Objective: This study investigates the impact of carbon dioxide (CO2) pneumoperitoneum on optic nerve sheath diameter (ONSD) and intracranial pressure (ICP) in patients undergoing total laparoscopic hysterectomy. Previous research suggests that pneumoperitoneum can lead to elevated ICP, with the standard intracranial monitoring technique being invasive intraventricular catheter placement. In contrast, bedside ultrasound assessment of ONSD offers a noninvasive alternative for detecting increased ICP. Methods: The Hypothesize will be standard gas insufflation pressure significantly increases ONSD, while low-pressure insufflation will maintain ONSD levels. The primary aim is to compare ONSD variations pre- and post-CO2 insufflation in patients subjected to both low-pressure and standard-pressure laparoscopic surgery. Secondary aims include evaluating end-tidal CO2 measurements between the two groups.
It has been shown in many studies that pneumoperitoneum containing carbon dioxide (CO2) during laparoscopy increases intracranial pressure (ICP). (1) Evaluation of the Effect of Intraabdominal Pressure on Optic Nerve Sheath Diameter in Patients Undergoing Total Laparoscopic Hysterectomy. The standard technique for monitoring ICP is the placement of an intraventricular catheter connected to an external pressure transducer. (2) Bedside evaluation of optic nerve sheath diameter (ONSD) with ultrasound technique is a more practical and noninvasive method used to determine high ICP (\>20 mmHg). The anatomical continuity of the dura with the optic nerve sheath (ONSD) allows the use of this technology, and thus an increase in ICP can be transmitted from the subarachnoid space to the ONSD. (3) Low-pressure pneumoperitoneum reduces analgesic consumption after laparoscopic cholecystectomy in studies, but the effect of standard and low intraabdominal pressures on ICP has not yet been clarified. (4) In our thesis, assuming that standard gas insufflation pressure will increase ONSD, but low gas insufflation pressure will not cause a change, the primary aim was to compare ONSD between two groups of low-pressure and standard-pressure laparoscopic surgery before and after CO2 insufflation preoperatively. Second, the end-tidal CO2 measurements between the two groups will be evaluated.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
DIAGNOSTIC
Masking
SINGLE
Enrollment
30
Written consent will be obtained before the randomized study. Randomization will be done on the computer using a software program. Participants will be divided into two groups. Patients in Group S will undergo laparoscopy under standard pressures (12-16 mmHg) in laparoscopic surgery, while patients in Group L will undergo laparoscopy under low pressure (8-10 mm Hg).
Konya City Hospital
Konya, Meram, Turkey (Türkiye)
Yasin Tire
Konya, Meram, Turkey (Türkiye)
Optic nerve sheath diameter
For the measurement of ONSD (Optic Nerve Sheath Diameter) a portable, software controlled, ultrasonographic system (Micromax Ultrasound System, SonoSitelnc. Bothell, Washington, USA) 13-6 MHz 38 mm wide band linear array transducer will be used. The probe positioning will be done in the axial plane over the closed eye and ONSD will be determined by the two hyperechoic lines on the back. The outer limits will be determined by electronic calipers as hyperechoic lines behind the 3 papillae. Measurements will be taken from each eye in all patients. In order to neutralize the intraoperative variability, the average of these measurements will be taken.
Time frame: 5 min after intubation (T1). Intra-abdominal 10 min (T2) and 10 min after positioning (T3)
CO2 measurements
Secondary will be the evaluation of end tidal CO2 measurements between the two groups.
Time frame: after 5 minutes (T1) 10 minutes (T2), 10 minutes after position (T3)
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