Allan R. Camrud scite author profile

Restenosis is a reparative response to arterial injury occurring with percutaneous coronary revascularization. However, the quantitative characteristics of the relation between vessel injury and the magnitude of restenotic response remain unknown. This study was thus performed to determine the relation between severity of vessel wall injury and the thickness of resulting neointimal proliferation in a porcine model of coronary restenosis. Twenty-six porcine coronary artery segments in 24 pigs were subjected to deep arterial injury with use of overexpanded, percutaneously delivered tantalum wire coils. The vessels were studied microscopically 4 weeks after coil implantation to measure the relation between the extent of injury and the resulting neointimal thickness. For each wire site, a histopathologic score proportional to injury depth and the neointimal thicknesses at that site were determined. Mean injury scores were compared with both mean neointimal thickness and planimetry-derived area percent lumen stenosis. The severity of vessel injury strongly correlated with neointimal thickness and percent diameter stenosis (p less than 0.001). Neointimal proliferation resulting from a given wire was related to injury severity in adjacent wires, suggesting an interaction among effects at injured sites. If the results in this model apply to human coronary arteries, restenosis may depend on the degree of vessel injury sustained during angioplasty.

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Restenosis after balloon angioplasty. A practical proliferative model in porcine coronary arteries.

Schwartz

et al. 1990

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A model of proliferative human restenosis was developed in domestic pigs by using deep injury to the coronary arterial media. Metal wire coils were delivered percutaneously to the coronary arteries of 11 pigs with an oversized, high-pressure (14 atm) balloon and were left in place for times ranging from 28 to 70 days. During placement, the balloon expanded the coils and delivered them securely within the arterial lumen. Light microscopic examination of the vessels confirmed fracture of the internal elastic lamina by the coil. An extensive proliferative response occurred in 10 of the 11 pigs and was associated with a luminal area narrowing of at least 50% in all but one pig. The histopathologic features of the proliferative response were identical to those observed in human cases of restenosis after angioplasty. Immunohistochemical studies confirmed the prominence of smooth muscle cells in the proliferative tissue. A similar response was obtained in two of five porcine coronary arteries in which balloon inflation only was performed, without coil implant. This model is practical and inexpensive and closely mimics the proliferative portion of human restenosis both grossly and microscopically. Thus, it may be useful for understanding human restenosis and for testing therapies aimed at preventing restenosis after balloon angioplasty or other coronary interventional procedures.

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Differential neointimal response to coronary artery injury in pigs and dogs. Implications for restenosis models.

Schwartz

Edwards

Bailey

et al. 1994

Arterioscler Thromb

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Neointimal hyperplasia occurs in the coronary arteries after percutaneous revascularization procedures and is a reparative response that frequently causes recurrent stenosis. Prior animal studies have shown that neointimal tissue thickness is proportional to the depth of arterial injury. Because animal models are increasingly used to test therapeutic strategies against restenosis, the purpose of this study was to evaluate the degree of neointimal thickening formed in the coronary arteries of pigs compared with dogs in response to severe injury. Fourteen coronary arteries in six mongrel dogs and 18 coronary arteries in nine pigs underwent severe arterial injury using tantalum metal coils delivered on oversized angioplasty balloons. Animals were killed after 4 weeks, and all coronary arteries were pressure perfusion fixed. Mean histological injury scores and neointimal thicknesses for dogs were 1.9±0.3 and 0.30±0.11, respectively, compared with 2.1±0.7 and 0.71 ±0.36 for pigs. Thus, there was significantly less C oronary artery restenosis remains a major unsolved limitation for interventional cardiology. 13 It results from arterial injury incurred during the revascularization of coronary atherosclerosis 46 and is caused in large part by neointimal hyperplasia at the injury site. 79 Little progress has been made against restenosis despite much investigative work in both patients and animal models.The relevance of animal models to restenosis in humans is unclear yet of paramount importance to clinical trials. Neointima develops in most animal models but to varying degrees and with variable histopathologic appearance. In the porcine coronary model, large amounts of neointima develop with histopathology identical to that in humans. 10 The depth and extent of arterial injury appear to determine the thickness of neointimal response.11 In other models, less neointima may form in response to injury. If this suspicion is true, comparative study of animal models resulting in less neointima might be useful for understanding the mechanisms of neointimal growth and possibly for suggesting new therapeutic approaches to restenosis. Thus, the purpose of this study was to Received March 30, 1993; revision accepted December 7, 1993. neointimal thickening in dogs compared with pigs (P<.001) despite no differences in injury (P=NS). The neointimal thickening differences translated into significantly different percent area stenoses: 55 ±24% for pigs versus 27 ±13% for dogs (P<.001). Linear regression modeled neointimal thickness versus injury assessed by an ordinal injury score proportional to the depth of injury for each species. This analysis confirmed the differences across multiple injury levels. The slope of the regression line for dogs was small, suggesting that no relation may exist between injury and neointimal thickness in this species. The pig may be a more appropriate model for the study of the genesis of stenosing neointima. If the lack of response in dogs could be better understood, insight into more effective r...

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Polymeric stenting in the porcine coronary artery model: Differential outcome of exogenous fibrin sleeves versus polyurethane-coated stents

Holmes

Camrud

Jorgenson

et al. 1994

Journal of the American College of Cardiology

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Effect of external beam irradiation on neointimal hyperplasia after experimental coronary artery injury

Schwartz

Koval

Edwards

et al. 1992

Journal of the American College of Cardiology

156

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Human coronary artery restenosis after percutaneous revascularization is a response to mechanical injury. Smooth muscle cell proliferation is a major component of restenosis, resulting in obstructive neointimal hyperplasia. Because ionizing radiation inhibits cellular proliferation, this study tested in a porcine coronary injury model the hypothesis that the hyperplastic response to coronary artery injury would be attenuated by X-irradiation. Deep arterial injury was produced in 37 porcine left anterior descending coronary artery segments with overexpanded, percutaneously delivered tantalum wire coils. Three groups of pigs were irradiated with 300-kV X-rays after coil injury: Group I (n = 10), 400 cGy at 1 day; Group II (n = 10), 400 cGy at 1 day and 400 cGy at 4 days and Group III (n = 9), 800 cGy at 1 day. Eight pigs in the control group underwent identical injury but received no radiation. Treatment efficacy was histologically assessed by measuring neointimal thickness and percent area stenosis. Mean neointimal thickness in all irradiated groups was significantly higher than in the control groups and thickness was proportional to X-ray dose. X-irradiation delivered at these doses and times did not inhibit proliferative neointima. Rather, it accentuated the neointimal response to acute arterial injury and may have potentiated that injury.

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Allan R. Camrud

Restenosis and the proportional neointimal response to coronary artery injury: Results in a porcine model

Restenosis after balloon angioplasty. A practical proliferative model in porcine coronary arteries.

Differential neointimal response to coronary artery injury in pigs and dogs. Implications for restenosis models.

Polymeric stenting in the porcine coronary artery model: Differential outcome of exogenous fibrin sleeves versus polyurethane-coated stents

Effect of external beam irradiation on neointimal hyperplasia after experimental coronary artery injury

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