雑誌文献を検索します。書籍を検索する際には「書籍検索」を選択してください。

Kokyu to Junkan Volume 29, Issue 2 （February 1981）

呼吸と循環 29巻2号（1981年2月発行）

Japanese English

装置と方法

脳循環代謝モニターシステムの開発—I．アルゴンガスおよび医用質量分析器を用いた脳血流量測定法の検討 Monitoring System of Cerebral Blood Flow and Cerebral Metabolism:Part I. Measurement of cerebral blood flow and cerebral oxygen consumption by use of argon and mass spectrometry in clinical cases 栗山良紘 ¹ , 澤田徹 ¹ , 唐澤淳 ² , 菊池晴彦 ² , 畔政和 ³ , 新美次男 ¹ , 成富博章 ⁴ Yoshihiro Kuriyama ¹ , Tohru Sawada ¹ , Jun Karasawa ² , Haruhiko Kikuchi ² , Masakazu Kuro ³ , Tsuguo Niimi ¹ , Hiroaki Naritomi ⁴ ¹国立循環器病センター内科脳血管部門 ²国立循環器病センター脳神経外科 ³国立循環器病センター麻酔科 ⁴国立循環器病センター研究所脳循環研究室 ¹Department of medicine, cerebrovascular division, National Cardiovascular Center ²Department of neurosurgery, National Cardiovascular Center ³Department of anesthesiology, National Cardiovascular Center ⁴Research Institute, Cerebral blood flow laboratory, National Cardiovascular Center pp.147-152

発行日 1981年2月15日 Published Date 1981/2/15

DOI https://doi.org/10.11477/mf.1404203718

PDF(4355KB)

有料閲覧

Abstract 文献概要
1ページ目 Look Inside

　脳循環代謝の経日的なモニターができれば，脳血管障害急性期例についての病態の推移の把握や，高度の脳血管閉塞を有するhigh risk症例の外科手術中の脳循環代謝面よりの管理や，また例えばバルビタール療法中の症例の脳循環代謝面よりの管理が可能となり，治療方針の決定や種々の治療についての効果判定など大いに役立つものと考えられる。

　しかし現在までのところ，臨床例についての脳循環代謝のモニター法は確立されていない。

To develop the monitoring system of cerebral blood flow and cerebral metabolism, we tried to use argon and medical mass spectrometry in various cases of cerebrovascular disease. Quan-titative accuracy of mass spectrometry using silastic catheter was examined in the water bath at a controlled temperature of 37℃. The system was shown to be quantitatively accurate in a water equilibrated with accurately known argon gas mixtures. The inditial responses were identical in the different silastic catheters.

Cerebral blood flow was measured following procedures; The mass spectrometry has been previously balanced for oxygen, carbon dioxide, arogan and nitrogen in a constant temperature water bath with a calibration gas mixture. The right femoral artery was cannulated by a 15 cm long 21 gauge needle with a 19 gauge Teflon catheter sleeve. The spectrometer silastic catheter was inserted through the intra-arterial catheter so the silastic-covered porous tip extends above the tip of the Teflon catheter and lies directly in the blood stream. A similar needle and sleeve was inserted just lateral to the common carotid artery at midneck and the spectrometer catheter was inserted until slight resistance was met indicating the tip was in the jugular bulb.