In this study, participants aimed to compare the effects of direct laryngoscopic endotracheal intubation and videolaryngoscopic intubation with C-MAC videolaryngoscope and McGrath videolaryngoscope on intraocular pressure and hemodynamics.
The maintenance of airway opened is one of the main responsibility of the anesthetist. Intubation procedure during anesthesia application benefits such as airway opening, airway and breathing control, aspiration hazard, respiratory effort and dead space reduction, surgical comfort and airway control during resuscitation. Laryngoscopy and tracheal intubation increases in heart rate, blood pressure and the intraocular pressure. The sympathetic-adrenal activity caused by the stimulation of the laryngeal and tracheal tissues is responsible for these negative effects. Endotracheal intubation with videolaryngoscopy is an alternative method used in airway management. Laryngoscopy and tracheal intubation under general anesthesia and laryngeal mask and airway control techniques cause different hemodynamic and catecholamine levels.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
3
Endotracheal intubation was applied by anesthesiologist wtih direct laryngoscope. SAP (systolic arterial pressure), DAP (diastolic arterial artery pressure), MAP (mean arterial pressure) were measured before and 5 minutes after intubation, , Heart rate (HR), SPO2 (oxygen saturation by pulse oximetry), PI (perfusion index), and intraocular pressure values measured by the eye clinician using the device.
Endotracheal intubation was applied by anesthesiologist wtih direct laryngoscope. SAP (systolic arterial pressure), DAP (diastolic arterial artery pressure), MAP (mean arterial pressure) were measured before and 5 minutes after intubation, , Heart rate (HR), SPO2 (oxygen saturation by pulse oximetry), PI (perfusion index), and intraocular pressure values measured by the eye clinician using the device.
Inonu University Medical Faculty
Malatya, Turkey (Türkiye)
intraocular pressure
The relevant values will be measured in the determined time.
Time frame: From beginning of Anesthesia to 10th minute of surgery
mean arterial pressure
The relevant values will be measured in the determined time.
Time frame: From beginning of Anesthesia to 10th minute of surgery
systolic arterial pressure
The relevant values will be measured in the determined time.
Time frame: From beginning of Anesthesia to 10th minute of surgery
diastolic arterial pressure
The relevant values will be measured in the determined time.
Time frame: From beginning of Anesthesia to 10th minute of surgery
heart rate
The relevant values will be measured in the determined time.
Time frame: From beginning of Anesthesia to 10th minute of surgery
peripheral oxygen saturation
The relevant values will be measured in the determined time.
Time frame: From beginning of Anesthesia to 10th minute of surgery
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Endotracheal intubation was applied by anesthesiologist wtih direct laryngoscope. SAP (systolic arterial pressure), DAP (diastolic arterial artery pressure), MAP (mean arterial pressure) were measured before and 5 minutes after intubation, , Heart rate (HR), SPO2 (oxygen saturation by pulse oximetry), PI (perfusion index), and intraocular pressure values measured by the eye clinician using the device.