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1 sluminal angioplasty, laser ablation, and/or rotational atherectomy.
2 ablation-induced platelet aggregation during rotational atherectomy.
3  documents the changes in the application of rotational atherectomy.
4 rocedural outcomes for patients treated with rotational atherectomy.
5 in length underwent PTCA, laser ablation, or rotational atherectomy.
6 ectional coronary atherectomy and high speed rotational atherectomy.
7 0.31-1.5]), excimer laser (0.89 [0.29-2.7]), rotational atherectomy (0.96 [0.53-1.7]), and vascular b
8 tional balloon angioplasty (73% vs. 50%) and rotational atherectomy (16.1% vs. 8.3%) were used more o
9 asty (37 +/- 16%, p < 0.001) and lower after rotational atherectomy (27 +/- 15%, p < 0.001).
10 eating calcific stenoses, but the ability of rotational atherectomy alone to optimize lumen dimension
11 pproximately 10% of these procedures include rotational atherectomy, although the national average ra
12 onary atherectomy than in those treated with rotational atherectomy and adjunct balloon angioplasty.
13 hed comparison with 208 lesions treated with rotational atherectomy and adjunct coronary angioplasty
14 reated 165 lesions in 163 patients by use of rotational atherectomy and adjunct directional coronary
15 s and the immediate and long-term results of rotational atherectomy and adjunct directional coronary
16 ospectively evaluated 22 patients undergoing rotational atherectomy and compared their wall motion ab
17 larization was lower in lesions treated with rotational atherectomy and directional coronary atherect
18  There is a synergistic relationship between rotational atherectomy and directional coronary atherect
19 whether adjunctive balloon angioplasty after rotational atherectomy and excimer laser angioplasty pro
20                           The combination of rotational atherectomy and intra-coronary stent placemen
21 s article reviews the existing literature on rotational atherectomy and stent implantation for comple
22  +/- 107 degrees to 166 +/- 93 degrees after rotational atherectomy and to 145 +/- 87 degrees after d
23 nal coronary angioplasty, laser angioplasty, rotational atherectomy, and/or stent implantation.
24                                              Rotational atherectomy burr time was longer in the patie
25 lar ultrasound analysis to determine whether rotational atherectomy causes ablation of non-calcified
26  drug-eluting stents; excisional, laser, and rotational atherectomy devices; devices for crossing tot
27                                              Rotational atherectomy effectively ablates noncalcified
28 luminal coronary angioplasty, directional or rotational atherectomy, excimer laser angioplasty, or Pa
29                                              Rotational atherectomy, extraction atherectomy and excim
30 exes suggested facilitated angioplasty after rotational atherectomy for ostial, eccentric, ulcerated
31 e to recovery of baseline wall motion in the rotational atherectomy group (153 min, 95% confidence in
32 line function was significantly lower in the rotational atherectomy group than in the coronary angiop
33 g in 73% of patients (alone in 30% and after rotational atherectomy in 43%), rotational atherectomy i
34 0% and after rotational atherectomy in 43%), rotational atherectomy in 58% (alone in 15% and before s
35                                              Rotational atherectomy is a safe and feasible technique
36                                              Rotational atherectomy is best suited for treating calci
37                                              Rotational atherectomy is currently the preferred treatm
38 rcutaneous techniques such as directional or rotational atherectomy, laser angioplasty, or thrombecto
39 dence intervals, 1.21-1.96; P<0.001), use of rotational atherectomy (OR, 2.37; 95% confidence interva
40 uminal coronary angioplasty, laser ablation, rotational atherectomy, or additional stenting (36% of l
41 gioplasty, directional coronary atherectomy, rotational atherectomy, or excimer laser angioplasty.
42 8 (mean +/- 1 SD) to 3.9 +/- 1.1 mm(2) after rotational atherectomy, owing to a decrease in plaque pl
43 the clinical safety and long-term results of rotational atherectomy (RA) followed by low-pressure bal
44                                              Rotational atherectomy (RA) is an important intervention
45 mer laser coronary angioplasty (ELCA) versus rotational atherectomy (RA), both followed by adjunct PT
46 s: balloon angioplasty (BA), repeat stent or rotational atherectomy (RA).
47 roup than in the coronary angioplasty group (rotational atherectomy rate constant 0.069 +/- 0.079/min
48 on of recent and early patients treated with rotational atherectomy revealed an increase in the compl
49 ps according to the treatment strategy: CBA, rotational atherectomy (ROTA), additional stenting (STEN
50 ) or after extraction atherectomy (n = 277), rotational atherectomy (Rotablator) (n = 211) or excimer
51 nd utilized angioplasty, stent deployment or rotational atherectomy strategies.
52                                        After rotational atherectomy, the minimal lumen cross-sectiona
53 age, chronic occlusive disease intervention, rotational atherectomy use, number of stents, hypertensi
54  in 18 patients were imaged before and after rotational atherectomy using intravascular ultrasound sy
55      This study used pre-rotational and post-rotational atherectomy volumetric intravascular ultrasou
56 two groups ([mean +/- SD] 10.3 +/- 6 min for rotational atherectomy vs. 9.6 +/- 4.2 min for coronary
57             We compared an early registry of rotational atherectomy with a recent registry to examine
58                                              Rotational atherectomy with the Rotablator catheter has

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