Clinical and economic value of bispectral index monitoring for adequate endoscopic sedation

Bispectral index monitoring for sedation

Article information

Clin Endosc. 2022;55(4):518-519

Publication date (electronic) : 2022 July 13

doi : https://doi.org/10.5946/ce.2022.110

Division of Gastroenterology, Department of Internal Medicine, Hallym University Dongtan Sacred Heart Hospital, Hallym University College of Medicine, Hwaseong, Korea

Correspondence: Se Woo Park Division of Gastroenterology, Department of Internal Medicine, Hallym University Dongtan Sacred Heart Hospital, Hallym University College of Medicine, 7 Keunjaebong-gil, Hwaseong 18450, Korea E-mail: mdsewoopark@gmail.com

Received 2022 March 28; Revised 2022 March 30; Accepted 2022 March 30.

See the letter "Bispectral index-guided propofol sedation during endoscopic ultrasonography" on page 558.

I read the paper by Okamoto et al.,1 titled “Bispectral index-guided propofol sedation during endoscopic ultrasonography” published in this issue of Clinical Endoscopy, with great interest. The authors concluded that bispectral index (BIS) monitoring provides maintenance of a constant and optimal level of sedation depth, and titration for sedatives. However, they could not provide additional clinical benefits, including a reduction in cardiopulmonary adverse events derived from over-sedation.

The major components of safe and effective sedation monitoring include direct visual monitoring and physiological monitoring of hemodynamics and the depth of sedation of the patient. Direct visual monitoring may include close observation of respiratory patterns, movement of the chest wall, changes in skin color, and involuntary motion or facial expressions as a reflection of painful stimuli.2 In all cases of endoscopic sedation, direct visual monitoring should begin immediately before the administration of sedatives and continue throughout the procedure until full recovery by an endoscopist or a well-trained assistant. Physiological monitoring may be classified as the monitoring of hemodynamics (e.g., heart rate, blood pressure, and electrocardiography), oxygenation (e.g., pulse oximetry), ventilation (e.g., pulse oximetry, capnography, transcutaneous carbon dioxide monitoring, and respiratory volume monitors), and the depth of sedation (e.g., direct clinical assessment, BIS monitoring, and auditory evoked potentials).

BIS monitoring is a non-invasive, objective method for determining the level of consciousness based on a series of continuous electroencephalogram parameters. In clinical practice, BIS monitoring appears to be a safe and effective method for avoiding excessive consumption of sedatives and providing adequate sedation during endoscopic procedures.3 However, the results regarding the accuracy and clinical efficacy of BIS monitoring are conflicting. First, there is no optimal cut-off value for the BIS level for achieving appropriate sedation. Therefore, it can lead to difficulties in the correlation between BIS levels and formal sedation scales (e.g., modified observer assessments of alertness/sedation scores).4 Second, several concerns regarding the clinical role of BIS monitoring during endoscopic sedation remain. Many studies5-8 have reported a significant reduction in sedative consumption and recovery time, as well as sedation-related adverse events when the BIS score is used as the primary target for sedation in procedures. However, contrary to this, our group identified that BIS monitoring did not result in clinical benefits, including improvement of oxygenation and reduction of cardiopulmonary adverse events. Therefore, the clinical beneﬁts in daily practice may be limited.3 Overall, the results from the study by Okamoto et al.1 are in concordance with ours. We performed a meta-analysis of 1,039 patients (526 in the BIS group and 513 in the non-BIS group) through 11 randomized controlled trials. A significant reduction in the total propofol consumption was found in the BIS group, although the mean consumption of propofol was not different. Furthermore, recovery time, procedure time, sedation-related adverse events, and even satisfactory outcomes were not signiﬁcantly superior in the BIS group than in the non-BIS group. This phenomenon may be mainly attributed to the substantial and potential time lag between the initiation of a decline in the BIS score below a specific level and the respective clinical signs, which is indicative of an unstable hemodynamic status derived from excessive sedation.9

Consequently, recommendations for optimal sedation monitoring should be designed to prevent sedation-related adverse events by minimizing sedative consumption and early detection of over-sedation. Although the supporting evidence to date is limited, close patient monitoring through visual assessment (e.g., coughing, cyanosis, and limb movement) and physiological parameters (e.g., vital signs and oxygen saturation measured by pulse oximetry) are the most important and reliable methods for the prevention of sedation-related adverse events. Medical instruments can serve as a foundation for effective monitoring, but they can never entirely replace the skilled medical staff, who can immediately recognize early indications of adverse events and initiate an adequate response.10

Notes

Conflicts of Interest

The author has no potential conflicts of interest.

Funding

None.

References

1. Okamoto A, Kamata K, Miyata T, et al. Bispectral index-guided propofol sedation during endoscopic ultrasonography. Clin Endosc 2022;55:558–563.

2. Mahmud N, Berzin TM. Extended monitoring during endoscopy. Gastrointest Endosc Clin N Am 2016;26:493–505.

3. Park SW, Lee H, Ahn H. Bispectral index versus standard monitoring in sedation for endoscopic procedures: a systematic review and meta-analysis. Dig Dis Sci 2016;61:814–824.

4. Bower AL, Ripepi A, Dilger J, et al. Bispectral index monitoring of sedation during endoscopy. Gastrointest Endosc 2000;52:192–196.

5. von Delius S, Salletmaier H, Meining A, et al. Bispectral index monitoring of midazolam and propofol sedation during endoscopic retrograde cholangiopancreatography: a randomized clinical trial (the EndoBIS study). Endoscopy 2012;44:258–264.

6. Jang SY, Park HG, Jung MK, et al. Bispectral index monitoring as an adjunct to nurse-administered combined sedation during endoscopic retrograde cholangiopancreatography. World J Gastroenterol 2012;18:6284–6289.

7. Paspatis GA, Chainaki I, Manolaraki MM, et al. Efficacy of bispectral index monitoring as an adjunct to propofol deep sedation for ERCP: a randomized controlled trial. Endoscopy 2009;41:1046–1051.

8. Park WY, Shin YS, Lee SK, et al. Bispectral index monitoring during anesthesiologist-directed propofol and remifentanil sedation for endoscopic submucosal dissection: a prospective randomized controlled trial. Yonsei Med J 2014;55:1421–1429.

9. DeWitt JM. Bispectral index monitoring for nurse-administered propofol sedation during upper endoscopic ultrasound: a prospective, randomized controlled trial. Dig Dis Sci 2008;53:2739–2745.

10. Cohen LB. Patient monitoring during gastrointestinal endoscopy: why, when, and how? Gastrointest Endosc Clin N Am 2008;18:651–663.

Article information Continued

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.