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1 dosing unfractionated heparin in support of fibrinolytic therapy.
2 >1 hour beyond door-to-needle (DN) times for fibrinolytic therapy.
3 0.64; P=0.006) but not in those treated with fibrinolytic therapy.
4 fer for direct PCI may also be preferable to fibrinolytic therapy.
5 s aged older than 70 years or in those given fibrinolytic therapy.
6 ry intervention institutions or who received fibrinolytic therapy.
7 ents are used with standard- or reduced-dose fibrinolytic therapy.
8 apies and faster time intervals from door to fibrinolytic therapy (12.1 minutes faster, P<0.001) or t
9 door-to-needle times for patients receiving fibrinolytic therapy (19 min vs. 29 min, p = 0.003) and
12 use of thoracentesis, chest tube placement, fibrinolytic therapy and open thoracotomy in children wi
13 als have supported the potential of combined fibrinolytic therapy and platelet glycoprotein IIb/IIIa
15 on myocardial infarction (STEMI) who receive fibrinolytic therapy and subsequently undergo percutaneo
16 visual outcomes after CRAO (with or without fibrinolytic therapy) and a series of more than 5 patien
17 rent standard interventions (eg, aspirin and fibrinolytic therapy), and the balance of potential bene
18 the 1st (P =.001) and 2nd (P =.002) days of fibrinolytic therapy, and for the duration of thoracosto
19 rdial infarction with thrombus aspiration or fibrinolytic therapy, and postmortem pathological observ
20 ; the determination of prognosis early after fibrinolytic therapy; and the use of ST segment resoluti
22 patient as compared with providing immediate fibrinolytic therapy at their initial hospital; yet more
23 TEMI), or they may selectively offer PPCI or fibrinolytic therapy based on patient and hospital-level
24 al contact-to-needle) time for initiation of fibrinolytic therapy can be achieved within 30 min or do
25 re-hospital ECG was performed in 4.5% of the fibrinolytic therapy cohort and in 8.0% of the PCI cohor
26 In 1999, only 46% of the patients in the fibrinolytic therapy cohort were treated within the reco
27 ey to successful treatment, but intrapleural fibrinolytic therapy did not improve outcomes in an earl
29 nts experience significantly longer times to fibrinolytic therapy (door-to-drug times) and percutaneo
30 ays should prompt increased consideration of fibrinolytic therapy, emergency medical services hospita
31 rvention and to promote the selective use of fibrinolytic therapy, especially prehospital fibrinolysi
35 assessing reperfusion in patients receiving fibrinolytic therapy for acute ST elevation myocardial i
36 ests that a clinical trial of early systemic fibrinolytic therapy for CRAO is warranted and that cons
37 substantial proportion of patients receiving fibrinolytic therapy for myocardial infarction with ST-s
38 epicardial flow among patients treated with fibrinolytic therapy for ST-segment elevation myocardial
39 RS <0% following rescue/adjunctive PCI after fibrinolytic therapy for STEMI was independently associa
42 ry angioplasty provides outcomes superior to fibrinolytic therapy in AMI, but its use in community ho
44 cute myocardial infarction (MI) treated with fibrinolytic therapy in hospitals with and without coron
46 onary intervention (PCI) capability also use fibrinolytic therapy in patients with ST-segment elevati
47 on of glycoprotein IIb or IIIa inhibitors to fibrinolytic therapy increased the risk of major bleedin
48 imary PCI leads to better outcomes than when fibrinolytic therapy is administered at community hospit
49 rdial infarction (STEMI) patients undergoing fibrinolytic therapy is associated with adverse outcomes
53 k who received acute reperfusion with either fibrinolytic therapy (n = 35,370) or primary percutaneou
54 n patients admitted with STEMI and receiving fibrinolytic therapy (n = 68,439 patients in 1,015 hospi
55 ry intervention (PPCI) is superior to onsite fibrinolytic therapy (O-FT) when administered in a timel
56 myocardial infarction is superior to onsite fibrinolytic therapy (O-FT), the generalizability of the
58 s with intermediate-risk pulmonary embolism, fibrinolytic therapy prevented hemodynamic decompensatio
61 pirin and other standard treatments (such as fibrinolytic therapy) safely reduces mortality and major
63 the advantage of this strategy over on-site fibrinolytic therapy that has been demonstrated in recen
65 ay result in superior outcomes compared with fibrinolytic therapy, the performance of primary angiopl
66 for primary PCI may be superior to immediate fibrinolytic therapy, these findings are unlikely to gen
68 ersus 86.3% with an in-hospital ECG, whereas fibrinolytic therapy was used in 4.6% versus 4.2% of pat
69 total of 20,479 STEMI patients who received fibrinolytic therapy were randomized to a strategy of EN
70 sk factors for intracranial hemorrhage after fibrinolytic therapy, were not associated with increased
72 ly assigned to undergo either primary PCI or fibrinolytic therapy with bolus tenecteplase (amended to
74 icant proportion of patients to the risks of fibrinolytic therapy without the likelihood of significa
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