Viewpoint
Intravascular Radiation Detectors for the Detection of Vulnerable Atheroma

https://doi.org/10.1016/j.jacc.2005.11.051Get rights and content
Under an Elsevier user license
open archive

An intravascular catheter was developed to identify inflammation in coronary atheroma. Inflammation in atheroma is associated with large numbers of macrophages. These cells have increased metabolism, increased expression of chemotactic receptors, and a high frequency of apoptosis-associated phosphatidylserine expression. Each of these parameters can be identified in vivo using specific radiolabeled agents: metabolism can be identified with 18F fluorodeoxyglucose (FDG), receptor expression with 99mTc monocyte chemotactic peptide-1, and apoptosis with 99mTc annexin V. The locally increased concentration of these tracers is readily demonstrable in experimental lesions by ex vivo autoradiography; however, the small lesion size makes it difficult to identify atheroma in the coronaries with conventional imaging equipment. In contrast, with a radiation-sensitive catheter, optimized to sense charged particle rather than gamma or x-radiation, specific lesions could be identified and localized. Charged particle radiation is emitted as a byproduct of nearly all radioactive decay but is typically most abundant in radionuclides that decay by beta emission (either positrons or negatrons). Prototype catheters, using a plastic scintillator mated to an optical fiber, have been tested in the laboratory with the positron-emitting radiopharmaceutical 18FDG. The catheter had sufficient sensitivity to detect lesions concentrating nanocurie concentrations of 18FDG. Ex vivo experiments in apo-e−/−mice confirmed the ability of the catheter to detect 18FDG in aortic lesions. These feasibility studies demonstrate the sensitivity of a beta-sensitive catheter system. Additional mechanical refinements are needed to optimize the system in anticipation of in vivo animal studies.

Abbreviations and Acronyms

FDG
fluorodeoxyglucose
MACE
major acute coronary events

Cited by (0)

Development of the plastic scintillator intravascular catheter was supported by Imetrx Inc. and NIH SBIR R43 HL065837.

Dr. William A. Zoghbi acted as guest editor.

a

Drs. Strauss and Ghazarossian hold equity interests in Imetrx.

b

Dr. Patt is a subcontractor for construction of the catheter.