Evaluation of optic nerve sheath diameter in patients undergoing robotic hysterectomy in steep Trendelenburg position compared to open abdominal hysterectomy in supine position: A randomized controlled trial

Background and Aims: Raised intracranial pressure (ICP) is believed to be one of the side effects of prolonged Trendelenburg position in robotic gynecologic surgeries. Optic nerve sheath diameter (ONSD) corresponds to a rise in ICP. However, the data from robotic hysterectomy surgeries is limited. S...

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Bibliographic Details
Published in:Journal of anaesthesiology, clinical pharmacology clinical pharmacology, 2025-01, Vol.41 (1), p.133-139
Main Authors: Singla, Deepak, Mageshwaran, T, Payal, Yashwant S, Thakuria, Ruma, Shrestha, Kajal
Format: Article
Language:English
Subjects:
Comparative analysis
Health aspects
Heart beat
Hysterectomy
Medical research
Medicine, Experimental
Robotic surgery
Women
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Summary:Background and Aims: Raised intracranial pressure (ICP) is believed to be one of the side effects of prolonged Trendelenburg position in robotic gynecologic surgeries. Optic nerve sheath diameter (ONSD) corresponds to a rise in ICP. However, the data from robotic hysterectomy surgeries is limited. So, we had planned this study with an aim to detect and compare the change in ONSD during prolonged steep Trendelenburg position in robotic hysterectomy compared to open total abdominal hysterectomy in a supine position. Material and Methods: This was a prospective, observational, parallel-group, single-center study. Patients undergoing elective robotic hysterectomy and open total abdominal hysterectomy were included in this study. ONSD, end-tidal carbon dioxide (EtCO[sub.2]), heart rate, and mean arterial pressure were assessed in both the groups after intubation (T0), after steep Trendelenburg position (T1), at 30 min (T2), 90 min (T3), and 180 min after docking (T4), and at the completion of surgery (de-docking) (T5). In patients undergoing open hysterectomy, the same parameters were recorded immediately after intubation (T0), at skin incision (T1), at 30 min (T2), 90 min (T3), and 180 min after skin incision (T4), and at the completion of surgery (T5). Results: Compared to the patients undergoing open hysterectomy, robotic hysterectomy patients had a significantly higher ONSD at time points T2, T3, and T4, with the maximum difference noted at the time point T4. EtCO[sub.2] was higher in patients undergoing robotic hysterectomy, though the difference was significant only at time point T2. No patient in our study had any symptom or sign of raised ICP in the postoperative period. Conclusion: The steep Trendelenburg position used in robotic hysterectomy causes a significant increase in ONSD intraoperatively, and that the changes are reversible after the procedure. Further, we did not observe any complication of raised ICP postoperatively. Keywords: Adverse effects, hysterectomy, intracranial pressure, optic nerve, robotic surgical procedure
ISSN:0970-9185
2231-2730
DOI:10.4103/joacp.joacp_348_23