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THE EFFECTS OF SEDATIVE AGENTS USED IN INTENSIVE CARE UNIT ON QT INTERVAL

Yıl 2017, , 417 - 429, 28.03.2017
https://doi.org/10.7197/cmj.v39i1.5000208784

Öz

ABSTRACT

Objective: The aim of this research is the effects of sedative drugs which are used on intensive care unit (ICU) patients on QT interval.

Materials and Methods: After ethics committee and patient’s relative’s approval, 90 patients who are age of 30-90 hospitalized at ICU due to respiratory insufficiency and connected to mechanic ventilator. Only patients that have sedative requirement were included in this research. Patients that have instabil hemodynamia, acquired or congenital long QT syndrome, electrolyte imbalance and patients that have anticholinergic, antiarythmic, vasopressor, vasodilatator and hypotensive drug treatments were not included in the research. Also, patients that haven’t the relative’s approval were not included in the research. Patients that have conscious changes, hemodynamic instability, endotracheal tube changing requirement, anticholinergic, antiarythmic, vasopressor and vasodilatator drug requirement during the research were removed from the research. After the respiratory and cardiac monitorizations were enabled on patient with respiratory insufficiency in ICU, 12 derivations ECG’s were recorded, systolic blood pressure (SBP), diastolic blood pressure(DBP), mean arterial blood pressure(MABP), heart rate(HR) and peripheric oxygen saturation (SpO2) values were recorded simultaneously. These values were used as base. At 1st and 12th hours of sedation (midazolam, propofol or dexmedetomidin), 12 derivations ECG’s were recorded and again, SBP, DBP, MABP, HR and SpO2 values were recorded. ECG’s were recorded at the speed of 25mm/s and at the height of 1 mV. Among the derivations in ECG recordings, the longest QT interval was measured by 2 anesthesiologists who don’t know the groups and by measuring the RR interval on the same derivation, QTc (corrected QT) interval was measured with Bazzet formula .(QTc=QT intervali / √ RR interval) .Measured QT and QTc values were recorded.

Results: Among the groups, there was no difference in terms of age, Glasgow Coma Scale and sex. (p>0,05). When the effect of sedation type on HR, MABP and SpO2 was investigated, there was no significant difference in terms of HR, MABP, SpO2 at 0th and 1st hours among different sedative drugs (p>0,05). When HR’s at 12th hour were evaluated, HR at dexmedetomidin group was lower than both midazolam and propofol groups’ HR and this was statistically significant (p<0,05). When MABP’s at 12th hour were evaluated, MABP in propofol group was lower than dexmedetomidin group and this was statistically significant (p<0,05). When SpO2 values at 12th hour were evaluated, SpO2 values in midazolam group was significantly lower than the other 2 groups’ SpO2 values. (p<0,05). When the effect of sedation type on QT and QTc interval was evaluated; there was no significant difference among different sedative agents at 0th hour for QT interval, 0th and 1st hour for QTc interval (p>0,05). For QT interval; dexmedetomidin prolonged the interval more than the other 2 agents both at 1st and 12th hours and this was statistically significant (p<0,05). There was statistically significant difference in QT intervals between propofol and midazolam groups at 12th hours (p<0,05). When QTc intervals were evaluated; only QTc values at 12th hour were different between different sedative agents and the QTc values in these groups belong to these different sedative agents were different each other and this was statistically different (p<0,05). Dexmedetomidin prolonged QTc mostly however propofol shows favorable efficacy by shortening the QTc interval.

Conclusion: Monitorization is necessary for using sedative agents in ICU because these agents can cause cardiac and respiratory changes. Dexmedetomidin is superior to propofol because it causes less hypotension. In our opinion, propofol is a good alternative sedative agent for dexmedetomidin and midazolam in patients with long QT interval because it shortens the QT interval however dexmedetomidin and midazolam can cause cardiac arrhythmia by prolonging QT interval. When making drug choice for sedation in ICU, patient’s clinical situation, hemodynamic parameters and cardiac monitorization must be considered.

Keywords: Propofol, midazolam, dexmedetomidine, sedation, QT interval.

Yıl 2017, , 417 - 429, 28.03.2017
https://doi.org/10.7197/cmj.v39i1.5000208784

Öz

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Ayrıntılar

Konular Sağlık Kurumları Yönetimi
Bölüm Surgical Science Research Makaleler
Yazarlar

ONUR Avcı

SİNAN Gürsoy

Kenan Kaygusuz

İclal Özdemir Kol

Cevdet Düğer

Ahmet Cemil İsbir

Mehmet Caner Mimaroğlu

Yayımlanma Tarihi 28 Mart 2017
Yayımlandığı Sayı Yıl 2017

Kaynak Göster

AMA Avcı O, Gürsoy S, Kaygusuz K, Özdemir Kol İ, Düğer C, İsbir AC, Mimaroğlu MC. THE EFFECTS OF SEDATIVE AGENTS USED IN INTENSIVE CARE UNIT ON QT INTERVAL. CMJ. Mart 2017;39(1):417-429. doi:10.7197/cmj.v39i1.5000208784