Ayhan Cosgun scite author profile

There was a positive correlation between mean platelets volume and loss in luminal diameter between post-angioplasty and follow-up angiographies (r = +2.345, p = 0.01). There was no association between restenosis and haemoglobin, haematocrit, red cell count, white cell count, platelet count, platelet mass and plasma fibrinogen level. The development of restenosis after successful coronary angioplasty may be mainly influenced by the platelet size.

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Weekly Variation of the QT Dispersion in Healthy Subjects and in Patients with Coronary Heart Disease

Oren

Cosgun

2006

Cardiology

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Background: A circadian and seasonal variation of QT dispersion (QTd) has been shown in healthy individuals. Nevertheless, no data exist regarding the weekly influences on the QTd in healthy individuals and in patients with coronary heart disease (CHD). Design: This study was designed to determine whether there is a weekly variability of QTd in healthy individuals and in patients with CHD. Methods: In this prospective registry study, 53 patients with documented CHD and 57 healthy control subjects were involved. Resting electrocardiograms (ECGs) with double amplitude were recorded at a speed of 50 mm/s on Monday and Friday mornings. QT intervals were measured and QTd were determined by calculating the difference between maximum and minimum QT intervals. Then, rate-corrected QTd (QTcd) were calculated using Bazett’s formula. Results: There was a significant weekly variation of QTd in control subjects (39.3 ± 6.3 vs. 36.2 ±6.1 ms) (p < 0.05) and in patients (56 ± 7.3 vs. 47.4 ± 5.4 ms) (p < 0.0001). There was also a significant weekly variation of QTcd both in control subjects (33 ± 5.3 vs. 30.7 ± 5.6 ms) (p < 0.05) and in patients (47.4 ± 6.4 vs. 41.9 ± 5.4 ms) (p < 0.0001). Conclusions: There is a weekly variation of QTd and QTcd in healthy individuals and in patients with CHD, both with a Monday preference. This fact should be taken into consideration during the chronopharmacological treatment or advisal of primary or secondary preventive measures to these subjects or patients.

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Variation of Tpeak‐end, corrected Tpeak‐end, QT, and corrected QT intervals, Tpeak‐end/QT, Tpeak‐end/corrected QT ratios and heart rate variability according to decades in the healthy male subjects aged between 30 and 79 years

Cosgun

Oren

2020

Journal of Arrhythmia

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This is an open access article under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non-commercial and no modifications or adaptations are made. AbstractBackground: Heart rate variability (HRV) is a predictor of cardiac autonomic functions. Ventricular repolarization markers can indicate ventricular arrhythmias. We aimed to evaluate variations of HRV and these repolarization markers in five healthy male groups between age 30 and 79 years according to decades. Materials and Methods:The study group consisted of 500 healthy male subjects between October 2018 and May 2019. The male subjects were divided into five categories according to their ages. Then, electrocardiograms (ECG), transthoracic echocardiograms (TTE), and treadmill exercise test (TET) were performed. T-wave peak-end (Tp-e) interval was defined as the time between the peak point and end of T-wave. Tp-e, corrected Tp-e (cTp-e), QT, and corrected QT (QTc) were measured from the resting ECGs and HRV temporal parameters (SDNN, SDNN Index, SDANN Index, RMSSD, sNN50, and pNN50), and HRV frequency parameters (VLF, LF, HF, and LF/HF) were obtained from 24-hour Holter monitorization recordings. One-way ANOVA test was used for the differences between the groups. Pearson correlation test was used to determine the correlations between the values of all groups. Results:Considering the repolarization parameters, there are significant differences in five groups in terms of Tp-e interval, but not Tp-e/QT and Tp-e/QTc ratios.Considering the HRV parameters, there were statistically significant differences between the five male healthy groups in terms of HRV temporal parameters and there are no significant differences in terms of HRV frequency parameters. Conclusion:As the age increases, basal Tp-e interval increases and HRV temporal parameters decrease significantly in the male subjects aged between 30 and 79 years, but HRV frequency parameters do not change. K E Y W O R D Shealthy male subjects, heart rate variability, Tp-e interval, Tp-e/QT ratio, Tp-e/QTc ratio, variation according to decades | 509 COSGUN aNd OREN

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Variation of the T‐wave peak‐end interval and heart rate variability values in healthy males and females at various hours of the same day, and relationship of them

