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1 sociated with similar mortality rates (right internal thoracic artery 10.3% versus radial artery 10.7
2 oronary artery bypass grafting with the left internal thoracic artery, and who received a second arte
3 ently, arterial conduits other than the left internal thoracic artery are seldom used in the United S
4                               Left and right internal thoracic artery (arterial) graft patency has be
5 med directly onto the aorta or from the left internal thoracic artery as a T-graft.
6                                    Bilateral internal thoracic arteries (BITA) have demonstrated supe
7 designed to compare survival after bilateral internal thoracic artery (BITA) over single left interna
8                We examined whether bilateral internal thoracic artery (BITA) revascularization is ass
9                                   Those with internal-thoracic-artery bypass grafts (749 patients) we
10  levels of estrogen on NO release from human internal thoracic artery endothelia and human arterial e
11                 17beta-Estradiol exposure to internal thoracic artery endothelia and human arterial e
12                              Use of a second internal thoracic artery graft is advantageous in diabet
13                                      A right internal thoracic artery graft offered no benefit over t
14                    The positive effect of an internal thoracic artery graft on survival has been acce
15 s between the two groups, the presence of an internal-thoracic-artery graft was an independent predic
16                                          The internal-thoracic-artery graft, which has superior paten
17 long-term outcomes in comparison with single internal thoracic artery grafting and should be consider
18                                    Bilateral internal thoracic artery grafting confers superior long-
19                           Although bilateral internal thoracic artery grafting is associated with imp
20                                              Internal thoracic artery grafting of the left anterior d
21                                    Bilateral internal thoracic artery grafting should be considered i
22 ve patients underwent skeletonized bilateral internal thoracic artery grafting, of whom 748 were </=6
23  on outcome of patients undergoing bilateral internal thoracic artery grafting.
24 e-graft group) and 1548 to undergo bilateral internal-thoracic-artery grafting (the bilateral-graft g
25 554 were randomly assigned to undergo single internal-thoracic-artery grafting (the single-graft grou
26 uled for CABG to undergo single or bilateral internal-thoracic-artery grafting in 28 cardiac surgical
27 e sternal wound complications with bilateral internal-thoracic-artery grafting than with single inter
28 al-thoracic-artery grafting than with single internal-thoracic-artery grafting.
29  comparison with radial artery grafts, right internal thoracic artery grafts were associated with sim
30 and comparable to reported patency rates for internal thoracic artery grafts.
31 nt difference between those receiving single internal-thoracic-artery grafts and those receiving bila
32  with saphenous-vein coronary bypass grafts, internal-thoracic-artery grafts conferred a survival adv
33 -artery grafts and those receiving bilateral internal-thoracic-artery grafts with regard to mortality
34  grafts only than in that for the group with internal-thoracic-artery grafts.
35 0s, when enthusiasm for the use of bilateral internal thoracic arteries grew.
36 targets were able to be revascularized using internal thoracic arteries in patients randomized to Y g
37                                     The left internal thoracic artery is used to graft the left anter
38 grafting (CABG) with single versus bilateral internal thoracic arteries (ITA) in their institution.
39  to determine whether location of the second internal thoracic artery (ITA) graft used for bilateral
40 ngiograms; stenosis was quantified for 7,903 internal thoracic artery (ITA) grafts and 20,066 sapheno
41 tency of saphenous vein grafts compared with internal thoracic artery (ITA) grafts.
42 e at 20 years was 19.0 +/- 0.2% for the left internal thoracic artery (ITA), 25.0 +/- 0.2% for the RA
43                                              Internal thoracic arteries (ITAs) are frequently anastom
44 ry artery bypass surgery using the bilateral internal thoracic arteries (ITAs) as bypass grafts.
45 ctive second arterial conduit after the left internal thoracic artery (LITA) for coronary artery bypa
46        The study sought to determine if left internal thoracic artery (LITA) grafting of the left ant
47 l grafting (MAG) vs the standard use of left internal thoracic artery (LITA) supplemented by saphenou
48  coronary artery bypass grafting of the left internal thoracic artery (LITA) to the left anterior des
49 sequential grafts) patency was 85% and right internal thoracic artery (n=15 grafts) patency was 80% (
50 opensity score-matched recipients of a right internal thoracic artery (n=1576) or a radial artery (n=
51 ho received a second arterial conduit (right internal thoracic artery or radial artery, n=5866) or a
52 utcomes as compared with the use of a single internal-thoracic-artery plus vein grafts.
53                                    Bilateral internal thoracic artery revascularization did not incre
54                                    Bilateral internal thoracic artery revascularization grafting conf
55 ality and complications compared with single internal thoracic artery (SITA) revascularization.
56 rnal thoracic artery (BITA) over single left internal thoracic artery (SITA).
57      Given its proven survival benefit, left internal thoracic artery to left anterior descending (LI
58 ery bypass was primarily limited to the left internal thoracic artery until the mid-1980s, when enthu
59 tion fraction, extent of disease, and use of internal thoracic arteries were recorded.

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