John Cannillo scite author profile

Times of peak gadolinium concentration ([Gd]) after intravenous (IV) and left ventricular (LV) bolus injection of gadopentetate dimeglumine were determined in renal cortex and medulla in normal rabbits and in rabbits after saline load (overhydration) or hemorrhage (dehydration). Magnetic resonance images were obtained with echo-planar inversion-recovery sequences, and signal intensity-versus-time curves in cortical and medullary regions of interest were converted to [Gd]-versus-time curves. Cortical perfusion measured with microspheres demonstrated that the three physiologic states were significantly different. There were three separate [Gd] peaks in both the cortex and medulla as the bolus moved from one anatomic compartment to the next. The first cortical peak occurred sooner after LV than after IV bolus injection (P < .05) and later in dehydrated than in normal and overhydrated rabbits (P < .05). The first medullary peak always followed the first cortical peak by about 6-10 seconds and mirrored the cortical patterns. The second and third cortical peaks were consistent with proximal and distal tubular transit. These peaks similarly showed faster response to LV than IV injection and were delayed by hemorrhage. The authors conclude that quantitative physiologic information can be obtained with dynamic contrast-enhanced MR imaging of the kidney.

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First-Pass Renal Perfusion Imaging Using MS-325, an Albumin-Targeted MRI Contrast Agent

Prasad¹,

Cannillo²,

Chavez³

et al. 1999

Investigative Radiology

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Redistribution of Renal Blood Flow after SWL Evaluated by Gd-DTPA-Enhanced Magnetic Resonance Imaging

Mostafavi¹,

Chavez²,

Cannillo³

et al. 1998

Journal of Endourology

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Extracorporeal shockwave lithotripsy (SWL) is currently accepted as an effective noninvasive treatment for a wide variety of urinary tract calculi. However, the bioeffects of high-energy shockwaves on renal parenchyma have yet to be fully elucidated. The objective of this study was to measure the acute changes in regional renal hemodynamics associated with SWL utilizing dynamic gadolinium-DTPA-enhanced magnetic resonance imaging (MRI). Seven patients who underwent SWL for renal calculi had an MRI study within 4 hours after the treatment. To assess renal hemodynamics, a bolus of Gd DTPA (0.03 mmol/kg) was administered, and dynamic contrast enhanced images was obtained. Regions of interest (ROI) were defined over the cortex and medulla to obtain signal intensity-v-time curves. The contralateral kidney in each patient was used as the control. The initial slope of the contrast-enhanced signal intensity-v-time curve was used as a measure of the perfusion index (PI). In six patients, perfusion imaging showed a consistent trend of decreased cortical flow (29+/-8%) and a concomitant increase in medullary flow (34+/-14%) in the region of the kidney that was targeted with SWL in six patients (86%). This study shows that renal hemodynamics are modified by SWL. We hypothesize that this change represents a shunting of flow from cortex to medulla in an attempt to prevent ischemia of the medulla.

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Time-Lapse Quantitative Computed Tomography Lymphography

Wolf

Gazelle

et al. 1994

Academic Radiology

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John Cannillo

Controlled delivery of Gd-containing liposomes to lymph nodes: surface modification may enhance MRI contrast properties

Measurement of renal transit of gadopentetate dimeglumine with echo‐planar MR imaging

First-Pass Renal Perfusion Imaging Using MS-325, an Albumin-Targeted MRI Contrast Agent

Redistribution of Renal Blood Flow after SWL Evaluated by Gd-DTPA-Enhanced Magnetic Resonance Imaging

Time-Lapse Quantitative Computed Tomography Lymphography

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