Cosgun

Oren

2020

Journal of Arrhythmia

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Absolute power of the low-frequency band (0.04-0.15 Hz); LF/HF, Ratio of LF-to-HF power; LV, Left ventricle; pNN50, Percentage of successive RR intervals that differ by more than 50 ms; QTc, Corrected QT; RMSSD, Root mean square of successive RR interval differences; SCD, Sudden Cardiac Death; SDANN Index, Standard deviation of the average NN intervals for each 5 min segment of a 24 h heart rate variability recording; SDNN Index, Mean of the standard deviations of all the NN intervals for each 5 min segment of a 24 h heart rate variability recording; SDNN, Standard Deviation of all NN intervals; TC, Total Cholesterol; Tp-e, T peak-end; TSH, Thyroid Stimulating Hormone; TTE, Transthoracic Echocardiography; VLF, Absolute power of the very-low-frequency band (0.0033-0.04 Hz). Abstract Background: The prolongation of repolarization time between the myocardial epicardium and endocardial cells is closely related to malignant ventricular arrhythmias. The purpose of our study was to compare repolarization markers, namely, T-wave peak-end interval (Tpe), QT, corrected QT (QTc), Tp-e/QT, Tp-e/corrected QT (QTc), and Heart Rate Variability (HRV) values in healthy men and women and to investigate their daily variations.Methods: A total of 74 male and 78 female participants, being a government employee, and having no health problems, were included in the two study groups (males and females). A 24-hour, 12-lead Holter monitoring was performed on the volunteers. Then, the Tp-e interval and QT interval were measured on recordings. cTp-e and QTc were calculated by the use of Bazzet's formula. Results:There was no statistically significant difference between the groups in the cTp-e interval at 07.00 pm; however, it was significantly lower in the female group as compared with the male group at 07.00 am and 01.00 pm. It was significantly higher in the female group at 01.00 am compared with the male group. There were statistically significant moderate negative correlations between Tp-e intervals and a standard deviation of between two normal beats interval (SDNN) values at various hours of the same day.Conclusion: There were statistically significant differences in terms of Tp-e and cTp-e intervals at various hours of the same day in both groups. In addition, there were statistically significant moderate negative correlations between Tp-e intervals and SDNN at various hours of the same day. K E Y W O R D Sdaily variation, heart rate variability, Tp-e interval, Tp-e/QTc, Tp-e/QT

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The relationship between systolic pulmonary arterial pressure and Tp‐e interval, Tp‐e/QT, and Tp‐e/QTc ratios in patients with newly diagnosed chronic obstructive pulmonary disease

Cosgun

Oren

Türkkanı

2019

Noninvasive Electrocardiol

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Introduction: The risk of sudden cardiac death (SCD) and arrhythmias has been shown to be common in chronic obstructive pulmonary disease (COPD) subjects. We aimed to evaluate the markers of arrhythmia such as QT, QTc (corrected QT), Tp-e, and cTp-e (corrected Tp-e) intervals, Tp-e/QT ratio, and Tp-e/QTc ratio in newly diagnosed COPD subjects in both right and left precordial leads. Materials and Methods: The study group consisted of 74 subjects with obstructive respiratory function tests (RFTs). The control group consisted of 78 subjects who had nonobstructive RFTs. RFTs, electrocardiograms (ECG), and transthoracic echocardiograms (TTE) were performed, and QTR (QT interval in right precordial leads), QTL (QT interval in left precordial leads), Tp-eR (Tp-e interval in right precordial leads), and Tp-eL (Tp-e interval in left precordial leads) intervals; systolic pulmonary arterial pressure (sPAP); forced expiratory volume in one second (FEV 1)/forced vital capacity (FVC); and peripheral oxygen saturation(POS) values were measured. Results: Tp-eR interval 85.82 ± 5.34 millisecond (ms) versus 62.87 ± 3.55 ms (t = 31.29/p < .00001), cTp-eR interval 97.51 ± 7.18 ms versus 71.07 ± 4.58 ms (t = 27.20/p < .00001), Tp-eR/QTR ratio 0.234 ± 0.02 versus 0.164 ± 0.01 (t = 2.2/p = .014), and Tp-eR/QTcR ratio 0.201 ± 0.01 versus 0.141 ± 0.01 (t = 1.92/p = .028) were statistically significantly higher in COPD subjects. There was a strong negative correlation between RFT and sPAP (sPAP, 29.93 ± 5.1 mm Hg; and FEV 1 /FVC, 63.78 ± 3.33%, r = −.85/p < .00001). There was a moderate positive correlation between sPAP and Tp-eR. Conclusion: We found Tp-e and cTp-e intervals, Tp-e/QT ratio, and Tp-e/QTc ratio were significantly higher in the COPD patients than in the control group. In addition, in the COPD group, heart rate variability (HRV) parameters were significantly lower on ECG.

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Ayhan Cosgun

Influence of haematological parameters before coronary angioplasty on subsequent restenosis

Weekly Variation of the QT Dispersion in Healthy Subjects and in Patients with Coronary Heart Disease

Variation of Tpeak‐end, corrected Tpeak‐end, QT, and corrected QT intervals, Tpeak‐end/QT, Tpeak‐end/corrected QT ratios and heart rate variability according to decades in the healthy male subjects aged between 30 and 79 years

Variation of the T‐wave peak‐end interval and heart rate variability values in healthy males and females at various hours of the same day, and relationship of them

The relationship between systolic pulmonary arterial pressure and Tp‐e interval, Tp‐e/QT, and Tp‐e/QTc ratios in patients with newly diagnosed chronic obstructive pulmonary disease

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