We used a pulsed Doppler technique to examine the flow velocity pattern in the right ventricular outflow tract in 33 adults. In the patients with normal pulmonary artery pressure (mean pressure < 20 mm Hg, 16 patients), ejection flow reached a peak level at midsystole (137 + 24 msec, mean + SD), producing a domelike contour of the flow velocity pattern during systole. In contrast, the flow velocity pattern in patients with pulmonary hypertension (mean pressure ¢ 20 mm Hg,17 patients) was demonstrated to accelerate rapidly and to reach a peak level sooner (97 + 20 msec, p < .01); in 10 of the pulmonary hypertensive patients a secondary slower rise in flow velocity was observed during a deceleration, resulting in the midsystolic notching. The time to peak flow (acceleration time, AcT) and right ventricular ejection time (RVET) were measured from the flow velocity pattern. Either AcT or AcT/RVET decreased with increase in mean pulmonary artery pressure, and a very high correlation (r = -.90) was found between AcT/RVET and log,0 (mean pulmonary artery pressure). The use of this technique permitted the noninvasive estimation of the pulmonary artery pressure. Circulation 68, No. 2, 302-309, 1983. NONINVASIVE evaluation of pulmonary hypertension has been an important clinical problem for many years. The presence of pulmonary hypertension has been assessed by abnormalities in heart sounds,' in electrocardiographic tracings, or in chest x-rays,2 but to date, the accurate measurement of the pulmonary artery pressure requires the use of cardiac catheterization procedures. The development of echocardiographic techniques has allowed the investigation of pulmonic valve motion,3 which represents some characteristic abnormalities associated with pulmonary hypertension, such as rapid opening slope in systole,j5 attenuation or absence of the "a" dip,' prolongation of the ratio of right ventricular preejection period (RPEP) to right ventricular ejection time (RVET),57 and midsystolic semiclosure of pulmonic valve.)6 A recent experimental study8 emphasized that these abnormalities of the pulmonic valve motion were determined by abnormal flow changes in the pulmonary artery. However, flow characteristics with regard to pulmonary artery pressure either in the pulmonary artery or in the right ventricular outflow tract have not been successfully studied in man. Our objectives were to study the blood flow characteristics in the right ventricular outflow tract in patients with pulmonary hypertension by a pulsed Doppler technique9-I and to develop an index that would permit quantitative evaluation of pulmonary hypertension by noninvasive methods.
Materials and methodsPatient selection. Thirty-eight patients admitted for diagnostic catheterization were examined by a pulsed Doppler technique. Five patients were excluded in whom Doppler recordings of flow velocity in the right ventricular outflow tract were not satisfactorily obtained because of poor penetration of ultrasound through the chest wall. Doppler examination was perfor...
Backgrounds: Several studies have shown the serum high sensitive cardiac troponin I (hs-TnI) a biomarker of myocardium injury, and C-reactive protein (CRP), a biomarker of inflammation, are associated with worse cardiovascular outcomes. We evaluated the relationship between the hs-TnI level in patients with paroxysmal atrial fibrillation (PAF) after pulmonary vein isolation (PVI) and atrial fibrillation (AF) recurrence.
Methods and Results:We enrolled 263 consecutive PAF patients who underwent PVI from May 2017 to April 2018. We investigated the difference in the relationship between the myocardial injury marker (serum hs-TnI), inflammatory marker (CRP, white blood cell) at 36 to 48 hours after the PVI, and early or late recurrence of AF (ERAF; <3 months and LRAF; from 3 months to 1 year) between the radiofrequency ablation group (R group) and cryoballoon ablation group (C group). The R group consisted of 147 patients and the C groups consisted of 116 patients. The serum hs-TnI level in R group was significantly lower than in the C group (2.33 vs 5.08 ng/mL; P < .001), while the CRP was significantly higher in the R group than C group (2.02 vs 1.10 mg/dL; P < .001). The incidences of an ERAF/LRAF were similar between the two groups.Conclusion: Cryoballoon ablation may cause more myocardial injury than radiofrequency catheter ablation, on the contrary, radiofrequency catheter ablation, may cause more inflammation than cryoballoon ablation. However, these phenomena may not affect the recurrence of AF after the PVI in patient with PAF.
K E Y W O R D Shigh-sensitive cardiac troponin-T, inflammation, myocardial injury, paroxysmal atrial fibrillation, pulmonary vein isolation, recurrence of AF
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