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1 rs; 54% women) who underwent routine 12-lead electrocardiography.
2 py as well as echocardiography and conscious electrocardiography.
3 ST-segment analysis using continuous 12-lead electrocardiography.
4 ease, regional wall motion, and quantitative electrocardiography.
5 cytes and idioventricular rhythms by in vivo electrocardiography.
6 riability was measured by 24-hour ambulatory electrocardiography.
7 ography, electrocardiography, and ambulatory electrocardiography.
8 ngina can start stress testing with exercise electrocardiography.
9 om concomitant LVH was found through resting electrocardiography.
10 hoven and Lewis dominated the early years of electrocardiography.
11 re normal, and ischemic changes were seen on electrocardiography.
12 3 respondents underwent echocardiography and electrocardiography.
13 duration of < or = 110 ms on routine 12-lead electrocardiography.
14 es the sensitivity and specificity of stress electrocardiography.
15 ce potentials defines the forward problem of electrocardiography.
16 th a right bundle branch block morphology by electrocardiography.
17      The PAC count was quantified by 24-hour electrocardiography.
18 yocardial Infarction (TIMI) risk scores, and electrocardiography.
19 terdam, the Netherlands) and high-resolution electrocardiography (1.6 kHz in orthogonal XYZ leads) wa
20  of creatine kinase (CK-MB) elevation (daily electrocardiography; 16 serial CK-MB measurements); or 2
21 ral negative T waves and low QRS voltages on electrocardiography (33%); ventricular arrhythmias (82%)
22 initial testing costs were $174 for exercise electrocardiography; $404 for CTA; $501 to $514 for phar
23 1 [-$4991 to -$4969]; P < .001) and exercise electrocardiography (-$7449 [-$7452 to -$7444]; P < .001
24 ounger than 56 years who had resting 12-lead electrocardiography, 90.5% of whom were men.
25                             We screened with electrocardiography a random sample of 4843 people from
26 t achieved by clinical assessment and stress electrocardiography alone.
27 tantial limitations of diagnostic utility of electrocardiography and chest roentgenography.
28 iver transplantation on disease progression, electrocardiography and Doppler echocardiography were pe
29 cting data on physical examination findings, electrocardiography and echocardiography results, fluid
30                                              Electrocardiography and echocardiography were performed
31                                              Electrocardiography and echocardiography with velocity v
32 ecific ischemic alterations were detected by electrocardiography and echocardiography.
33                      We performed continuous electrocardiography and electroencephalography in rats u
34                              Signal-averaged electrocardiography and EPS are more established tests u
35 lts suggest that electrical abnormalities on electrocardiography and Holter monitoring precede detect
36 ith electrical abnormalities on the basis of electrocardiography and Holter monitoring, of whom 20 (4
37                                              Electrocardiography and intracardiac electrophysiologica
38        Adverse events were assessed, as were electrocardiography and laboratory testing for cardiotox
39                                 Importantly, electrocardiography and left ventricular hemodynamics we
40 raphy, magnetic resonance imaging, and fetal electrocardiography and magnetocardiography, are availab
41 chocardiography, 12-lead and signal-averaged electrocardiography and metabolic exercise testing.
42 This process is accelerated with prehospital electrocardiography and notification.
43                                      We used electrocardiography and patch clamp techniques to examin
44 echocardiography, immediate neonatal surface electrocardiography and postnatal transesophageal electr
45 diagnostic test evidence (including exercise electrocardiography and stress echocardiography and sing
46 when combined with standard measures such as electrocardiography and the CK-MB level.
47 low-up, 30 mo); 36 of them agreed to undergo electrocardiography and transthoracic echocardiography.
48 ding written consent, each patient underwent electrocardiography and transthoracic echocardiography.V
49               The subjects underwent 12-lead electrocardiography and two-dimensional echocardiography
50 patients with both electrical abnormalities (electrocardiography and/or Holter monitoring) and abnorm
51 lysis In Myocardial Infarction (TIMI) score, electrocardiography, and 0 + 2 h values of laboratory tr
52 termined by imaging studies, signal-averaged electrocardiography, and 24-h ambulatory electrocardiogr
53 etabolic and lipid panels, echocardiography, electrocardiography, and 6-minute walk test.
54 atients were followed with echocardiography, electrocardiography, and ambulatory electrocardiography.
55 ngiography and with serial echocardiography, electrocardiography, and cardiac enzymes.
