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Effects of premedication with oral hydroxyzine on patient motion during inhalation of 32% xenon for regional cerebral blood flow mapping.
Author: CailléJ M, DoussetV, MauretteP, SesayM, TanakaA
Original Abstract of the Article :
Because of its anesthetic properties, inhalation of 30-35% Xenon is associated with uncontrolled patient motion in 3-15% of the cases. This constitutes a major setback to regional cerebral blood flow studies with Xenon-enhanced computed tomography (Xe-CT CBF). The present study attempted to determin...See full text at original site
Dr.Camel's Paper Summary Blogラクダ博士について
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引用元:
https://pubmed.ncbi.nlm.nih.gov/10750335
データ提供:米国国立医学図書館(NLM)
Xenon Inhalation: A Smooth Ride Through the Desert of Brain Imaging
Xenon, a noble gas, is a powerful tool in medical imaging, particularly in regional cerebral blood flow mapping. However, like a desert wind that can sometimes disrupt travel plans, xenon inhalation can lead to uncontrolled patient motion, posing a challenge for accurate imaging. This study explores the potential benefits of hydroxyzine, an antihistamine with calming properties, in preventing motion during xenon inhalation. Think of hydroxyzine as a desert oasis, offering a sense of calm and stability to patients undergoing xenon inhalation.
The researchers conducted a study comparing the effects of hydroxyzine, at different doses, to placebo in patients undergoing xenon inhalation. They discovered that hydroxyzine, particularly at a lower dose, significantly reduced patient motion during xenon inhalation, facilitating more accurate brain imaging.
Hydroxyzine: A Potential Solution to Motion Artifacts
This study suggests that hydroxyzine could be a valuable tool for improving the accuracy of brain imaging using xenon inhalation. Think of hydroxyzine as a calming desert breeze, helping patients stay still during xenon inhalation, creating a smoother journey for the brain imaging process.
Brain Imaging: A Window into the Mind
Brain imaging techniques like xenon inhalation provide valuable insights into brain function and structure. This study highlights the importance of minimizing motion artifacts during these procedures to ensure accurate and reliable results.
Dr.Camel's Conclusion
This study explores the fascinating world of brain imaging, particularly the use of xenon inhalation. Like a skilled desert explorer, researchers are constantly seeking ways to improve the accuracy and reliability of these techniques. This study suggests that hydroxyzine could be a valuable tool in minimizing motion artifacts, ensuring a clearer view of the brain's intricate pathways.
Date :
- Date Completed 2000-05-17
- Date Revised 2015-11-19
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English
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