999, Shores et al 2013, Boutin et al 2013). …”

Section: Discussionmentioning

confidence: 99%

Global point signature for shape analysis of carpal bones

Chaudhari¹,

Leahy²,

Lane³

et al. 2014

Phys. Med. Biol.

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We present a method based on spectral theory for the shape analysis of carpal bones of the human wrist. We represent the cortical surface of the carpal bone in a coordinate system based on the eigensystem of the two-dimensional Helmholtz equation. We employ a metric—global point signature (GPS)—that exploits the scale and isometric invariance of eigenfunctions to quantify overall bone shape. We use a fast finite-element-method to compute the GPS metric. We capitalize upon the properties of GPS representation—such as stability, a standard Euclidean (ℓ2) metric definition, and invariance to scaling, translation and rotation—to perform shape analysis of the carpal bones of ten women and ten men from a publicly-available database. We demonstrate the utility of the proposed GPS representation to provide a means for comparing shapes of the carpal bones across populations.

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Section: Discussionmentioning

confidence: 99%

Global point signature for shape analysis of carpal bones

Chaudhari¹,

Leahy²,

Lane³

et al. 2014

Phys. Med. Biol.

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“…91 This kinematic or active MR imaging pulse sequence could potentially be used to investigate dynamic carpal instability by supplementing an otherwise high-spatial-resolution examination with hightemporal-resolution images, although this has yet to be proved. 92 Normal MR Imaging Appearance…”

Section: Mr Imaging Protocolmentioning

confidence: 99%

MR Imaging of Wrist Ligaments

Ringler¹,

Murthy²

2015

Magnetic Resonance Imaging Clinics of North America

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“…MR imaging of motion in the wrist can be done with rapid acquisition times in a single plane using real-time MRI 61 . Alternatively, repetitive motion cycles can be used to acquire three-dimensional data about the motion of the carpal bones 62 .…”

Section: Imaging Of Wrist Motionmentioning

confidence: 99%

Approach to MR Imaging of the Elbow and Wrist

Johnson

Stevens

Riley

et al. 2015

Magnetic Resonance Imaging Clinics of North America

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The technology of wrist and elbow MRI imaging is advancing at a dramatic rate. MRI of the wrist and elbow is now commonly performed at medium and higher field strengths with more specialized surface coils and with more variable pulse sequences and post processing techniques than ever before. High field imaging and improved coils lead to an increased signal to noise ratio and increased variety of soft tissue contrast options. Three-dimensional imaging is also improving in terms of usability and artifacts. Some of these advances have challenges in wrist and elbow imaging such as postoperative patient imaging, cartilage mapping, and molecular imaging. In this review, we consider technical advances in hardware and software of wrist and elbow MR imaging along with their clinical applications.

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Real-Time Magnetic Resonance Imaging (MRI) during Active Wrist Motion—Initial Observations

Cited by 45 publications

References 37 publications

Global point signature for shape analysis of carpal bones

Global point signature for shape analysis of carpal bones

MR Imaging of Wrist Ligaments

Approach to MR Imaging of the Elbow and Wrist

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