Real-Time Catheter Molecular Sensing of Inflammation in Proteolytically Active Atherosclerosis

Real-Time Catheter Molecular Sensing of Inflammation in Proteolytically Active Atherosclerosis

To enable intravascular detection of inflammation in atherosclerosis, we developed a near-infrared fluorescence (NIRF) catheter-based strategy to sense cysteine protease activity during vascular catheterization. The NIRF catheter design was based on a clinical coronary artery guidewire. In phantom s...

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Bibliographic Details
Published in:Circulation (New York, N.Y.) Vol. 118; no. 18; pp. 1802 - 1809
Main Authors: JAFFER, Farouc A, VINEGONI, Claudio, JOHN, Michael C, AIKAWA, Elena, GOLD, Herman K, FINN, Aloke V, NTZIACHRISTOS, Vasilis, LIBBY, Peter, WEISSLEDER, Ralph
Format: Journal Article
Language:English
Published: Hagerstown, MD Lippincott Williams & Wilkins 28-10-2008
Subjects:
Angioplasty, Balloon - adverse effects
Animals
Atherosclerosis - diagnosis
Atherosclerosis - immunology
Atherosclerosis - metabolism
Biological and medical sciences
Blood and lymphatic vessels
Blood. Blood coagulation. Reticuloendothelial system
Cardiology. Vascular system
Cathepsin B - metabolism
Catheterization
Disease Models, Animal
Diseases of the peripheral vessels. Diseases of the vena cava. Miscellaneous
Hypercholesterolemia - diagnosis
Hypercholesterolemia - immunology
Hypercholesterolemia - metabolism
Iliac Artery - enzymology
Iliac Artery - immunology
Light
Macrophages - immunology
Medical sciences
Microscopy, Fluorescence
Models, Anatomic
Phantoms, Imaging
Pharmacology. Drug treatments
Rabbits
Regional Blood Flow
Spectroscopy, Near-Infrared - instrumentation
Spectroscopy, Near-Infrared - methods
Vasculitis - diagnosis
Vasculitis - immunology
Vasculitis - metabolism
Vascular disease
fluorescence
cathepsins
Atherosclerosis
Catheter
Cardiovascular disease
Inflammation
catheters
imaging
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Description
Summary:To enable intravascular detection of inflammation in atherosclerosis, we developed a near-infrared fluorescence (NIRF) catheter-based strategy to sense cysteine protease activity during vascular catheterization. The NIRF catheter design was based on a clinical coronary artery guidewire. In phantom studies of NIRF plaques, blood produced only a mild (<30%) attenuation of the fluorescence signal compared with saline, affirming the favorable optical properties of the NIR window. Catheter evaluation in vivo used atherosclerotic rabbits (n=11). Rabbits received an injection of a cysteine protease-activatable NIRF imaging agent (Prosense750; excitation/emission, 750/770 nm) or saline. Catheter pullbacks through the blood-filled iliac artery detected NIRF signals 24 hours after injection of the probe. In the protease agent group, the in vivo peak plaque target-to- <0.05). Ex vivo fluorescence reflectance imaging corroborated these results (target-to- <0.01). In the protease group only, saline flush-modulated NIRF signal profiles further distinguished atheromata from normal segments in vivo (P<0.01). Good correlation between the in vivo and ex vivo plaque target-to- =0.82, P<0.01). Histopathological analyses demonstrated strong NIRF signal in plaques only from the protease agent group. NIRF signals colocalized with immunoreactive macrophages and the cysteine protease cathepsin B. An intravascular fluorescence catheter can detect cysteine protease activity in vessels the size of human coronary arteries in real time with an activatable NIRF agent. This strategy could aid in the detection of inflammation and high-risk plaques in small arteries.
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content type line 23
deceased
ISSN:0009-7322
1524-4539
DOI:10.1161/circulationaha.108.785881