56 armacokinetics, pharmacodynamics, continuous electrocardiography, and clinical events were assessed.
57 enerations by history, physical examination, electrocardiography, and echocardiography.
58 ssessed patients by history and examination, electrocardiography, and echocardiography.
59 ntation underwent detailed clinical history, electrocardiography, and echocardiography.
60  noninvasively captured by echocardiography, electrocardiography, and magnetic resonance microscopy i
61 s, fasting glucose and insulin measurements, electrocardiography, and monitoring of vital signs and b
62 flow, thoracoabdominal bands, body position, electrocardiography, and oxygen saturation (n = 136); or
63 en present with nonspecific symptoms, normal electrocardiography, and preserved left ventricular ejec
64                                     Imaging, electrocardiography, and serum biomarkers featured heavi
65  panel consisting of pulse oximetry, 12-lead electrocardiography, and serum troponin T would have pro
66           Normalization of echocardiography, electrocardiography, and treadmill testing is expected,
67  troponin I, without new ischemic changes on electrocardiography, and who had no cardiovascular compl
68 se using ankle and brachial blood pressures; electrocardiography; and assessments of microalbuminuria
69 rea nitrogen, creatinine, and glucose tests; electrocardiography; and portable chest radiography).
70  The automated multitest laboratory provides electrocardiography, anthropometry, chest and breast x-r
71    First, history, physical examination, and electrocardiography are the core of the syncope workup (
72 ardiography, especially relative to exercise electrocardiography, are undefined.
73 vity (SGNA), vagal nerve activity (VNA), and electrocardiography before and after pacing-induced CHF.
74                                              Electrocardiography, blood pressure, and blood and urine
75 ardiography), heart rate variability (Holter electrocardiography), body composition (dual-energy x-ra
76  patients referred specifically for exercise electrocardiography, both abnormal heart rate recovery a
77 e, or orthostatic hypotension should receive electrocardiography but do not otherwise require immedia
78 us), has distinct repolarization patterns on electrocardiography, but it is not known whether the gen
79 aging, radionuclide angiography and exercise electrocardiography, but its influence on exercise echoc
80 including Rose angina questionnaire, 12-lead electrocardiography, C-reactive protein, and calculation
81 ing, two-dimensional echocardiography [2DE], electrocardiography, cardiac magnetic resonance imaging)
82                   Patients were analyzed for electrocardiography characteristics, genotype, clinical
83 compared with those of coronary angiography, electrocardiography, cine MRI, and creatine kinase measu
84 estimated how accurately resting or exercise electrocardiography classified participants into high-,
85 emental cost-effectiveness ratio of exercise electrocardiography compared with no testing was $57,700
86 eded by a standard battery of medical tests (electrocardiography, complete blood count, and measureme
87 and introduced in a 1-dimensional transmural electrocardiography computer model.
88 cise echocardiography compared with exercise electrocardiography cost $41,900 per QALY saved.
89                              However, stress electrocardiography could be cost effective in persons i
90 ) from the Common Standards for Quantitative Electrocardiography database were used to generate deriv
91 he cumulative number of 7 traits (changes on electrocardiography; decreased LV systolic, diastolic di
92                                              Electrocardiography demonstrated normalization of heart
93                                 In addition, electrocardiography demonstrated that Possum mice exhibi
94                                              Electrocardiography-derived parameters showed lower valu
95                                              Electrocardiography detected 5 additional participants w
96                        Fifth, long-term loop electrocardiography (diagnostic yield, 25% to 35%) and t
97                                     Exercise electrocardiography did not predict this mortality outco
98 ptal wall thickening, and fibrosis, although electrocardiography displayed a left axis shift of mean
99   New-onset AF was assessed and confirmed by electrocardiography during a mean follow-up of 4.7 years
100 -two patients with ICDs underwent ambulatory electrocardiography during a mental stress protocol, 3 m
101              Blood pressure was measured and electrocardiography (ECG) and echocardiography were done
102                            Rapid recovery of electrocardiography (ECG) changes during ETT was associa
103                         We sought to develop electrocardiography (ECG) criteria for distinguishing le
104                                              Electrocardiography (ECG) has limited sensitivity for de
105 w evidence on the benefits of screening with electrocardiography (ECG) in asymptomatic adults to redu
106                         Inclusion of 12-lead electrocardiography (ECG) in preparticipation screening
107          Anterior T-wave inversion (ATWI) on electrocardiography (ECG) in young white adults raises t
108                                  Importance: Electrocardiography (ECG) may detect subclinical cardiov
109 r abnormalities by using resting or exercise electrocardiography (ECG) might help identify persons wh
110 t to measure the impact of pre-hospital (PH) electrocardiography (ECG) on scene-to-hospital time for
111 onstrated late potentials on signal-averaged electrocardiography (ECG) recorded in patients with BrS.
