1 g is demonstrated for the first time in both
open-chest and closed-chest porcine settings.
2 In
open-chest,
and artificially ventilated rats, anandamide
3 nce and duration of pacing-induced AF in the
open chest anesthetized state were significantly (P<0.05
4 ere sequentially mapped in random order in 7
open-chest anesthetized dogs 6 to 8 weeks after left ant
5 c strains relative to local myofiber axes in
open-chest anesthetized dogs before 15 minutes of left a
6 Twenty-one
open-chest anesthetized dogs underwent 3 to 6 hours of c
7 In
open-chest anesthetized dogs, the distal left anterior d
8 lize glucose during stenosis was examined in
open chest,
anesthetized pigs.
9 ial pressure between 0 and -2 mm Hg in seven
open-chest,
anesthetized dogs by use of a pressure-contr
10 ve hypercapnia (CO2-response curve) in eight
open-chest,
anesthetized dogs, in order to clarify the r
11 in of reperfusion at 100% baseline flow in 6
open-chest,
anesthetized dogs.
12 use of 3H-labeled radioenzymatic assay in 8
open-chest,
anesthetized pigs.
13 In normal
open-chest animal preparations, the pericardium restrain
14 ) Doppler echocardiographic data in an acute
open-chested animal preparation.
15 re-discharge characteristics obtained in the
open-chest animals indicated that the threshold pulmonar
16 and 34 +/- 7.2% at a heart rate of 90 bpm in
open-chest animals.
17 eneous cardiac gene delivery has required an
open-chest approach.
18 In
open-chest artificially ventilated rabbits, removal foll
19 ageal echocardiography (TEE) were performed (
open chest)
before and continuously during left circumfl
20 In an anesthetized
open-chest canine model of regional myocardial ischemia
21 xtracardiac application of histotripsy in an
open-chest canine model.
22 ne the redistribution kinetics of NOET using
open-chest canine models of sustained low coronary flow
23 trophysiology laboratory and persistently in
open-chested canines, permanent DHBP in humans has not b
24 Open-chest cardiac massage and minimum postarrest lactat
25 On multivariable analyses,
open-chest cardiac massage was independently associated
26 n a beat-to-beat basis in seven anesthetized
open-chested cardiac surgery patients.
27 With the use of a regional infarct model in
open-chest cats, the left anterior descending artery or
28 who completed cardiovascular surgery with an
open chest compared with those with a closed chest (P=.0
29 Under
open chest conditions, 3D marker coordinates were obtain
30 Eight sheep were studied under
open-chest conditions immediately after surgical placeme
31 Immediately postoperatively, under
open-chest conditions, 3-D marker coordinates were obtai
32 Under acute
open-chest conditions, 4-dimensional marker coordinates
33 Under anesthetized,
open-chest conditions, pigs underwent 90 minutes of mode
34 ], Medtronic) and were studied acutely under
open-chest conditions.
35 An
open-chest coronary artery occlusion and reperfusion pro
36 e recorded with a 224-electrode sock from an
open-chest dog during control, regional epicardial warmi
37 e recorded with a 224-electrode sock from an
open-chest dog during control, regional warming, cooling
38 oronary thrombosis in vivo was studied in an
open-chest dog model with critical coronary artery steno
39 In an
open-chest dog model, parameters derived from microbubbl
40 e recorded with a 490-electrode sock from an
open-chest dog.
41 Fifteen
open chest dogs underwent variable durations of coronary
42 Coronary ligation was performed in 14
open chest dogs, and echocardiographic imaging of the ve
43 th continuous and intermittent modes in nine
open chest dogs.
44 EF was calculated in 4 anesthetized,
open-chest dogs after intracoronary administration of 12
45 was injected intravenously in anesthetized,
open-chest dogs before coronary occlusion (90 minutes) a
46 Ischemia was induced in
open-chest dogs by a 66% flow reduction in the left ante
47 Nine
open-chest dogs had left anterior descending coronary ar
48 We studied cardiac memory in anesthetized,
open-chest dogs paced from the ventricle for 2 hours.
49 k a comparison of determinants of suction in
open-chest dogs previously subjected to 2 weeks of pacin
50 crograms kg-1.min-1 for 10 minutes), to five
open-chest dogs produced dose-related left anterior desc
51 magnetic resonance (NMR) spectroscopy in 12
open-chest dogs randomized to receive RSR13 or vehicle c
52 Twelve
open-chest dogs underwent 60 min of total left anterior
53 To test the above hypothesis, 14
open-chest dogs underwent surgery in which the intrathor
54 Ten
open-chest dogs were subjected to a 10-minute acute coro
55 We studied eight
open-chest dogs with 3 h of left anterior descending cor
56 In 31
open-chest dogs with acute coronary occlusion, dipyridam
57 utamine was infused (0.5-250 ng/kg/min) in 8
open-chest dogs with critical coronary stenoses that abo
58 s of anisotropic infarct reinforcement in 10
open-chest dogs with large anteroapical infarcts that de
59 during adenosine and dobutamine stress in 14
open-chest dogs with left anterior descending and left c
60 Eight
open-chest dogs with left circumflex (LCx) stenoses were
61 In six
open-chest dogs with left circumflex artery stenosis, ra
62 Nine
open-chest dogs with non-critical stenosis of a single c
63 MA device was placed acutely in anesthetized
open-chest dogs with rapid pacing-induced HF (n = 6) ins
64 In 28
open-chest dogs, after placement of a stenosis in the le
65 In 20
open-chest dogs, atrial refractoriness, AF vulnerability
66 In 15
open-chest dogs, dobutamine (2.5 to 30 microg x kg(-1) x
67 In 9
open-chest dogs, either the left anterior descending or
68 In 19 anesthetized,
open-chest dogs, hemodynamic responses to bolus injectio
69 In 13 other
open-chest dogs, right atrial ERP was determined before
70 In 13 anesthetized
open-chest dogs, the left anterior descending coronary a
71 In six
open-chest dogs, two sets of three transmural columns of
72 In 8
open-chest dogs, we created 4 graded left anterior desce
73 In eight
open-chest dogs, we created LAD occlusion and graded ste
74 noses were placed on coronary arteries of 10
open-chest dogs, which then underwent 2 h of coronary oc
75 ctility by pressure-volume relations in nine
open-chest dogs.
