Parag Karmarkar scite author profile

In type I diabetes mellitus, islet transplantation provides a moment-to-moment fine regulation of insulin. Success rates vary widely, however, necessitating suitable methods to monitor islet delivery, engraftment and survival. Here magnetic resonance-trackable magnetocapsules have been used simultaneously to immunoprotect pancreatic beta-cells and to monitor, non-invasively in real-time, hepatic delivery and engraftment by magnetic resonance imaging (MRI). Magnetocapsules were detected as single capsules with an altered magnetic resonance appearance on capsule rupture. Magnetocapsules were functional in vivo because mouse beta-cells restored normal glycemia in streptozotocin-induced diabetic mice and human islets induced sustained C-peptide levels in swine. In this large-animal model, magnetocapsules could be precisely targeted for infusion by using magnetic resonance fluoroscopy, whereas MRI facilitated monitoring of liver engraftment over time. These findings are directly applicable to ongoing improvements in islet cell transplantation for human diabetes, particularly because our magnetocapsules comprise clinically applicable materials.

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Designing passive MRI‐safe implantable conducting leads with electrodes

Bottomley

Kumar²,

Edelstein

et al. 2010

Medical Physics

105

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Minimizing RF heating of conducting wires in MRI

Yeung

Karmarkar

McVeigh

2007

Magnetic Resonance in Med

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Interventional cardiovascular procedures guided by real‐time MR imaging: An interactive interface using multiple slices, adaptive projection modes and live 3D renderings

Guttman

Ozturk

Raval

et al. 2007

Magnetic Resonance Imaging

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Purpose:To develop and test a novel interactive real-time MRI environment that facilitates image-guided cardiovascular interventions. Materials and Methods:Color highlighting of devicemounted receiver coils, accelerated imaging of multiple slices, adaptive projection modes, live three-dimensional (3D) renderings and other interactive features were utilized to enhance navigation of devices and targeting of tissue.Results: Images are shown from several catheter-based interventional procedures performed in swine that benefit from this custom interventional MRI interface. These include endograft repair of aortic aneurysm, balloon septostomy of the cardiac interatrial septum, angioplasty and stenting, and endomyocardial cell injection, all using active catheters containing MRI receiver coils. Conclusion:Interactive features not available on standard clinical scanners enhance real-time MRI for guiding cardiovascular interventional procedures.

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Parag Karmarkar

Magnetic resonance–guided, real-time targeted delivery and imaging of magnetocapsules immunoprotecting pancreatic islet cells

Designing passive MRI‐safe implantable conducting leads with electrodes

Minimizing RF heating of conducting wires in MRI

Interventional cardiovascular procedures guided by real‐time MR imaging: An interactive interface using multiple slices, adaptive projection modes and live 3D renderings

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