112 embedded in electroencephalography (EEG) and electrocardiography (ECG) recordings.
113 participating in sports, the role of 12-lead electrocardiography (ECG) remains uncertain.
114 se were studied by vectorcardiography (VCG), electrocardiography (ECG), and coronary arteriography.
115 mutation carriers (n = 84) were evaluated by electrocardiography (ECG), Holter monitoring, late-enhan
116                   Subjects were evaluated by electrocardiography (ECG), Holter monitoring, signal-ave
117                           Subjects underwent electrocardiography (ECG), signal-averaged electrocardio
118  ned by cardiac magnetic resonance (CMR) and electrocardiography (ECG), with incident atrial fibrilla
119 rly stage cardiac autonomic dysfunction with electrocardiography (ECG)-based measures in MetS subject
120                           The feasibility of electrocardiography (ECG)-synchronized respiration with
121 d to patient history, clinical findings, and electrocardiography (ECG).
122 graphy alone, or cardiotocography plus fetal electrocardiography (ECG).
123                              Women underwent electrocardiography (ECG).
124 to monitor HR and cardiac electrophysiology [electrocardiography (ECG)] were exposed once by whole-bo
125 ined after standard tests, including 24-hour electrocardiography [ECG]), to undergo additional noninv
126                                              Electrocardiography, echocardiography and haemodynamic a
127  a physical examination, a chest radiograph, electrocardiography, echocardiography with detailed exam
128 nd April 2013 underwent clinical assessment, electrocardiography, echocardiography, and biomarker mea
129 oatrial node preparation, telemetric in vivo electrocardiography, echocardiography, and in vivo elect
130  cardiac amyloidosis at a single center with electrocardiography, echocardiography, and laboratory te
131 nal vascular photography, micro-albuminuria, electrocardiography, echocardiography, and plasma B-type
132          At baseline, all subjects underwent electrocardiography, echocardiography, cardiopulmonary e
133 age, 57 years; 59% women) by use of 5 tests (electrocardiography, echocardiography, carotid ultrasoun
134 cipants (mean age 58 years; 59% women) using electrocardiography, echocardiography, carotid ultrasoun
135 trio with HCM underwent clinical evaluation, electrocardiography, echocardiography, magnetic resonanc
136                                              Electrocardiography, echocardiography, serum N-terminal
137 ation (SaO2), intra-arterial blood pressure, electrocardiography (EKG), and transesophageal echocardi
138  and carotid sinus massage during continuous electrocardiography, electroencephalography and blood pr
139 dated sheep with tracheostomies monitored by electrocardiography, electroencephalography, arterial li
140    After an initial evaluation consisting of electrocardiography, electrolytes, blood urea nitrogen,
141 entral venous pressure, chest wall movement, electrocardiography, electromyography, electroencephalog
142 d by discharge summary documentation, enzyme/electrocardiography evidence of AMI, inpatient ICD-9 cod
143                         No testing, exercise electrocardiography, exercise echocardiography, exercise
144     Study subjects underwent 48-h ambulatory electrocardiography, fasting blood tests, and clinical e
145                                      Initial electrocardiography findings and cardiac biomarkers were
146 ital signs, clinical laboratory findings, or electrocardiography findings in any of the treatment gro
147 e imaging, and fetal magnetocardiography and electrocardiography for rhythm assessment.
148 ocardiography is more accurate than exercise electrocardiography for the identification of CAD in wom
149 54,800 per QALY saved compared with exercise electrocardiography for these patients.
150 mo of MPS--who were referred for rest-stress electrocardiography-gated 99mTc-sestamibi MPS with AC we
151 (MF) registration algorithms were applied to electrocardiography-gated and dual-gated data, creating
152 atients underwent contrast material-enhanced electrocardiography-gated cardiac multidetector CT.
