Atherectomy, Coronary ; methods ; Drug-Eluting Stents ; Humans

BACKGROUND: Despite improved operator technique and advanced equipment designs, acute closure and restenosis remain as serious limitations to both the short and long-term success of balloon angioplasty. Atherectomy is a new transluminal interventional technique for the treatment of coronary artery obstructive disease. We evaluate preliminary experience of directonal coronary atherectomy (DCA) for complex coronary artery lesions. METHODS: We tried DCA in the 16 lesions of 15 nonrandomized sequential patients(mean age 66 years, M/F : 12/3) with coronary artery lesions that were ostial lesion in 4, ulcerated and/or eccentric in 13, restenosis after PTCA in 2 and after stent implantation in 2. The target vessel was right coronary artery in 7 and left anterior descending artery in 9. RESULTS: Primary success was achieved in 14 of 16 lesions (88%) by atherectomy and in 5(36%) by additional use of balloon angioplasty. Atherectomy retrieved tissue in 15 out of 15 attempts(100%). One patients suffered acute closure due to large dissection during the DCA which was solved successfully after stent implantation. CONCLUSIONS: Atherectomy can predictably treat selected patients with eccentric, ostial bulky coronary lesions with overall safety comparable to that of conventional balloon angioplasty, although the procedure as currently performed does not appear to prevent restenosis.
Angioplasty, Balloon ; Arteries ; Atherectomy ; Atherectomy, Coronary* ; Coronary Vessels ; Equipment Design ; Humans ; Stents ; Ulcer

No abstract available.
Arteries* ; Atherectomy*

Among the various kinds of percutaneous coronary intervention techniques for balloon non-crossable severe calcified coronary stenosis, rotational atherectomy (RA) is known to be a therapy of choice. We describe a case in which a 1.25 mm RA burr non-crossable heavily calcified stenosis was successfully treated by the RA through '6 in 8 child-mother' guiding technique.
Atherectomy, Coronary* ; Catheters* ; Constriction, Pathologic ; Coronary Stenosis* ; Percutaneous Coronary Intervention

BACKGROUND: Restenosis is a major limitation of balloon angioplasty. Recently, new angioplasty devices have been used in an attempt to reduce the restenosis compared with coronary balloon angioplasty. Directional coronary atherectomy effectively dilated the lesion by removal of the atherosclerotic plaque. Therefore, we tried to evaluate immediate and late clinical outcomes after directional coronary atherectomy in the 57 patients with coronary artery disease. METHODS: From October 1991 to March 1997, fifty seven consecutive patients with 69 lesions were treated with directional coronary atherectomy. The patients underwent coronary angiography at pre-intervention, immediately after intervention and at 6 months post-intervention. Restenosis was assessed clinically and by computer-assissted quantitative measurements of luminal dimensions. Patients were requested to undergo coronary angiography at 6 months after directional coronary atherectomy. Angiographic restenosis was defined as more than 50% diameter stenosis by quantitative coronary angiographic analysis. RESULTS: Successful results were achieved in 61 of the 69 lesions(88%) and mean stenosis was reduced from 78.0+/-13.0% to 10.0+/-5.0%. Atherectomy resulted in an increase in minimal lumen diameter from 0.8+/-0.3mm to 3.0+/-0.6mm. Six months follow-up angiogram was obtained in 68% of 50 eligible lesions. The overall angiographic restenosis rate was 32%. Six month clinical follow-up was obtained in 94% of the eligible lesions. The clinical recurrence occured in 38% of the patients. The target lesion revascularization rate was 17%. CONCLUSIONS: Removal of coronary artery plaque with directional atherectomy led to large luminal diameter and six months follow-up angiography shows an overall restenosis rate of 32% However, further clinical study is warranted to evaluate the efficacy of atherectomy with larger numbers of patients.
Angiography ; Angioplasty ; Angioplasty, Balloon ; Angioplasty, Balloon, Coronary ; Atherectomy ; Atherectomy, Coronary* ; Constriction, Pathologic ; Coronary Angiography ; Coronary Artery Disease ; Coronary Vessels ; Follow-Up Studies ; Humans ; Phenobarbital ; Plaque, Atherosclerotic ; Recurrence

BACKGROUND:Rotational atherectomy has been developed for several years. It is a useful tool in complex coronary lesion morphologies such as diffuse, calcific, ostial and angulated lesion. We report initial experience of the rotational atherectomy in complex coronary artery morphology. METHODS: We included 64 patients who was treated with rotational atherectomy since July 1997 to February 1999. Mean age was 56+/-9 years with 47 male patients. Clinical diagnosis was 12 acute myocardial infarction, 49 unstable angina, and 3 stable angina. Rotational atherectomy was done by transfemoral or transradial approach with adjunctive ballooning and/or stenting in all patients. RESULTS: Ninty-one percent of the treated lesions showed complex lesion morphologies (B2/C lesion) with 43 left anterior descending artery and 19 right coronary artery. Rotational atherectomy was done in 37 de novo lesion (58%) and 27 (42%) restenosis patients. Transradial approach was done in 33 patients (52%). Mean maximal burr size was 1.68 mm and mean burr to reference artery ratio was 0.63. Rotastenting were done in 58% of the patients with higher post-procedure minimal lumen diameter, % diameter stenosis and net gain than rotablator with adjunctive balloon angioplasty. Overall procedural success was 94% (62/64). Complications were one non-Q infarction, one coronary artery perforation, two slow flow, and one guidewire fracture. None of the patients showed inhospital mortality or 30 day cardiac event (death, emergency CABG, Q-infarction, or re-intervention). CONCLUSION: Rotational atherectomy is a useful technique with high success rate without showing major cardiac events during inhospital period and within 30 days.
Angina, Stable ; Angina, Unstable ; Angioplasty, Balloon ; Arteries ; Atherectomy ; Atherectomy, Coronary* ; Constriction, Pathologic ; Coronary Artery Disease* ; Coronary Vessels* ; Diagnosis ; Emergencies ; Hospital Mortality ; Humans ; Infarction ; Male ; Myocardial Infarction ; Stents

