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Clinical Trial Summary

In this randomized control study, the investigators intended to evaluate the influence of different anesthetics on postoperative cognitive dysfunction, neuroinflammation, CSF metabolomics, and glymphatic function in patients with normal pressure hydrocephalus for VP shunt surgery. The investigators assume that the use of dexmedetomidine infusion and proper anesthsia depth during general anesthesia, in addition to multi-model analgesia, might be helpful to enhance glymphatic function, reduce neuroinflammation, and decrease postoperative cognitive dysfunction.


Clinical Trial Description

In this prospective randomized controlled study, 48 patients with communicating hydrocephalus will be enrolled in the study and these patients will be divided into 3 groups in which intervention group received anesthesia depth monitoring (BIS group and DEX group) and dexmedetomidine infusion (DEX group), while the controlled group received usual anesthesia care without dexmedetomidine during VP shunt surgery. The participant's intraoperative CSF and plasma samples will be collected for biochemical analysis and metabolomic analysis. The investigators will use two analytical metabolomic platforms, including nuclear magnetic resonance (NMR) and liquid chromatography-mass spectrometry (LC-MS), to execute quantitative metabolomics on human CSF and plasma samples. These metabolomic data will be compared with previous established human aging CSF Metabolome Database. After VP shunt surgery, these patient's glymphatic function will be evaluated with 3T functional MRI. The postoperative cognitive function and delirium status of these patients will be evaluated for the following 3 days using MMSE score, Montreal Cognitive Assessment, and CAM-ICU score. During analysis, the pre-operative metabolomic signature of patients with postoperative cognitive dysfunction(POCD) will be compared with patients without POCD to profile the metabolomics of POCD. Besides, the investigators could examine the correlation of glymphatic function and POCD. By comparing the CSF metabolomic change in these three groups, the investigators could evaluate the the efficacy of anesthesia depth monitoring and dexmedetomidine to reduce POCD development during VP shunt surgery. The result of this study might be able to explain the brain pathophysiology of POCD, the role of glymphatic function in POCD, metabolomic signature of POCD, and establish a better anesthesia regimen to reduce the development of POCD. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT06005363
Study type Interventional
Source Chang Gung Memorial Hospital
Contact Huan-Tang Lin, MD
Phone +886-33281200
Email sanctuary12@cgmh.org.tw
Status Recruiting
Phase N/A
Start date July 1, 2023
Completion date June 30, 2026