153 d selected studies that compared prospective electrocardiography-gated coronary CT angiography with c
154 rd-approved, HIPAA-compliant study, thoracic electrocardiography-gated dual-source multidetector CT a
155 ition, and 4-bin respiration-gated and 8-bin electrocardiography-gated images (32 bins in total) usin
156 n reconstruction (HD*PET): ungated and 8-bin electrocardiography-gated images using 5-min acquisition
157 eformable, motion-coherent modeling based on electrocardiography-gated multidetector computed tomogra
158                                              Electrocardiography-gated PET imaging was performed in a
159                                         With electrocardiography-gated PET, ventricles of the heart a
160 -replenishment MCE, standard (99m)Tc-labeled electrocardiography-gated SPECT, and quantitative CA wit
161 m SPECT with both attenuation correction and electrocardiography-gating were used as a diagnostic tes
162 ent, and carotid artery ultrasound, exercise electrocardiography has been proposed as a screening too
163 ardial infarction or evidence of ischemia on electrocardiography (hazard ratio, 0.13; 95% CI, 0.04 to
164  accuracy could be inferred: signal-averaged electrocardiography; heart rate variability; severe vent
165 bining state-of-the-art cardiac imaging with electrocardiography, histopathology, and molecular analy
166 ho were randomly assigned to 24-h ambulatory electrocardiography (Holter) monitoring and who had a no
167                   The use of signal-averaged electrocardiography, Holter monitoring and assessment of
168 nsional and M-mode echocardiography, surface electrocardiography, Holter monitoring and exercise test
169  undergo another examination, which included electrocardiography, Holter monitoring, echocardiography
170 ands with sinus bradycardia were examined by electrocardiography, Holter recording, exercise stress t
171 rognostic value of preoperative quantitative electrocardiography in patients who underwent isolated c
172 ena as "Luciani periods." With the advent of electrocardiography in the early 20th century, this form
173                                Issues facing electrocardiography in the year 2000 include a shortage
174 e-vessel disease and is superior to exercise electrocardiography in this regard.
175 d electrophysiology in isolated myocytes and electrocardiography in vivo.
176                              Use of exercise electrocardiography increased by 12.5% from 2005 (861 te
177                                   Additional electrocardiography is recommended if the methadone dosa
178 objective normalization of echocardiography, electrocardiography, laboratory testing, graded exercise
179 grade flow was 180 +/- 67 min; a median of 5 electrocardiography leads showed ST-segment deviation (q
180  severe ventricular arrhythmia on ambulatory electrocardiography; left ventricular ejection fraction;
181     These findings suggest that quantitative electrocardiography may be valuable for risk stratificat
182 ntal regions' spontaneous activation, and an electrocardiography measure of PNS (high frequency heart
183                      Likewise, the advent of electrocardiography, microelectrode recordings and more
184 linded cases with rigorous, often implanted, electrocardiography monitoring.
185 m-limited exercise tests were performed with electrocardiography (n = 300) and thallium scintigraphy
186 nd hypertensive patients with LVH on resting electrocardiography (n = 36).
187 phy (CTA) or to functional testing (exercise electrocardiography, nuclear stress testing, or stress e
188 tery disease were randomized to FT (exercise electrocardiography, nuclear stress, or stress echocardi
189 mly assigned to functional testing (exercise electrocardiography, nuclear stress, or stress echocardi
190                                              Electrocardiography on isoproterenol challenged mice sho
191 rent arrhythmia per current guidelines using electrocardiography or ambulatory monitor recording and
192  was 7.9%, of which 78% were unrecognized by electrocardiography or clinical evaluation.
193                 Increased LVM as assessed by electrocardiography or echocardiography is an independen
194                                     Exercise electrocardiography or exercise echocardiography resulte
195 graphy (CTA) or functional testing (exercise electrocardiography or nuclear stress testing) from 2009
196  his findings before the benefit of clinical electrocardiography or the discovery of the sinoatrial a
197 , premature atrial complexes on preoperative electrocardiography (OR, 2.1 [CI, 1.3 to 3.4]), American
198 logic analysis, blood chemistry, urinalysis, electrocardiography, or physical examination.
199 ith incident left ventricular hypertrophy by electrocardiography over 6 years (eg, adjusted hazard ra
200                              Blood pressure, electrocardiography, oximetry, and symptoms were monitor
201  output (acetylene rebreathing), heart rate (electrocardiography), oxygen uptake (Douglas bag techniq
202 t was used to monitor pulse, blood pressure, electrocardiography, oxygen uptake, carbon dioxide outpu
203 ged electrocardiography, and 24-h ambulatory electrocardiography (p < 0.05).
204 tabolic panel component tests (P = 0.03) and electrocardiography (P = 0.04).
