These data indicate that coronary artery injury in swine with either balloon inflation or stenting leads to intimal smooth muscle cell proliferation similar to that seen in human restenosis. The degree of intimal proliferation appears to be greater after stenting than after balloon injury. Intracoronary stenting in swine is associated with a marked inflammatory reaction around the stent wires. These models may be helpful in planning systemic and local antirestenosis strategies.
The major finding of this study is that the antioxidant drug probucol reduces neointimal formation after oversized balloon injury in a swine model of restenosis. This suggests that active oxygen species may play a role in restenosis.
The role of calcium and calmodulin during U 46619 and PGF2 alpha-induced pulmonary vasoconstriction was studied in isolated rat lungs perfused with Krebs-Ringer bicarbonate (KRB) or calcium-free KRB. In lungs perfused with KRB, bolus injections of U 46619 (0.2 microgram) and PGF2 alpha (40.0 micrograms) resulted in a 48.0 +/- 4.0 and 23.9 +/- 2.5% increase in mean pulmonary artery pressure, respectively. During lung perfusion with KRB without calcium, the U 46619 response decreased to 31.1 +/- 7.5% whereas the PGF2 alpha response increased to 34.6 +/- 4.1%. Repeated challenges with PGF2 alpha in the KRB without calcium resulted in reduction of the response to 11.8 +/- 1.2%; the U 46619 response was unaltered. The intracellular calcium blocker, 8-(N,N-diethylamino)-octyl-3,4,5, trimethoxybenzoate HCL (TMB-8) significantly attenuated the pressor response to U 46619 at low doses and PGF2 alpha at high doses. The calmodulin inhibitor trifluoperazine (TFP 100 microM) attenuated the vasoconstrictor response to U 46619 by 54%, whereas the PGF2 alpha was unchanged. However, in the calcium-free KRB, TFP attenuated the pressor response to both U 46619 and PGF2 alpha. The U 46619 pressor response depends on intracellular and extracellular calcium to achieve calmodulin-dependent vasoconstriction. PGF2 alpha requires extracellular calcium to replenish depletable intracellular calcium pools and is independent of calmodulin activation.
Respiratory failure is one of the most uncommon and serious adverse drug reactions. Low-molecular-weight-dextran (Dextran-40) is a useful adjunctive anti-platelet agent in the setting of coronary angioplasty and intracoronary stent placement. We report the occurrence of the adult respiratory distress syndrome following intravenous infusion of Dextran-40.
Summary:Restenosis is the most important problem limiting the success of coronary angioplasty. Clinically, restenosis is seen in approximately one-third of patients undergoing percutaneous transluminal coronary angioplasty. Several clinical and angiographic risk factors have been identified which may contribute to the development of restenosis. Histopathologic studies indicate that restenosis is characterized by intimal proliferation of smooth muscle cells in a loose connective tissue matrix. These intimal lesions are associated predominantly with the nonatheromatous portion of the vessel wall. Thinning of the media of the plaque-free wall and marked fragmentation of the internal elustic lamina are also seen. Traumatic injury of the vessel wall during angioplasty probably triggers a series of cellular und subcellular events which may ultimately lead to niyointimal proliferation and restenosis. Although the exact mechanism by which this occurs is unknown, several factors may enhance smooth muscle cell growth and therefore may play a role in the development of restenosis. These include platelet deposition, mechanical stretching of the medi,a, inflammation of the vessel wall, the activity of growth factors, and alterations in vessel geometry. These possible mechanisms of restenosis suggest several potential ways to limit the proliferative response to vascular injury.Anticoagulants and platelet antagonists, direct inhibitors of smooth inuscle proliferation, anti-inflammatory agents, growth factor inhibitors, and new devices which improve final vessel geometry are currently being tested as methods to curb restenosis. Unfortunately, no treatment has yet been shown to reduce significantly the rate of restenosis following angioplasty. The problem of restenosis will most likely be solved by better understanding of the basic molecular and biologic phenomena involved in vascular injury and repair.
In this study, TMB-8, an intracellular calcium antagonist, and verapamil, an extracellular calcium antagonist, were used simultaneously to elucidate the role of calcium in the pulmonary vasopressor response induced by PGF2 alpha and U46619. The pulmonary vasoconstrictor action of these two agonists was evaluated in the canine isolated lung lobe preparation. Lobar arterial pressure was constantly monitored and changes in arterial pressure were recorded as a percentage from baseline. Control responses to PGF2 alpha (42.0 +/- 8.2%) and U46619 (47.2 +/- 7.0%) were obtained prior to the administration of TMB-8 and verapamil. After administration of TMB-8 and verapamil, the PGF2 alpha (7.4 +/- 3.1%) and U46619 (28.8 +/- 6.2%) responses were significantly attenuated. We conclude that the PGF2 alpha pressor response is dependent on a TMB-8-sensitive intracellular calcium pool and a verapamil-sensitive slow-channel calcium influx. In contrast, the degree of attenuation of the U46619 response was similar to the vasopressor response in the presence of verapamil alone, as described previously. This indicates a direct dependence on extracellular calcium. An additional source of calcium insensitive to verapamil and TMB-8 may also be activated and contribute to the pulmonary vasoconstrictor action. These results suggest that each agonist possesses a mechanism of action distinctly different from the other.
Using agents administered systemically, attempts to control the restenotic myoproliferative response associated with angioplasty have been unsuccessful. The porous balloon has the advantage of achieving high local concentrations by directly infusing agents into the arterial wall. The purpose of this study is to identify any acute and chronic morphological changes in swine coronary arteries infused with normal saline through the porous balloon at different driving pressures. In order to establish the safety of local arterial wall infusion through the porous balloon, swine underwent porous balloon infusion of 3, 6, or 10 ml of saline at 5 atmospheres, or infusion of 3 ml of normal saline delivered at either 2, 5, or 10 atmospheres of pressure into the normal left anterior descending and left circumflex arteries. To assess the histopathologic alterations induced by the porous balloon, sized 1.1 to 1 with respect to the artery, animals were sacrificed either immediately after porous balloon infusion or 14 ays later. Acute vessels were evaluated for the presence of medial injury, disruption and/or dissection, whereas chronic vessels underwent morphometric analysis measuring the residual luminal area (Lumen area/Intimal area+Lumen area) and the maximal intimal thickness. Adequate adventitial penetration was confirmed by infusing as little as 2-3 ml of methylene blue at 2 atmospheres of pressure. Infusion of 3 ml of normal saline at 2 atmospheres resulted in minor focal medial edema and disorganization, detected both acutely and 14 days after porous balloon infusion. At delivery pressures of 5 or 10 atmospheres, proportionally more acute injury was noted and measurable neointimal lesions were observed 2 weeks after infusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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