Dose-Response Effects of 32P Radioactive Stents in an Atherosclerotic Porcine Coronary Model

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Circulation. 1999;100:1548-1554

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(Circulation. 1999;100:1548-1554.)
© 1999 American Heart Association, Inc.

Basic Science Reports

Dose-Response Effects of ³²P Radioactive Stents in an Atherosclerotic Porcine Coronary Model

Andrew J. Carter, DO; Douglas Scott, MD; Lynn Bailey, AA; Timothy Hoopes, MD; Russ Jones; Renu Virmani, MD

From the Cardiology Research Foundation, Washington Hospital Center (A.J.C., D.S., L.B.), Walter Reed Army Medical Center (T.H.), and the Armed Forces Institute of Pathology (R.J., R.V.), Washington, DC.

Correspondence to Andrew J. Carter, DO, Cardiology Research Foundation, Washington Hospital Center, 110 Irving St NW, Suite 4B-1, Washington, DC, 20100. E-mail ajc2{at}mhg.edu

Background—Experimental studies have demonstrated that³²P radioactive stents reduce neointimal formation at 28 daysin porcine iliac and coronary arteries. Our objective was todetermine the long-term dose-response effects of 1.0- to 12.0-µCi³²P radioactive stents in a porcine atherosclerotic coronarymodel.

Methods and Results—Control (n=19) and 1.0- to 12.0-µCi ³²Pradioactive (n=43) stents (total, n=62) were implanted in thecoronary arteries of 31 miniature swine at 28 days after creationof a fibrocellular plaque by overstretch balloon injury and cholesterolfeeding. Angiography and histomorphometry were performed at6 months. Stent thrombosis occurred in 3 radioactive (7.7%)and no control stents (P=0.54). On histology, the mean neointimalarea and the percent in-stent stenosis correlated positivelywith increasing stent activity (r=0.64, P<0.001). The mean neointimalarea (mm²) for the stents with $>=$ 3.0 µCi ³²P (3.57±1.21)was significantly greater than that for the nonradioactive stents(1.78±0.68, P<0.0001). The neointima of the stentswith $>=$ 3.0 µCi ³²P was composed of smooth muscle cells,matrix proteoglycans, calcification, foam cells, and cholesterol clefts.

Conclusions—Continuous low-dose-rate irradiation deliveredby high-activity ³²P radioactive stents promotes the formation ofan "atheromatous" neointima after 6 months in this experimentalmodel. These data may be useful for predicting late tissue responsesto radioactive stents in human coronary arteries.

Key Words: stents • restenosis • radioisotopes

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				K. Kozuma, M. A. Costa, M. Sabate, I. P. Kay, J. P. A. Marijnissen, V. L. M. A. Coen, P. Serrano, J. M. R. Ligthart, P. C. Levendag, and P. W. Serruys Three-Dimensional Intravascular Ultrasound Assessment of Noninjured Edges of {beta}-Irradiated Coronary Segments Circulation, September 26, 2000; 102(13): 1484 - 1489. [Abstract] [Full Text] [PDF]

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