205 f rest echocardiography (p = 0.79), exercise electrocardiography (p = 0.38) or exercise echocardiogra
206 e facilitated by use of pre-hospital 12-lead electrocardiography (P12ECG).
207  to assess the ability of computer-simulated electrocardiography parameters to predict clinical outco
208                                 Expertise in electrocardiography, pharmacokinetics, and pharmacodynam
209 , variably including electroencephalography, electrocardiography, plethysmography, mechanical ventila
210                        The galvanometer made electrocardiography practical creating a new branch of m
211 ariate analysis model, clinical and exercise electrocardiography predictors of cardiac events were ag
212 fe support should include diagnostic 12-lead electrocardiography programs as one of their services.
213  history and underwent physical examination, electrocardiography, quality of life, and laboratory ass
214                         Steady state surface electrocardiography recordings and high-speed multiphoto
215 atio after adjustment for age, sex, exercise electrocardiography result, and secondary prevention med
216        Combined video-electroencephalography-electrocardiography revealed suppressed interictal resti
217 rdiac arrest victims with a first registered electrocardiography rhythm of ventricular fibrillation o
218 pare T-wave alternans (TWA), signal-averaged electrocardiography (SAECG) and programmed ventricular s
219 t electrocardiography (ECG), signal-averaged electrocardiography (SAECG), echocardiography, cardiac m
220         The decision to screen athletes with electrocardiography should consider age, training intens
221                                              Electrocardiography showed evidence of atrial fibrillati
222                                Additionally, electrocardiography showed that inhibition of TRPC3 chan
223 nin I assay if the CK-MB value is normal and electrocardiography shows ischemic changes; both CK-MB m
224 c screening in adults with resting or stress electrocardiography, stress echocardiography, or myocard
225 atic, low-risk adults with resting or stress electrocardiography, stress echocardiography, or stress
226  studied, using echocardiography and 12-lead electrocardiography, the phenotypic expression caused by
227 for diabetes and hyperlipidemia, and resting electrocardiography to estimate the patient's probabilit
228 functional MRI experiments with simultaneous electrocardiography to examine regional brain activity a
229 ta do not warrant screening HS athletes with electrocardiography to prevent SCD episodes.
230 SE (Practical Use of the Latest Standards of Electrocardiography) Trial was a 6-year multisite random
231 y calcium score (CS), traditionally based on electrocardiography-triggered computed tomography (CT),
232 nt of CS categories between nontriggered and electrocardiography-triggered CT (validation).
233 ronary calcium, but it does not suggest that electrocardiography-triggered CT should be replaced by n
234 e correlation in CS between nontriggered and electrocardiography-triggered CT, and to evaluate the pr
235                     The authors developed an electrocardiography-triggered M-mode navigator-echo tech
236 e3(-/-) mice using real-time qPCR, echo- and electrocardiography, ventricular myocyte patch-clamp, co
237 ill exercise; an abnormal result on exercise electrocardiography was defined by ST segment depression
238                                     Exercise electrocardiography was included only in a sensitivity a
239                                       Stress electrocardiography was more effective and less expensiv
240 trophy was present in 57.9% (77 of 133), and electrocardiography was normal in 6.8% (9 of 133).
241 patients who took placebo (P =.89); exercise electrocardiography was positive in 12 patients (11%) wh
242                  Diagnostic testing by using electrocardiography was substantially more common (112 o
243 d ischemia, assessed by echocardiography and electrocardiography, was defined as: 1) development or w
244 analyzed 146 patient-years of vital sign and electrocardiography waveform time series from the bedsid
245 ce imaging, serum biomarker measurement, and electrocardiography were compared across study cohorts.
246 myocardial infarction or ischemic changes on electrocardiography were less frequent in the PCI group
247 y (MSNA), continuous blood pressure (BP) and electrocardiography were measured at baseline, as well a
248 ure, blood pressure, heart rate, and 12-lead electrocardiography were monitored throughout the 24-hr
249 no clinical events due to QT prolongation on electrocardiography were observed, QT prolongation was r
250                         Echocardiography and electrocardiography were performed before and after trea
251                           Blood pressure and electrocardiography were recorded through 24 h to evalua
252 re measurements using a sphygmomanometer and electrocardiography, were employed by a physician to per
253 A careful history, physical examination, and electrocardiography will provide a diagnosis or determin
254                       All subjects underwent electrocardiography with a 12-lead surface, in which, al

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