76 was used on the left ventricular surface of
open-chest dogs.
77 activation during Wiggers' stage II VF in 13
open-chest dogs.
78 l-index (MI) contrast echocardiography in 15
open-chest dogs.
79 f varying severity were created in each of 9
open-chest dogs.
80 nary artery (LAD) stenoses were created in 9
open-chest dogs.
81 (LAD) was followed by 3-h reperfusion in 16
open-chest dogs: 8 controls and 8 given a continuous inf
82 In nine
open-chested dogs, a severe left anterior descending (LA
83 mM, 0.1 ml/min, 60 min) in six anesthetized
open-chested dogs.
84 ronary artery occlusion in five anesthetized
open-chested dogs.
85 Acute
open chest electrophysiology studies were performed in s
86 emodynamic states were studied at a separate
open chest experimental session.
87 In
open-chest follow-up experiments, electrode arrays were
88 In 17 anesthetized,
open-chest,
juvenile pigs, atrial flutter or fibrillatio
89 in anesthetized adult mice before and after
open-chest ligation of the left anterior descending arte
90 Mice (n=24) were anesthetized, and via an
open chest,
LV pressure-volume relationships were determ
91 Anesthetized,
open chest,
male Wistar rats were assigned to 1 of 14 gr
92 propidium-iodide-stained nuclei for 2.2 MPa
open-chest MCE were also significantly greater inside th
93 Open-chest mice of various strains (n = 16, etomidate/ur
94 We studied a total of 53 mongrel dogs in an
open chest model of coronary occlusion of various durati
95 MBK or SMBK knockouts) were subjected to the
open-chest model of myocardial infarction.
96 -NAME) in 12 control and 12 LVH anesthetized
open-chest mongrel dogs.
97 m (3 to 4 probes per dog) of 12 anesthetized
open-chest normal dogs.
98 Recent visual epicardial observations in an
open-chest,
open-pericardium model of swine VF indicate
99 l contrast echocardiography in a short-axis (
open-chest)
or modified four-chamber view (closed-chest)
100 ity of end-of-life care (mechanical support,
open chest,
or cardiopulmonary resuscitation [CPR]), mod
101 although age at repair ( P=0.03) and days of
open chest (
P=0.03) were associated with a lower compos
102 ative assessment, whereas 45 (40%) underwent
open-chest PCI (unplanned hybrid) based on intraoperativ
103 he graft (n = 22, 2.8%), with intraoperative
open-chest PCI (unplanned hybrid, n = 48, 6%) or with tr
104 rough effects on energy metabolism, using an
open-chest pig model in which coronary perfusion was con
105 In an
open-chest pig model, CFRthermo was measured in the left
106 In an
open-chest pig model, distal coronary pressure was measu
107 In six anaesthetised
open chest pigs, stimulation of the peripheral cut end o
108 ng-induced AF were examined in anaesthetized
open chest pigs.
109 ects on refractory period and AF duration in
open chest pigs: The effects of AP14145 and vernakalant
110 Fourteen
open-chest pigs underwent 60 to 120 min of left anterior
111 Twenty-eight
open-chest pigs underwent echocardiographic study before
112 Nineteen
open-chest pigs were scanned from apical views, before a
113 Seventeen juvenile,
open-chested pigs were studied before undergoing a separ
114 uring VT with a 490 electrode sock during an
open chest procedure in 2 dogs with 4-day-old myocardial
115 t chloramphenicol reduced infarct size in an
open chest rabbit model of regional ischemia.
116 g IV) 10 min before ischemia was measured in
open-chest rabbits after 30 min of regional ischemia and
117 In this
open-chest rat model, the primary pharmacologic effect o
118 In anesthetized,
open-chest rats, administration of PGE(2) (1.5 microgram
119 In anesthetized,
open-chest rats, constant infusion of PGE2 (1.5-4.5 micr
120 ry vagal C fibre afferents in anaesthetized,
open-chest rats.
121 olic and diastolic function were measured in
open-chest rats.
122 myocardial infarction, cardiogenic shock, or
open chest resuscitation.
123 An additional 7
open-chest sheep underwent these measurements with epica
124 Open-chest studies confirmed resting dysfunction compare
125 At terminal
open-chest study, left-atrial (LA) effective refractory
126 and anaesthetised human subjects undergoing
open chest surgery for coronary artery bypass grafting.
127 chemical changes in human samples undergoing
open chest surgery under hypothermic conditions when com
128 eless bioelectronics to pace the epicardium,
open-chest surgery (thoracotomy) is required to implant
129 Four patients (19%) underwent successful
open-chest surgery after failing epicardial/endocardial
130 Open-chest surgery may be required in symptomatic cases
131 urysm and may be an effective alternative to
open-chest surgery.
132 Open-chest swine, anesthetized with alpha-chloralose, un
133 lower thoracic aortic flow by using a novel
open-chest technique.
134 ) located on the ventricular epicardium of 7
open-chest,
unsupported pigs.
135 Anesthetized
open-chest Wistar rats were subjected to six different p
136 e include opioid overdose, bleeding control,
open chest wounds, spinal motion restriction, hypothermi