Stent migration from the delivery balloon catheter is a rare but serious complication during percutaneous coronary intervention, particularly when a part of the stent stretches into the aorta. We report an unusual case of stent migration treated with a combination of a gooseneck snare and rotablation. A part of the stent was overstretched and unrolled into the aorta and the rest of the stent remained implanted in the coronary artery. The stent was captured with a gooseneck snare but could not be retrieved because it was connected to a stent remnant implanted in the coronary artery. The stent strut was cut with rotablation, and the stent was successfully removed through the femoral sheath.
Angioplasty, Balloon, Coronary ; Aorta ; Atherectomy, Coronary ; Catheters ; Coronary Vessels ; Percutaneous Coronary Intervention ; SNARE Proteins ; Stents

BACKGROUND: Balloon PTCA for the distal, long, eccentric coronary artery stenosis will be at high risk for severe dissection or acute occlusion during or after procedure. METHODS AND RESULTS: High Speed Rotational Atherectomy followd by low pressure balloon angioplasty due to distal, long, eccentric coronary artery stenosis. Rotational coronary atherectomy debulked the lesion quickly without difficulty. Rotational Coronary Atherectomy with adjuctive low pressure balloon inflation was successful without event. CONCLUSIONS: This case illustrates the point that complementary deployment of devices may not only improve success of percutaneous coronary intervention, but also may extend its scope.
Angioplasty, Balloon ; Atherectomy, Coronary* ; Coronary Stenosis ; Inflation, Economic ; Percutaneous Coronary Intervention

BACKGROUND AND OBJECTIVES: A cutting balloon (CB) is a balloon catheter with 3 or 4 metal blades on its surface used for making controlled endovascular surgical incisions and promising minimal intimal injury. Some reports suggest advantages of the use of CB in the treatment of in-stent restenosis (ISR). The purpose of this study was to report the clinical experience of the use of CB for ISR. SUBJECTS AND METHODS: 28 patients were enrolled in this study. Angiographic success (defined by 40% residual stenosis), in-hospital, 30 days and 6 months clinical outcomes were evaluated. RESULTS: Angiographic success was 92.9% (26/28). The number of inflations and maximal inflation pressure were 2.8+/-0.9 and 10.1+/-1.3 ATM, respectively. The balloon/artery (B/A) ratio was 1.1+/-0.2. There was a case of stent insertion for treating type D dissection and a case of rotational atherectomy for suboptimal result after CB angioplasty. 25 cases underwent analysis through 6 months of clinical follow-up. During the 6-month clinical follow-up, 4 cases of re-PTCA were documented, while MACE during in-hospital time and the subsequent 30 days was 0%. CONCLUSION: Our experience demonstrated that CB can be performed safely and effectively in coronary ISR. Further clinical and angiographic effectiveness are warranted in a large-scale clinical trial.
Angioplasty ; Angioplasty, Balloon* ; Atherectomy, Coronary ; Catheters ; Coronary Restenosis ; Follow-Up Studies ; Humans ; Inflation, Economic ; Stents*

BACKGROUND: Rotational atherectomy has been shown to be safe and efficient for the treatment of ISR, but the recurrence rate is still high. Intracoronary-irradiation after rotational atherectomy may be a reasonable approach to prevent recurrent ISR. SUBJECTS & METHODS: Fifty consecutive patients with diffuse ISR (length > 10 mm) in native coronary arteries underwent rotational atherectomy and adjunctive balloon angioplasty followed by beta irradiation using a 188Re-MAG3-filled balloon catheter. The radiation dose was 15 Gy at 1.0 mm deep into vessel wall. RESULTS: Mean length of the lesion and irradiated segment was 25.6 +/- 12.7 mm and 37.6 +/- 11.2 mm, respectively. The radiation was delivered successfully to all patients, with a mean irradiation time of 201.8 61.7 seconds. No adverse event including myocardial infarction, death, or stent thrombosis occurred during the follow-up period (mean 10.3 +/- 3.7 months) and non-target vessel revascularization was needed in one patient. Six-month binary angiographic restenosis rate was 10.4 % and loss index was 0.17 +/- 0.31. CONCLUSIONS: beta irradiation using 188Re-MAG3-filled balloon following rotational atherectomy is safe and feasible for patients with diffuse ISR, and it may improve the clinical and angiographic outcomes. Further prospective randomized trials are warranted to evaluate the synergistic effect of debulking and irradiation in patients with diffuse ISR.
Angioplasty, Balloon ; Atherectomy, Coronary* ; Catheters ; Coronary Vessels ; Follow-Up Studies ; Humans ; Myocardial Infarction ; Recurrence ; Stents ; Thrombosis