Prevention of Coronary Restenosis : The Evolving Evidence Base for Radiation Therapy

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Circulation. 2000;101:2130-2133

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(Circulation. 2000;101:2130.)
© 2000 American Heart Association, Inc.

Editorials

Prevention of Coronary Restenosis

The Evolving Evidence Base for Radiation Therapy

Richard E. Kuntz, MD, MSc; Donald S. Baim, MD

From the Cardiovascular Divisions of the Brigham and Women’s Hospital (R.E.K.) and the Beth Israel Deaconess Medical Center (D.S.B.) and Harvard Medical School (R.E.K., D.S.B.), Boston, Mass.

Correspondence to Donald S. Baim, MD, Cardiovascular Division, Beth Israel Deaconess Medical Center, East Campus, 330 Brookline Avenue, Boston, MA 02215. E-mail dbaim@bidmc.harvard.edu

Key Words: Editorials • restenosis • radiation • brachytherapy

Restenosis, the time-limited renarrowing of the lumen of a coronaryartery, affects 20% to 40% of patients in the months after aninitially successful intervention.¹ ² As such, it representsthe extreme form of the healing response that produces a normallydistributed amount of late loss in lumen diameter at all interventionalsites.³ To some extent, the percentage of patients who developrenarrowing can be reduced by acutely achieving the largestpossible lumen diameter (as by stenting) via the "bigger isbetter" principle. Stenting can also prevent any late loss causedby vascular contraction,⁴ although it does not reduce (and,in fact, increases) the amount of late loss due to excessiveintimal hyperplasia. To lower the restenosis rate further andto provide durable treatment for in-stent restenosis when itoccurs, potent treatments to blunt this late loss are thus required.

Although a number of pharmacological approaches have been triedto limit late loss, only a few have shown even preliminary efficacy. However,radiation therapy seems to provide an interesting, nonpharmacologicalapproach to controlling this excessive response to injury responsethat is analogous to its role in limiting the growth of manyrapidly proliferating neoplasms and non-neoplastic conditionsof excessive proliferation (eg, exophthalmos of Grave’sdisease or keloid scar formation).

There are some concerns with this hypothesis. First, the numberof proliferating cells in an active restenosis lesion is generally small,and such cells are virtually absent in a de novo lesion that mightundergo prophylactic radiation at the time of original . . . [Full Text of this Article]

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				M. Sturek and H. K. Reddy New tools for prevention of restenosis could decrease the 'oculo-stento' reflex Cardiovasc Res, February 1, 2002; 53(2): 292 - 293. [Full Text] [PDF]

				H. C. Lowe, S. N. Oesterle, and L. M. Khachigian Coronary in-stent restenosis: Current status and future strategies J. Am. Coll. Cardiol., January 16, 2002; 39(2): 183 - 193. [Abstract] [Full Text] [PDF]

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				R. M. Wolfram, B. Pokrajac, R. Ahmadi, C. Fellner, M. Gyongyosi, M. Haumer, R. Bucek, R. Potter, and E. Minar Endovascular Brachytherapy for Prophylaxis against Restenosis after Long-Segment Femoropopliteal Placement of Stents: Initial Results Radiology, September 1, 2001; 220(3): 724 - 729. [Abstract] [Full Text] [PDF]

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				G. Tepe, L. M. Dinkelborg, U. Brehme, P. Muschick, B. Noll, T. Dietrich, A. Greschniok, A. Baumbach, C. D. Claussen, and S. H. Duda Prophylaxis of Restenosis With 186Re-Labeled Stents in a Rabbit Model Circulation, August 6, 2001; 104(4): 480 - 485. [Abstract] [Full Text] [PDF]

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				R. Seabra-Gomes Radioactive stents to reduce restenosis: time for an epitaph? Eur. Heart J., April 2, 2001; 22(8): 621 - 623. [PDF]

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